WO2004022730A1 - Immunotherapy using modulators of notch signalling - Google Patents
Immunotherapy using modulators of notch signalling Download PDFInfo
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- WO2004022730A1 WO2004022730A1 PCT/GB2003/003874 GB0303874W WO2004022730A1 WO 2004022730 A1 WO2004022730 A1 WO 2004022730A1 GB 0303874 W GB0303874 W GB 0303874W WO 2004022730 A1 WO2004022730 A1 WO 2004022730A1
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- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N5/00—Undifferentiated human, animal or plant cells, e.g. cell lines; Tissues; Cultivation or maintenance thereof; Culture media therefor
- C12N5/06—Animal cells or tissues; Human cells or tissues
- C12N5/0602—Vertebrate cells
- C12N5/0634—Cells from the blood or the immune system
- C12N5/0639—Dendritic cells, e.g. Langherhans cells in the epidermis
- C12N5/064—Immunosuppressive dendritic cells
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N2501/00—Active agents used in cell culture processes, e.g. differentation
- C12N2501/40—Regulators of development
- C12N2501/42—Notch; Delta; Jagged; Serrate
Definitions
- the present invention relates to a method of treating or preventing GNHD and diseases and/or conditions related to GNHD.
- the present invention also relates to a method of treating or preventing diseases and/or conditions related to organ, tissue and cells transplants, and particularly, but not exclusively, bone marrow transplants.
- Bone marrow transplantation is used as a therapy for a number of malignant and non-malignant haematological diseases, including leukaemia, lymphoma, aplastic anaemia, thalassemia major and immunodeficiency diseases, especially severe combined immunodeficiency (SCID).
- SCID severe combined immunodeficiency
- graft-versus-host disease graft-versus-host disease
- GNHD affects between 50% and 70% of all bone marrow transplant patients and can also affect other (e.g. organ) transplant patients if immune cells are accidentally or co-incidentally transferred. It develops as donor T-cells recognise alloantigens (self-antigens) on the host cells. The activation and proliferation of these T-cells and the subsequent production of cytokines generate inflammatory reactions in the skin, gastrointestinal tract and liver. If it is severe, GNHD can result in generalised erythroderma of the skin, gastrointestinal haemorrhage and liver failure. GNHD is responsible for 20% of deaths following bone marrow transplant treatment.
- Various treatments are used to prevent GNHD.
- a transplant recipient is placed on a regimen of immunosuppressive drugs (e.g. cyclosporin A and methotrexate) to inhibit a donor cell immune response.
- the donor bone marrow is treated with anti-T-cell antisera or monoclonal antibodies specific for T-cells before transplantation, thereby depleting the offending T- cells.
- T-cell depletion allows successful engraftment, it results in catastrophically high infection rates (because the host does not receive a functional immune system) and increases the likelihood that the marrow will be rejected.
- PBSC peripheral blood stem cell
- T-cell depletion A low level of donor T-cell activity can indeed be beneficial insofar as the donor cells will kill any host T-cells that survive immunosuppression treatment and therefore further reduce the risk of graft rejection.
- this method does not completely eliminate the risk of GNHD, nor does it eliminate the risk of infection due to reduced immunocompetence. Improved approaches are therefore required.
- PCT/GB02/004390 filed on 27 September 2002 PCT/GB02/05133 (filed on 13 November 2002 and published as WO 03/042246; claiming priority from GB 0127271.5 filed on 14 November 2001 and GB 0220913.8 filed on 10 September 2002).
- PCT/GB97/03058 (WO 98/20142), PCT/GB99/04233 (WO 00/36089), PCT/GB00/04391 (WO 0135990), PCT/GB01/03503 (WO 02/12890), PCT/GB02/02438 (WO 02/096952), PCT/GB02/03381 (WO 03/012111), PCT/GB02/03397 (WO 03/012441), PCT/GB02/03426 (WO 03/011317), PCT/GB02/04390 (WO 03/029293), PCT/GB02/05137 (WO 03/041735) and PCT/GB02/05133 (WO 03/042246) is hereby incorporated herein by reference Reference is made also to Hoyne G.F.
- the present invention provides, in a first aspect, a use of a modulator of Notch signalling for the preparation of a medicament for treatment of Graft Versus Host Disease (GVHD).
- GVHD Graft Versus Host Disease
- the present invention provides, a use of a modulator of Notch signalling for the preparation of a medicament for treatment of Graft Versus Host Disease (GVHD) in bone marrow transplantation.
- GVHD Graft Versus Host Disease
- GVHD By treating GVHD we include prolonging allograft and non-allograft survival. We also include treating and/or preventing diseases and conditions caused by or associated with GVHD.
- GVHD Diseases and conditions caused by or associated with GVHD include infection associated with immuno-suppression, inflammation (including chronic inflammatory pathologies such as sarcoidosis, chronic inflammatory bowel disease, ulcerative colitis and Crohn's pathology; and vascular inflammatory pathologies such as disseminated intravascular coagulation, artherosclerosis and Kawasaki's pathology), erythroderma of the skin, severe blistering, gastrointestinal haemorrage, fulminant liver failure, jaundice, scleroderma, joint contractures, skin ulcers, erythematous macules, erythema, esophageal dysmotility, fevers, anthema, diarrhoea, vomituration, anoraxia, abdominal pain, hepatopathy, hepatic insufficiency, hair loss and generalised wasting syndrome.
- inflammation including chronic inflammatory pathologies such as sarcoidosis, chronic inflammatory bowel disease, ulcerative colitis and Crohn'
- the present invention provides a use of a modulator of Notch signalling for the preparation of a medicament for treatment of diseases and conditions caused by or associated with organ transplants (such as kidney, heart, lung, liver and pancreas transplants), tissue transplants (such as skin grafts) and cell transplants (such as bone marrow transplants and blood transfusions).
- organ transplants such as kidney, heart, lung, liver and pancreas transplants
- tissue transplants such as skin grafts
- cell transplants such as bone marrow transplants and blood transfusions.
- the present invention relates particularly to bone marrow transplants.
- Diseases and conditions caused by or associated with bone marrow transplants include malignant, haematologic or genetic diseases such as leukaemia (Chronic Myeloid Leukaemia, Acute Myeloid Leukaemia, Chronic Lymphocytic Leukaemia, Acute Lymphocytic Leukaemia and/or myelodyspastic syndrome), aplastic anaemia, thalassemia major, multiple myeloma, immunodeficiency diseases (such as severe combined immunodeficiency - SCID, systemic lupus erythematosus - SLE, rheumatoid arthritis, rheumatoid spondylitis, osteoarthritis, gouty arthritis and other arthritic conditions, thyroidosis, scleroderma, diabetes mellitus, Graves' disease, Beschet's disease, etc.) lymphomas (including Hodgkin's and non-Hodgkin's lymphomas such as malignant lympho
- the modulator of the present invention may be selected from the group consisting of: an organic compound, a inorganic compound, a peptide or polypeptide, a polynucleotide, an antibody, a fragment of an antibody, a cytokine and a fragment of a cytokine.
- the modulator is the modulator is capable of activating and/or up-regulating Notch signalling.
- the modulator is capable of activating and or up-regulating the expression and/or activity of at least one Notch ligand such as a Notch ligand or a fragment or analogue thereof which retains the signalling transduction ability of Notch ligand (e.g. a polypeptide from the Delta or Serrate family of proteins), or a polynucleotide sequence which encodes therefor.
- preparation of the medicament according to the present invention comprises:
- Exposing means bringing together in such a way that the cell may interact with and/or be modified by the modulator. It therefore includes both simple incubation of a cell with a solution or composition containing a modulator of Notch signalling and expressing such a modulator in the cell itself (e.g. by genetic modification).
- step (ii) may comprises bringing the APC from a transplant patient into direct contact with the modulator; or it may comprise transforming the APC from a transplant patient with the modulator or a polynucleotide sequence encoding the modulator.
- the APC of step (i) is a dendritic cell (DC) and the APCs or lymphocytes of step (iii) are T-cells.
- DC dendritic cell
- the modulator is capable of activating and/or upregulating the expression and/or activity of Notch.
- a modulator will preferably be a Notch ligand (e.g. a polypeptide from the Delta or Serrate family of proteins) or a fragment or analogue thereof which retains the signalling transduction ability of Notch ligand, or a polynucleotide sequence which encodes therefor.
- the modulator may be the Notch receptor or a derivative, fragment, variant or homologue thereof, or a polynucleotide sequence encoding therefor, h a preferred embodiment, the modulator will be a constitutively active form of Notch.
- Use of such a modulator for the preparation of a medicament comprises: (i) isolating an APC or lymphocyte from a transplant donor; (ii) exposing the APC or lymphocyte to the modulator; and (iii) incubating said cell with APCs from a transplant patient.
- Step (ii) may comprise bringing the APC or lymphocyte from a transplant donor into direct contact with the modulator; or transformhig the APC or lymphocyte from a transplant donor with the modulator or a polynucleotide sequence encoding the modulator, thereby causing activation and/or up-regulation of the expression and/or activity of Notch in the APC or lymphocyte.
- the APC or lymphocyte of step (i) is a T-cell and the APCs of step (iii) are dendritic cells (DCs).
- DCs dendritic cells
- both Notch and Notch ligand may be activated and/or upregulated.
- a method of preparing donor cells for use in a transplant comprising: (i) isolating an antigen presenting cell (APC) from a transplant patient; (ii) exposing the cell to a modulator of Notch signalling; and (iii) incubating said cell with APCs or lymphocytes from the transplant donor.
- APC antigen presenting cell
- a method of preparing donor cells for use in a transplant comprising:
- the modulator and APCs are preferably as defined above and the method is preferably for use in the preparation of donor cells for use in an organ transplants (such as kidney, heart, lung, liver or pancreas transplants), tissue transplants (such as skin grafts) or cell transplants (such as a bone marrow transplants or blood transfusions); although they may of course be used in any transplant where there is a risk of immune cell transfer from the donor to an immuno-compromised patient.
- organ transplants such as kidney, heart, lung, liver or pancreas transplants
- tissue transplants such as skin grafts
- cell transplants such as a bone marrow transplants or blood transfusions
- a donor cell prepared according to the method of the invention.
- a donor cell according to the invention for the preparation of a medicament for treatment of GVHD and diseases and conditions caused by or associated with transplants such as organ transplants (e.g. kidney, heart, lung, liver or pancreas transplants), tissue transplants (e.g. skin grafts), or cell transplants (e.g. bone marrow transplants or blood transfusions).
- transplants such as organ transplants (e.g. kidney, heart, lung, liver or pancreas transplants), tissue transplants (e.g. skin grafts), or cell transplants (e.g. bone marrow transplants or blood transfusions).
- organ transplants e.g. kidney, heart, lung, liver or pancreas transplants
- tissue transplants e.g. skin grafts
- cell transplants e.g. bone marrow transplants or blood transfusions.
- a donor cell according to the invention for the preparation of a medicament for treatment of diseases and conditions caused by or associated with bone marrow transplants.
- a pharmaceutical composition for use in the treatment of GVHD and diseases and conditions caused by or associated with transplants such as organ transplants (e.g. kidney, heart, lung, liver or pancreas transplants), tissue transplants (e.g. skin grafts) or cell transplants (e.g. bone marrow transplants or blood transfusions) comprising donor cells according to the invention together with a pharmaceutically acceptable carrier.
- transplants such as organ transplants (e.g. kidney, heart, lung, liver or pancreas transplants), tissue transplants (e.g. skin grafts) or cell transplants (e.g. bone marrow transplants or blood transfusions) comprising donor cells according to the invention together with a pharmaceutically acceptable carrier.
- transplants e.g. kidney, heart, lung, liver or pancreas transplants
- tissue transplants e.g. skin grafts
- cell transplants e.g. bone marrow transplants or blood transfusions
- a modulator of Notch signalling will be in a multimerised form.
- Figure 1 shows aligned amino acid sequences of DSL domains from various Drosophila and mammalian Notch ligands
- Figure 2 shows schematic representations of the Notch ligands Jagged and Delta
- Figure 3 shows amino acid sequences of human Delta- 1, Delta-3 and Delta-4
- Figure 4 shows amino acid sequences of human Jagged- 1 and Jagged-2
- Figure 5 shows the amino acid sequence of human Notchl
- Figure 6 shows the amino acid sequence of human Notch2
- Figure 7 shows schematic representations of Notch 1-4
- Figure 8 shows a schematic representation of NotchIC
- Figures 9 and 10 show schematic representations of the Notch signalling pathway
- Figure 11 shows the results of Example 4.
- MHC antigens are present on all cells. They define the immunological identity of an individual and enable the immune system to distinguish between self and non- self matter. When MHC bearing tissue is transferred from one individual to another via an organ transplant, it is recognised by the T-cells of the recipient as foreign leading to rejection of the tissue in a Host Versus Graft (HVG) reaction.
- HVG Host Versus Graft
- immunocompetent cells are transferred from a normal individual to an immunocompromised host (e.g. a bone marrow transplant patient), the grafted immunocompetent cells (mainly T lymphocytes) do not recognise the host MHC complex and initiate a Graft Versus Host reaction leading to GVHD.
- GVHD has both an activation (or "afferent") phase and an effector phase.
- T-cells from the donor bone marrow (or other transplant) recognise host peptide-MHC complexes displayed on Antigen Presenting Cells (APCs).
- APCs Antigen Presenting Cells
- Antigen presentation together with a co-stimulatory signal induces donor T-cell activation and proliferation.
- Cytokines produced by the activated donor T-cells including IL-2 (interleukin 2), IFN-g (interferon g) and TNF-a), induce the effector phase of GVHD by recruiting and activating a variety of secondary effector cells such as NK cells and macrophages. These cells attack cells of the transplant recipient.
- the main targets include the skin, gastrointestinal tract, liver and lymphoid organs (Ferrara and Deeg, 1991).
- Acute GVHD occurs 10-30 days after transplantation.
- Chronic GVHD occurs after approximately 100 days post-transplantation.
- Chronic GVHD usually evolves from acute GVHD but may occur de novo in 20-30%) of patients.
- Incidence of GNHD is higher in recipients of allogeneic hematopoietic cells than in patients receiving syngeneic or autologous hematopoietic cells. The greatest incidence occurs in patients in whom bone marrow is used as the source of hematopoietic cells.
- PBSCs Peripheral blood stem cells
- CBSCs cord blood stem cells
- GNHD incidence of GNHD in allogeneic recipients increases with the degree of mismatch of major histocompatibility antigens, but GNHD still occurs in matched donor-recipients regardless of the source of the stem cells (i.e. marrow, PBSCs, CBSCs).
- PBSCs PBSCs
- CBSCs stem cells
- Patients receiving autologous hematopoietic cells are at risk of developing GNHD, especially if they receive cyclosporin and/or interferon gamma peritransplants.
- Patients who develop GNHD after an autologous or syngeneic cell transplant tend to develop a milder form of the disease.
- GNHD has also been reported after solid organ transplant (especially liver) and after transfer of immunocompetent maternal cells to a relatively immunosuppressed foetal recipient.
- Acute GNHD consists of tender erythematous macules that may coalesce over time. Acute GNHD is observed 10-30 days post-transplant. Eruptions usually begin as faint tender erythematous macules on any body part (palms and soles often present first). When erythematous macules form on the trunk or limbs, erythema has been noted to form preferentially around the hair follicle. As the disease progresses, more erythematous macules form and may coalesce to form confluent erythema.
- the erythematous macules may evolve into papules, h the most severe cases, subepidermal bullae form, and the disease resembles toxic epidermal necrolysis.
- a staging system for the skin involvement in acute GNHD has been outlined: • Stage 1 - Less than 25%o body surface involvement
- stage 1 GVHD stage 1 GVHD that responds to therapy and never progresses further.
- Other patients develop a fulminant form that quickly evolves from erythroderma to a lichen planus-like eruption.
- Patients who develop acute GVHD may also develop massive gastrointestinal bleeding or fulminant liver failure and j aundice.
- Chronic GVHD Patients with chronic GVHD exhibit skin changes that resemble either lichen planus or scleroderma, sometimes simultaneously or sequentially. Chronic GVHD evolves from acute GVHD in 70-90%> of patients. The risk of developing chronic GVHD increases with the severity of the acute GVHD syndromes (e.g. patients with stage 3 or stage 4 acute GVHD are more likely to develop chronic GVHD than patients with stage 1 or stage 2 acute GVHD).
- violaceous lichenified papules arise that are indistinguishable from lichen planus. Typical lacy white patches on the buccal mucosa of lichen planus are often present. Lichenoid papules have a predilection for flexural surfaces. Sclerodermatous changes are seen in patients with chronic GVHD and some patients exhibit scattered sclerodermatous plaques.
- GVHD liver and gastrointestinal tract involvement in acute GVHD affects patient outcome.
- Evidence of liver and/or gastrointestinal tract GVHD without skin involvement is rare.
- Patients who develop chronic GVHD may also develop skin ulcers, hair loss and a generalised wasting syndrome.
- Other major symptoms associated GVHD include frequent fever, anthema, diarrhoea, vomiturition, anorexia, abdominal pain, hepatopathy and hepatic insufficiency.
- Patients with acute or chronic GVHD are immuno-suppressed and at risk of life-threatening opportunistic infections similar to those that develop in AIDS patients.
- Acute GVHD occurs in approximately 50% of patients who receive bone marrow transplants and is a primary or contributory cause of death in 15-45% of the 50% of the patients who develop GVHD after bone marrow transplant.
- the post- transplant period is also associated with immune dysfunction due to use of prior ablative radio/chemotherapy to suppress the recipient's lymphoid system (especially mature T lymphocytes). This in turn often results in severe infections, which are also a major cause of morbidity and mortality in transplant patients.
- GVHD includes any one or more of the symptoms of the disease so that reference to treatment of GVHD includes treatment of, for example, liver failure and/or scleroderma.
- Therapeutic strategy for the treatment of GVHD requires a selective suppression of T-cell alloreactivity together with protection against opportunistic infections.
- Notch can be used to reduce the reactivity of (i.e. to "tolerise") donor T-cells and therefore lower the risk of GVHD without affecting the immune system's ability to fight infection.
- Bone marrow transplants are used to treat a variety of malignant, haematologic and genetic diseases such as thalassia major, immunodeficiency diseases especially severe combined immunodeficiency (SCID), leukaemia (Chronic Myeloid Leukaemia, Acute Myeloid Leukaemia, Chronic Lymphocytic Leukaemia or Acute Lymphocytic Leukaemia), aplastic anaemia, multiple myeloma, lymphomas and other malignant diseases.
- SCID severe combined immunodeficiency
- leukaemia Choronic Myeloid Leukaemia, Acute Myeloid Leukaemia, Chronic Lymphocytic Leukaemia or Acute Lymphocytic Leukaemia
- aplastic anaemia multiple myeloma, lymphomas and other malignant diseases.
- the bone marrow which is obtained from a living donor by multiple needle aspirations, comprises erythroid, myeloid, monocytoid, megakaryocytic and lymphocytic lineages.
- the graft usually about 10 9 cells per kg of host body weight, is injected intravenously into the recipient.
- Bone marrow transplantation can be offered to those patients who lack an appropriate sibling donor by using bone marrow from antigenically matched, genetically unrelated donors, or by using bone marrow from a genetically related sibling or parent who has no less than three (out of six) matching Major Histocompatibility Complex (MHC) antigens.
- MHC Major Histocompatibility Complex
- the recipient of a bone marrow transplant is immunologically suppressed before grafting.
- the immune-suppressed state of the recipient makes graft rejection rare; however, because the donor bone marrow contains immunocompetent cells, the graft may reject the host, causing GVHD.
- the present invention seeks to overcome these problems.
- Stem cell transplants such as Peripheral Blood Stem Cell (PBSC) transplants or Cord Blood Stem Cell (CBSC) transplants
- PBSC Peripheral Blood Stem Cell
- CBSC Cord Blood Stem Cell
- Stem cells which can be induced to differentiate into any type of blood cell
- apherisis a filtering process
- Stem cells which are induced to differentiate into cells of the immune j system such as lymphocytes and, in particular, T-cells, can be used to restore a competent immune system to an immuno-compromised patient. This process does not, however, eliminate the risk of GVHD in patients unable to supply their own stem cells (although the immunologic immaturity of CBSCs may lessen the risk this remains to be tested).
- GVHD has also been observed in blood transfusion and maternal foetal transfusion patients. Both procedures may therefore be improved by use of the present invention.
- the present invention can also be used in the treatment of diseases and conditions caused by or associated with organ or tissue transplants. Indeed, the invention can be used wherever there is a risk of (accidental or co- incidental) immune cell transfer from the donor to an immuno-compromised patient.
- a brief overview of the most common types of organ and tissue transplants is set out below.
- Kidney Transplants
- Kidneys are the most commonly transplanted organs. Kidneys can be donated by both cadavers and living donors and kidney transplants can be used to treat numerous clinical indications (including diabetes, various types of nephritis and kidney failure). Surgical procedure for kidney transplantation is relatively simple. However, matching blood types and histocompatibility groups is desirable to avoid graft rejection. It is indeed important that a graft is accepted as many patients can become "sensitised” after rejecting a first transplant. Sensitisation results in the formation of antibodies and the activation of cellular mechanisms directed against kidney antigens. Thus, any subsequent graft containing antigens in common with the first is likely to be rejected. As a result, many kidney transplant patients must remain on some form of immunosuppressive treatment for the rest of their lives, giving rise to complications such as infection and metabolic bone disease.
- Heart transplantation is a very complex and high-risk procedure. Donor hearts must be maintained in such a manner that they will begin beating when they are placed in the recipient and can therefore only be kept viable for a limited period under very specific conditions. They can also only be taken from brain-dead donors. Heart transplants can be used to treat various types of heart disease and/or damage. HLA matching is obviously desirable but often impossible because of the limited supply of hearts and the urgency of the procedure.
- Lung transplantation is used (either by itself or in combination with heart transplantation) to treat diseases such as cystic fibrosis and acute damage to the lungs (e.g. caused by smoke inhalation). Lungs for use in transplants can only be recovered from brain-dead donors.
- Pancreas transplantation is mainly used to treat diabetes mellitus, a disease caused by malfunction of insulin-producing islet cells in the pancreas. Organs for transplantation can only be recovered from cadavers although it should be noted that transplantation of the complete pancreas is not necessary to restore the function needed to produce insulin in a controlled fashion. Indeed, transplantation of the islet cells alone could be sufficient. Because kidney failure is a frequent complication of advanced diabetes, kidney and pancreas transplants are often carried out simultaneously.
- Liver transplants are used to treat organ damage caused by viral diseases such as hepititis, or by exposure to harmful chemicals (e.g. by chronic alcoholism). Liver transplants are also used to treat congenital abnormalities.
- the liver is a large and complicated organ meaning that transplantation initially posed a technical problem. However, most transplants (65%) now survive for more than a year and it has been found that a liver from a single donor may be split and given to two recipients.
- leukocytes within the donor organ together with anti-blood group antibodies can mediate antibody-dependent hemolysis of recipient red blood cells if there is a mismatch of blood groups.
- manifestations of GVHD have occurred in liver transplants even when donor and recipient are blood-group compatible.
- Notch signalling is synonymous with the expression “the Notch signalling pathway” and refers to any one or more of the upstream or downstream events that result in, or from, (and including) activation of the Notch receptor.
- Notch was first described in Drosophila as a transmembrane protein that functions as a receptor for two different ligands, Notch and Serrate. Vertebrates have now been found to express multiple Notch receptors and ligands. At least four Notch receptors (Notch-1, Notch-2, Notch-3 and Notch-4) have been identified to date in human cells (see, for example, GenBank Accession Nos. AF308602, AF308601 and U95299 - Homo sapiens).
- EGF epidermal growth factor
- L/N three cysteine rich repeats
- L/N lactamine-Notch
- the cytoplasmic domain of Notch contains six ankyrin-like repeats, a polyglutamine stretch (OP A) and a PEST sequence.
- a further domain termed RAM23 lies proximal to the ankyrin repeats and, like the ankyrin-like repeats, is involved in binding to a transcription factor, known as Suppressor of
- the Notch receptor present in the plasma membrane comprises a disulphide-linked heterodimer of two Notch proteolytic cleavage products, one comprising an C- terminal fragment consisting of a portion of the extracellular domain, the transmembrane domain and the intracellular domain, and the other comprising the majority of the extracellular domain.
- the Notch receptor is activated by binding of ligands to the EGF-like repeats of Notch's extracellular domain.
- ligands include the
- Delta family for example Delta- 1 (Genbank Accession No. AF003522 - Homo sapiens), Delta-3 (Genbank Accession No. AF084576 - Rattus norvegicus) and Delta-like 3 (Mus musculus), the Serrate family, for example Serrate-1, Serrate-2 (WO97/01571, WO96/27610 and WO92/19734), Jagged-1 and Jagged-2 (Genbank Accession No. AF029778 - Homo sapiens), Scabrous and LAG-2.
- Notch ligands are characterised by multiple (3-8) EGF-like repeats in their extracellular domains together with a cysteine-rich DSL (Delta-Serrate Lag2) domain comprising 20 to 22 amino acids at the N-terminus of the protein.
- Endogenous Notch ligands have been found to be expressed on the surface of cells of the immune system, such as antigen presenting cells (APCs) and T- lymphocytes, and play an important role in the regulation of tolerance induction (WO-A-98/20142).
- regulatory T-cells which are able to transmit antigen-specific tolerance to other T-cells, a process termed infectious tolerance (WO-A-98/20142).
- infectious tolerance WO-A-98/20142
- regulatory T-cells can be generated by over- expression of a member of the Delta or Serrate family of Notch ligand proteins.
- Delta or Serrate expressing T-cells specific to one antigenic epitope are also able to transfer tolerance to T-cells recognising other epitopes on the same or related antigens, a phenomenon termed "epitope spreading".
- the present invention provides a method of reducing the reactivity of (or "tolerising") the immune cells of a donor to the cells of the recipient suityably by incubating them with recipient APCs which have been contacted with a modulator of Notch signalling.
- Modulators of Notch signalling refers to a change or alteration in the biological activity of the Notch signalling pathway or a target signalling pathway thereof.
- the term “modulator” may refer to antagonists or inhibitors of Notch signalling, i.e. compounds which block, at least to some extent, the normal biological activity of the Notch signalling pathway. Conveniently such compounds may be referred to herein as inhibitors or antagonists.
- the term “modulator” may refer to compounds which stimulate or upregulate, at least to some extent, the normal biological activity of the Notch signalling pathway. Conveniently such compounds may be referred to as upregulators or agonists.
- the modulator of the present invention may be an organic compound or other chemical.
- the modulator will be an organic compound comprising two or more hydrocarbyl groups.
- hydrocarbyl group means a group comprising at least C and H and may optionally comprise one or more other suitable substituents. Examples of such substituents may include halo-, alkoxy-, nitro-, an alkyl group, a cyclic group etc. hi addition to the possibility of the substituents being a cyclic group, a combination of substituents may form a cyclic group. If the hydrocarbyl group comprises more than one C then those carbons need not necessarily be linked to each other. For example, at least two of the carbons may be linked via a suitable element or group.
- the hydrocarbyl group may contain hetero atoms. Suitable hetero atoms will be apparent to those skilled in the art and include, for instance, sulphur, nitrogen and oxygen.
- the modulator may comprise at least one cyclic group.
- the cyclic group may be a polycychc group, such as a non-fused polycychc group.
- the modulator comprises at least the one of said cyclic groups linked to another hydrocarbyl group.
- the modulator will be an amino acid sequence or a chemical derivative thereof, or a combination thereof.
- Proteins or polypeptides may be in the form of "mature" proteins or may be a part of a larger protein such as a fusion protein or precursor.
- an additional amino acid sequence which contains secretory or leader sequences or pro-sequences (such as a HIS oligomer, immunoglobulin Fc, glutathione S- transferase, FLAG etc) to aid in purification.
- secretory or leader sequences or pro-sequences such as a HIS oligomer, immunoglobulin Fc, glutathione S- transferase, FLAG etc
- additional sequence may sometimes be desirable to provide added stability during recombinant production. In such cases the additional sequence may be cleaved (e.g.
- the additional sequence may also confer a desirable pharmacological profile (as in the case of IgFc fusion proteins) in which case it may be preferred that the additional sequence is not removed so that it is present in the final product as administered.
- Polypeptide substances may be purified from mammalian cells, obtained by recombinant expression in suitable host cells or obtained commercially. Alternatively, nucleic acid constructs encoding the polypeptides may be used.
- the modulator will be a nucleotide sequence (which may be a sense or an anti-sense sequence).
- the modulator may also be an antibody.
- antibody includes intact molecules as well as fragments thereof which are capable of binding the epitopic determinant. These antibody fragments retain some ability to selectively bind with its antigen or receptor and include, for example:
- Fab fragment which contains a monovalent antigen-binding fragment of an antibody molecule can be produced by digestion of whole antibody with the enzyme papain to yield an intact light chain and a portion of one heavy chain;
- Fab' the fragment of an antibody molecule can be obtained by treating whole antibody with pepsin, followed by reduction, to yield an intact light chain and a portion of the heavy chain; two Fab' fragments are obtained per antibody molecule;
- F(ab') 2 the fragment of the antibody that can be obtained by treating whole antibody with the enzyme pepsin without subsequent reduction;
- F(ab') 2 is a dimer of two Fab' fragments held together by two disulfide bonds;
- scFv including a genetically engineered fragment containing the variable region of a heavy and a light chain as a fused single chain molecule.
- the modulator of the present invention may be a natural isolated compound or a synthetic compound.
- the modulator of the present invention is a compound capable of stimulating the Notch signalling pathway.
- the modulator of the Notch signalling pathway is an agent capable of activating a Notch receptor (a "Notch receptor agonist").
- a Notch receptor agonist an agent capable of activating a Notch receptor
- the modulator may be a Notch ligand or a biologically active fragment or derivative of a Notch ligand.
- Notch ligand means an agent capable of interacting with and preferably activating a Notch receptor to cause a biological effect.
- the term as used herein therefore includes naturally occurring protein ligands (eg from Drosophila, verterbrates, mammals) such as Delta and Serrate/ Jagged (eg mammalian ligands Deltal, Delta 3, Delta4, Jaggedl and Jagged2 and homologues) and their biologically active fragments as well as antibodies to the Notch receptor, as well as peptidomimetics, antibodies and small molecules which have corresponding biological effects to the natural ligands.
- Naturally occurring protein ligands eg from Drosophila, verterbrates, mammals
- Delta and Serrate/ Jagged eg mammalian ligands Deltal, Delta 3, Delta4, Jaggedl and Jagged2 and homologues
- their biologically active fragments as well as antibodies to the Notch receptor, as well as peptidomimetics, antibodies and small molecules which have corresponding biological effects to the natural ligands
- mimetic in relation to polypeptides or polynucleotides, includes a compound that possesses at least one of the endogenous functions of the polypeptide or polynucleotide which it mimics.
- WO 0020576 discloses a monoclonal antibody secreted by a hybridoma designated A6 having the ATCC Accession No. HB 12654, a monoclonal antibody secreted by a hybridoma designated Cll having the ATCC Accession No. HB 12656 and a monoclonal antibody secreted by a hybridoma designated F3 having the ATCC Accession No. HB12655.
- the modulator of the Notch signalling pathway comprises or codes for a protein or polypeptide comprising a Notch ligand DSL or EGF domain or a fragment, derivative, homologue, analogue or allelic variant thereof.
- the modulator of the Notch signalling pathway comprises or codes for a Notch ligand DSL domain and at least one EGF repeat motif, suitably at least 1 to 20, suitably at least 3 to 15, for example at least about 3 to 8 EGF repeat motifs.
- the DSL and EGF sequences are or correspond to mammalian sequences. Preferred sequences include mammalian, preferably human sequences.
- the modulator is an agonist of Notch signalling, and preferably an agonist of the Notch receptor (eg an agonist of the Notchl, Notch2, Notch3 and/or Notch4 receptor, preferably being a human Notch receptor).
- an agonist eg an agonist of the Notchl, Notch2, Notch3 and/or Notch4 receptor, preferably being a human Notch receptor.
- activator of Notch binds to and activates a Notch receptor, preferably including human Notch recpetors such as human Notchl, Notch2, Notch3 and/or Notch4. Binding to and/or activation of a Notch receptor may be assessed by a variety of techniques known in the art including in vitro binding assays and activity assays for example as described herein.
- any particular agent activates Notch signalling may be readily determined by use of any suitable assay, for example by use of a HES-l/CBF-1 reporter assay of the type described in WO03/012441 in the name of Lorantis Ltd (eg see Examples 8 and 9 therein).
- antagonist activity may be readily determined for example by monitoring any effect of the agent in reducing signalling by known Notch signalling agonists for example, as described in WO03/012441 or WO 03/041735 in the name of Lorantis Ltd (eg see Examples 10,11 and 12) (ie in a so-called "antagonist" assay).
- Modulators for Notch signalling activation include molecules which are capable of activating Notch, the Notch signalling pathway or any one or more of the components of the Notch signalling pathway.
- the Notch signalling pathway in described in WO02/12890. It includes events leading to the activation of Notch, activation of Notch itself, the downstream events of the Notch signalling pathway, transcriptional regulation of downstream target genes and other, non-transcriptional downstream events (e.g. posttranslational modification of existing proteins).
- the Notch signalling pathway will also be understood to include the activation and/or expression of target genes.
- a very important component of the Notch signalling pathway is Notch receptor/Notch ligand interaction.
- Notch signalling may involve changes in expression, nature, amount or activity of Notch ligands or receptors or their resulting cleavage products.
- Notch signalling pathway membrane proteins or G- proteins or Notch signalling pathway enzymes such as proteases, kinases (e.g. serine/threonine kinases), phosphatases, ligases (e.g. ubiquitin ligases) or glycosyltransferases.
- the pathway may involve changes in expression, nature, amount or activity of DNA binding elements such as transcription factors.
- the modulator of the present invention will be capable of inducing or increasing Notch or Notch ligand expression.
- a molecule may be a nucleic acid sequence capable of inducing or increasing Notch or Notch ligand expression.
- the modulator will be a Notch ligand, or a polynucleotide encoding a Notch ligand.
- Notch ligands are typically capable of binding to a Notch receptor polypeptide present in the membrane of a variety of mammalian cells, for example hemapoietic stem cells.
- mammalian Notch ligands identified to date include the Delta family, for example Delta or Delta-like 1 (Genbank Accession No. AF003522 - Homo sapiens), Delta-3 (Genbank Accession No. AF084576 - Rattus norvegicus) and Delta-like 3 (Mus musculus) (Genbank Accession No. NM_016941 - Homo sapiens) and US 6121045 (Millennium)), Delta-4 (Genbank Accession Nos.
- homologues of known mammalian Notch ligands may be identified using standard techniques.
- a homologue it is meant a gene product that exhibits sequence homology, either amino acid or nucleic acid sequence homology, to any one of the known Notch ligands mentioned above.
- a homologue of a known Notch ligand will be at least 20%>, preferably at least 30%>, identical at the amino acid level to the corresponding known Notch ligand over a sequence of at least 10, preferably at least 20, preferably at least 50, suitably at least 100 amino acids or over the entire length of the Notch ligand.
- Homologues of Notch ligands can be identified in a number of ways, for example by probing genomic or cDNA libraries with probes comprising all or part of a nucleic acid encoding a Notch ligand under conditions of medium to high stringency (for example 0.03M sodium chloride and 0.03M sodium citrate at from about 50°C to about 60°C).
- medium to high stringency for example 0.03M sodium chloride and 0.03M sodium citrate at from about 50°C to about 60°C.
- homologues may be obtained using degenerate PCR which will generally use primers designed to target sequences within the variants and homologues encoding conserved amino acid sequences. The primers will contain one or more degenerate positions and will be used at stringency conditions lower than those used for cloning sequences with single sequence primers against known sequences.
- Suitable homologues will be capable of binding to a Notch receptor. Binding may be assessed by a variety of techniques known in the art including in vitro binding assays. Preferably, suitable homologues will comprise at least one distinctive Notch ligand domain.
- a typical DSL domain may include most or all of the following consensus amino acid sequence:
- DSL domain may include most or all of the following consensus amino acid sequence:
- ARO is an aromatic amino acid residue, such as tyrosine, phenylalanine, tryptophan or histidine;
- NOP is a non-polar amino acid residue such as glycine, alanine, proline, leucine, isoleucine or valine;
- BAS is a basic amino acid residue such as arginine or lysine.
- ACM is an acid or amide amino acid residue such as aspartic acid, glutamic acid, asparagine or glutamine.
- DSL domain may include most or all of the following consensus amino acid sequence:
- Xaa may be any amino acid and Asx is either aspartic acid or asparagine).
- the DSL domain used may be derived from any suitable species, including for example Drosophila, Xenopus, rat, mouse or human.
- the DSL domain is derived from a vertebrate, preferably a mammalian, preferably a human Notch ligand sequence.
- a DSL domain for use in the present invention may have at least 30%, preferably at least 50%, preferably at least 60%, preferably at least 70%), preferably at least 80%, preferably at least 90%, preferably at least 95% amino acid sequence identity to the DSL domain of human Jagged 1.
- a DSL domain for use in the present invention may, for example, have at least 30%>, preferably at least 50%o, preferably at least 60%>, preferably at least 70%, preferably at least 80%, preferably at least 90%, preferably at least 95% amino acid sequence identity to the DSL domain of human Jagged 2.
- a DSL domain for use in the present invention may, for example, have at least 30%>, preferably at least 50%>, preferably at least 60%>, preferably at least 70%, preferably at least 80%>, preferably at least 90%, preferably at least 95% amino acid sequence identity to the DSL domain of human Delta 1.
- a DSL domain for use in the present invention may, for example, have at least 30%>, preferably at least 50%>, preferably at least 60%>, preferably at least 70%), preferably at least 80%>, preferably at least 90%>, preferably at least
- a DSL domain for use in the present invention may, for example, have at least 30%, preferably at least 50%>, preferably at least 60%, preferably at least 70%), preferably at least 80%>, preferably at least 90%, preferably at least 95% amino acid sequence identity to the DSL domain of human Delta 4.
- EGF-like motif has been found in a variety of proteins, as well as Notch and Notch ligands, including those involved in the blood clotting cascade (Furie and
- Drosophila genes (Knust et al, 1987 EMBO J. 761-766; Rothberg et al, 1988, Cell 55:1047-1059), and in some cell-surface receptor proteins, such as thrombomodulin (Suzuki et al., 1987, EMBO J. 6:1891-1897) and LDL receptor
- EGF domain typically includes six cysteine residues which have been shown (in EGF) to be involved in disulfide bonds.
- the main structure is proposed, but not necessarily required, to be a two-stranded beta-sheet followed by a loop to a C-terminal short two-stranded sheet.
- Subdomains between the conserved cysteines strongly vary in length as shown in the following schematic representation of the EGF-like domain: x (4) -C-x (0 , 48) -C-x ( 3 , 12) -C-x (l, 70) -C-x (l, 6) -C-x (2) -G-a-x (0 , 21) -G-x (2) -C-x
- the region between the 5th and 6th cysteine contains two conserved glycines of which at least one is normally present in most EGF-like domains.
- the EGF-like domain used may be derived from any suitable species, including for example Drosophila, Xenopus, rat, mouse or human.
- the EGF-like domain is derived from a vertebrate, preferably a mammalian, preferably a human Notch ligand sequence.
- an EGF-like domain for use in the present invention may have at least 30%>, preferably at least 50%>, preferably at least 60%>, preferably at least 70%), preferably at least 80%o, preferably at least 90%, preferably at least 95% amino acid sequence identity to an EGF-like domain of human Jagged 1.
- an EGF-like domain for use in the present invention may, for example, have at least 30%), preferably at least 50%o, preferably at least 60%, preferably at least 70%>, preferably at least 80%>, preferably at least 90%, preferably at least 95% amino acid sequence identity to an EGF-like domain of human Jagged 2.
- an EGF-like domain for use in the present invention may, for example, have at least 30%), preferably at least 50%>, preferably at least 60%>, preferably at least 70%, preferably at least 80%, preferably at least 90%>, preferably at least 95%> amino acid sequence identity to an EGF-like domain of human Delta 1.
- an EGF-like domain for use in the present invention may, for example, have at least 30%, preferably at least 50%), preferably at least 60%, preferably at least 70%>, preferably at least 80%>, preferably at least 90%, preferably at least 95%> amino acid sequence identity to an EGF-like domain of human Delta 3.
- an EGF-like domain for use in the present invention may, for example, have at least 30%o, preferably at least 50%, preferably at least 60%, preferably at least 70%, preferably at least 80%>, preferably at least 90%, preferably at least 95%> amino acid sequence identity to an EGF-like domain of human Delta 4.
- Notch ligand N-terminal domain means the part of a Notch ligand sequence from the N-terminus to the start of the DSL domain. It will be appreciated that this term includes sequence variants, fragments, derivatives and mimetics having activity corresponding to naturally occurring domains.
- heterologous amino acid sequence or “heterologous nucleotide sequence” as used herein means a sequence which is not found in the native sequence (eg in the case of a Notch ligand sequence is not found in the native Notch ligand sequence) or its coding sequence. Typically, for example, such a sequence may be an IgFc domain or a tag such as a V5His tag.
- the percent identity of any particular amino acid sequence to any another sequence can be determined conventionally using known computer programs.
- the best overall match between a query sequence and a subject sequence also referred to as a global sequence alignment
- a program such as the FASTDB computer program based on the algorithm of Brutlag et al. (Comp. App. Biosci. (1990) 6:237-245).
- the query and subject sequences are either both nucleotide sequences or both amino acid sequences.
- the result of the global sequence alignment is given as percent identity.
- a modulator of use in the present invention may be any one of the above compounds, fragments, derivatives and homologues thereof or a combination of any two or more of said compounds.
- the modulator may be a polynucleotide capable of encoding any of the above polypeptides or a compound capable of affecting (preferably stimulating or up-regulating) the expression and/or activity of any one of said polypeptides.
- Activation of Notch signalling may also be achieved by repressing inhibitors of the Notch signalling pathway.
- candidate modulators will include molecules capable of repressing any Notch signalling inhibitors.
- the molecule will be a polypeptide, or a polynucleotide encoding such a polypeptide, that decreases or interferes with the production or activity of compounds that are capable of producing a decrease in the expression or activity of one or more Notch ligands.
- the modulators will be capable of repressing polypeptides of the Toll-like receptor protein family, cytokines such as IL-12, IFN- ⁇ , TNF- ⁇ , and growth factors such as BMPs, BMP receptors and activins.
- BMPs bone morphogenetic proteins, Wilson and Hemmati-Brivanlou, 1997; Hemmati-Brivanlou and Melton, 1997) to their extracellular receptors leads to inhibition of expression of the transcription factors of the achaete/scute complex and therefore to down-regulation of Delta.
- any compound that down-regulates BMP expression and/or prevents BMPs from binding to their receptors may be capable of producing an increase in the expression of Notch ligands such as Delta and/or Serrate.
- BMP anti-sense polynucleotides examples include BMP anti-sense polynucleotides; BMP mutants or mimetics capable of blocking BMP receptors by irreversibly binding thereto (or nucleic acid sequences encoding such compounds); and proteins (or nucleic acid sequences encoding proteins) such as Noggin (Valenzuela et al, 1995) and Chordin (Sasai et al, 1994). Noggin and Chordin bind to BMPs thereby preventing activation of their signalling cascade. Consequently, increasing Noggin and Chordin levels may lead to an increase in the expression of Notch ligands such as Delta and/or Serrate.
- Notch ligands such as Delta and/or Serrate.
- polypeptides that down-regulate or inhibit the expression of Delta and/or Serrate include the Toll-like receptor (Medzhitov et al, 1997) and any other receptors linked to the innate immune system (for example CD 14, complement receptors, scavenger receptors or defensin proteins), Mesp2 (Takahashi et al, 2000), immune costimulatory molecules (for example CD80, CD86, ICOS, SLAM); accessory molecules that are associated with immune potentiation (for example CD2, LFA-1) and activin (a member of the TGF-b superfamily).
- any compound that prevents or decreases expression of these proteins can be used to increase the expression of Notch ligands.
- Anti-sense constructs designed to reduce or inhibit the expression of down- regulators of Notch ligand expression may be oligonucleotides such as synthetic single-stranded DNA.
- the antisense is an antisense RNA produced in the patient's own cells as a result of introduction of a genetic vector.
- the vector is responsible for production of antisense RNA of the desired specificity on introduction of the vector into a host cell.
- Any of the above listed compounds may be used to increase Notch ligand expression and/or activity either by co-incubation and direct contact between the modulator and the host APC or by transfer of a polynucleotide construct encoding such a modulator into the host APC and expression thereof. Thus primed APC are then incubated with donor T-cells for induction of tolerance.
- host APCs may be incubated with donor T-cells in the presence of a Notch receptor agonist.
- the agonist will mimic Notch receptor stimulation and therefore induce tolerance in the donor immune cells.
- the modulator will be a polypeptide derived from any one of the above-described Notch ligands, fragments, derivatives, mimetics or homologues thereof.
- the modulator will be an active fragment of a Notch ligand, for example a Notch ligand EC domain.
- the modulator will be a constitutively active Notch receptor or Notch intracellular domain, or a polynucleotide encoding such a receptor or intracellular domain.
- the modulator may be the Notch polypeptide or polynucleotide or a fragment, variant, derivative, mimetic or homologue thereof which retains the signalling transduction ability of Notch or an analogue of Notch which has the signalling transduction ability of Notch.
- Notch we mean Notch- 1, Notch-2, Notch-3, Notch-4 and any other Notch homologues or analogues.
- Analogues of Notch include proteins from the Epstein Barr virus (EBV), such as EBNA2, BARFO or LMP2A.
- the modulator may be the Notch intracellular domain (Notch IC) or a sub-fragment, variant, derivative, mimetic, analogue or homologue thereof.
- the Notch sequence will comprise at least a Notch Ankyrin repeat domain and optionally a Notch LNR domain, Notch RAM domain, Notch OPA domain and/or Notch PEST sequence.
- Notch- 1 protein known as TAN-1, which has a truncated extracellular domain.
- the activating molecule of the present invention may also be a compound capable of modifying Notch-protein expression or presentation on the cell membrane.
- Agents that enhance the presentation of a fully functional Notch- protein on the target cell surface include matrix metalloproteinases such as the product of the Kuzbanian gene of Drosophila (Dkuz) and other ADAMALYSTN gene family members.
- the modulator of Notch signalling will act downstream of the Notch receptor.
- the activator of Notch signalling may be a constitutively active Deltex polypeptide or a polynucleotide encoding such a polypeptide.
- Notch signalling pathway Other endogenous downstream components of the Notch signalling pathway include Deltex-1, Deltex-2, Deltex-3, Suppressor of Deltex (SuDx), Numb and isoforms thereof, Numb associated Kinase (NAK), Notchless, Dishevelled (Dsh), emb5, Fringe genes (such as Radical, Lunatic and Manic), PON, LNX, Disabled, Numblike, Nur77, NFkB2, Mirror, Warthog, Engrailed- 1 and Engrailed-2, Li ⁇ -1 and homologues thereof, the polypeptides involved in the Ras/MAPK cascade modulated by Deltex, polypeptides involved in the proteolytic cleavage of Notch such as Presenilin and polypeptides involved in the transcriptional regulation of Notch target genes.
- Modulators of use in the present invention will therefore include constitutively active forms of any of the above, analogues, homologues, derivatives, variants, mimetics and fragments thereof.
- Modulators for Notch signalling activation may also include any polypeptides expressed and/or activated as a result of Notch activation and any polypeptides involved in the expression of such polypeptides, or polynucleotides encoding for such polypeptides.
- Such polypeptides include, for example Suppressor of Hairless [Su(H)J.
- Su(H) is the Drosophila homologue of C-promoter binding factor- 1 [CBF-1], a mammalian DNA binding protein involved in the Epstein-Barr virus-induced immortalization of B-cells. It has been demonstrated that, at least in cultured cells, Su(H) associates with the cdclO/ankyrin repeats in the cytoplasm and translocates into the nucleus upon the interaction of the Notch receptor with its ligand Delta on adjacent cells. Su(H) includes responsive elements found in the promoters of several genes and has been found to be a critical downstream protein in the Notch signalling pathway. The involvement of Su(H) in transcription is thought to be modulated by Hairless.
- Such polypeptides may also include the intracellular domain of Notch ("Notch IC").
- Notch IC includes the full intracellular domain of Notch or an active portion of this domain.
- the sequence may be a sequence comprising or coding for at least amino acids 1848 to 2202 of human Notchl or a sequence having at least 70%», preferably at least 75%o, preferably at least 80%o, preferably at least 85%o, preferably at least 90%, preferably at least 95%> amino acid sequence similarity or identity with this sequence.
- the sequence may also suitably be derived from human Notch2, Notch3 or Notch4.
- the Notch intracellular domain in its endogenous form, has a direct nuclear function (Lieber). Recent studies have indeed shown that Notch activation requires that the six cdclO/ankyrin repeats of the Notch intracellular domain reach the nucleus and participate in transcriptional activation.
- the site of proteolytic cleavage on the intracellular tail of Notch has been identified between gly 1743 and vail 744 (termed site 3, or S3) (Schroeter). It is thought that the proteolytic cleavage step that releases the cdclO/ankyrin repeats for nuclear entry is dependent on Presenilin activity.
- the intracellular domain has been shown to accumulate in the nucleus where it forms a transcriptional activator complex with the CSL family protein CBF1 (suppressor of hairless, Su(H) in Drosophila, Lag-2 in C. elegans) (Schroeter; Struhl).
- CSL family protein CBF1 suppressor of hairless, Su(H) in Drosophila, Lag-2 in C. elegans
- the NotchlC-CBFl complexes then activate target genes, such as the bHLH proteins HES (hairy-enhancer of split like) 1 and 5 (Weinmaster).
- This nuclear function of Notch has also been shown for the mammalian Notch homologue (Lu).
- Fringe modifies Notch to prevent it from interacting functionally with Serrate/ Jagged ligands but allow it to preferentially bind Delta (Panin; Hicks).
- Drosophila has a single Fringe gene, vertebrates are known to express multiple genes (Radical, Manic and Lunatic Fringes) (Irvine).
- Notch can also signal in a CBF1 -independent manner that involves the cytoplasmic zinc finger containing protein Deltex.
- Deltex does not move to the nucleus following Notch activation but instead can interact with Grb2 and modulate the Ras-JNK signalling pathway.
- Deltex an intracellular docking protein, replaces Su(H) as it leaves its site of interaction with the intracellular tail of Notch.
- Deltex is a cytoplasmic protein containing a zinc-finger (Artavanis-Tsakonas; Osborne). It interacts with the ankyrin repeats of the Notch intracellular domain.
- Deltex promotes Notch pathway activation by interacting with Grb2 and modulating the Ras-JNK signalling pathway (Matsuno). Deltex also acts as a docking protein which prevents Su(H) from binding to the intracellular tail of Notch (Matsuno). Thus, Su(H) is released into the nucleus where it acts as a transcriptional modulator. Recent evidence also suggests that, in a vertebrate B-cell system, Deltex, rather than the Su(H) homologue CBF1, is responsible for inhibiting E47 function (Ordentlich). Expression of Deltex is upregulated as a result of Notch activation in a positive feedback loop.
- the sequence of Homo sapiens Deltex (DTX1) rnRNA may be found in GenBank Accession No. AF053700.
- Notch signalling pathway examples include genes of the Hes family (Hes-1 in particular), Enhancer of Split [E(spl)] complex genes, IL-10, CD-23, CD-4 and Dll-l.
- Hes-1 (Hairy-enhancer of Split-1) (Takebayashi) is a transcriptional factor with a basic helix-loop-helix structure. It binds to an important functional site in the CD4 silencer leading to repression of CD4 gene expression. Thus, Hes-1 is strongly involved in the determination of T-cell fate.
- Other genes from the Hes family include Hes-5 (mammalian Enhancer of Split homologue), the expression of which is also upregulated by Notch activation, and Hes-3. Expression of Hes-1 is upregulated as a result of Notch activation.
- the sequence of Mus musculus Hes-1 can be found in GenBank Accession No. D16464.
- E(spl) gene complex [E(spl)-C] (Leimeister) comprises seven genes of which only E(spl) and Groucho show visible phenotypes when mutant.
- E(spl) was named after its ability to enhance Split mutations, Split being another name for Notch.
- E(spl)-C genes repress Delta through regulation of achaete-scute complex gene expression. Expression of E(spl) is upregulated as a result of Notch activation.
- Interleukin-10 was first characterised in the mouse as a factor produced by Th2 cells which was able to suppress cytokine production by Thl cells. It was then shown that IL-10 was produced by many other cell types including macrophages, keratinocytes, B cells, ThO and Thl cells. It shows extensive homology with the Epstein-Barr bcrfl gene which is now designated viral IL-10. Although a few immunostimulatory effects have been reported, it is mainly considered as an immunosuppressive cytokine. Inhibition of T cell responses by IL-10 is mainly mediated through a reduction of accessory functions of antigen presenting cells.
- IL-10 has notably been reported to suppress the production of numerous pro-inflammatory cytokines by macrophages and to inhibit co- stimulatory molecules and MHC class II expression. IL-10 also exerts anti- inflammatory effects on other myeloid cells such as neutrophils and eosinophils. On B cells, IL-10 influences isotype switching and proliferation. More recently, IL-10 was reported to play a role in the induction of regulatory T cells and as a possible mediator of their suppressive effect. Although it is not clear whether it is a direct downstream target of the Notch signalling pathway, its expression has been found to be strongly up-regulated coincident with Notch activation. The mRNA sequence of IL-10 may be found in GenBank ref. No. Gil 041812.
- CD-23 is the human leukocyte differentiation antigen CD23 (FCE2) which is a key molecule for B-cell activation and growth. It is the low-affinity receptor for IgE. Furthermore, the truncated molecule can be secreted, then functioning as a potent mitogenic growth factor.
- FCE2 human leukocyte differentiation antigen CD23
- the sequence for CD-23 may be found in GenBank ref. No. GI1783344.
- Dlx-1 (distalless-1) (McGuiness) expression is downregulated as a result of Notch activation. Sequences for Dlx genes may be found in GenBank Accession Nos. U51000-3.
- CD-4 expression is downregulated as a result of Notch activation.
- a sequence for the CD-4 antigen may be found in GenBank Accession No. XM006966.
- polypeptide is synonymous with the term “amino acid sequence” and/or the term “protein”. In some instances, the term “polypeptide” is synonymous with the term “peptide”.
- Protein usually refers to a short amino acid sequence that is 10 to 40 amino acids long, preferably 10 to 35 amino acids.
- protein includes single-chain polypeptide molecules as well as multiple-polypeptide complexes where individual constituent polypeptides are linked by covalent or non-covalent means.
- polypeptide and peptide refer to a polymer in which the monomers are amino acids and are joined together through peptide or disulfide bonds.
- subunit and domain may also refer to polypeptides and peptides having biological function.
- polypeptide sequence may be prepared and isolated from a suitable source, or it may be made synthetically or it may be prepared by use of recombinant DNA techniques.
- polynucleotide sequence is synonymous with the term “polynucleotide” and/or the term “nucleotide sequence”.
- the polynucleotide sequence may be DNA or RNA of genomic, synthetic or recombinant origin. They may also be cloned by standard techniques. The polynucleotide sequence may be double-stranded or single-stranded whether representing the sense or antisense strand or combinations thereof.
- Polynucleotide refers to a polymeric form of nucleotides of at least 10 bases in length and up to 1,000 bases or even more. Longer polynucleotide sequences will generally be produced using recombinant means, for example using PCR (polymerase chain reaction) cloning techniques. This will involve making a pair of primers (e.g. of about 15 to 30 nucleotides) flanking a region of the targeting sequence which it is desired to clone, bringing the primers into contact with mRNA or cDNA obtained from an animal or human cell, performing a polymerase chain reaction (PCR) under conditions which bring about amplification of the desired region, isolating the amplified fragment (e.g. by purifying the reaction mixture on an agarose gel) and recovering the amplified DNA.
- the primers may be designed to contain suitable restriction enzyme recognition sites so that the amplified DNA can be cloned into a suitable cloning vector.
- the nucleic acid may be RNA or DNA and is preferably DNA. Where it is RNA, manipulations may be performed via cDNA intermediates. Generally, a nucleic acid sequence encoding the first region will be prepared and suitable restriction sites provided at the 5' and/or 3' ends. Conveniently the sequence is manipulated in a standard laboratory vector, such as a plasmid vector based on pBR322 or pUC19 (see below). Reference may be made to Molecular Cloning by Sambrook et al. (Cold Spring Harbor, 1989) or similar standard reference books for exact details of the appropriate techniques.
- Sources of nucleic acid sequences may be ascertained by reference to published literature or databanks such as GenBank.
- Nucleic acid sequences encoding the desired first or second sequences may be obtained from academic or commercial sources where such sources are willing to provide the material or by synthesising or cloning the appropriate sequence where only the sequence data is available. Generally this may be done by reference to literature sources which describe the cloning of the gene in question.
- nucleic acids can be characterised as those nucleotide sequences which hybridise to the nucleic acid sequences known in the art.
- the polynucleotide sequence may comprise, for example, a protein-encoding domain, an antisense sequence or a functional motif such as a protein-binding domain and includes variants, derivatives, analogues and fragments thereof.
- the term also refers to polypeptides encoded by the nucleotide sequence.
- nucleotide sequences such as a DNA polynucleotides useful i the invention may be produced recombinantly, synthetically, or by any means available to those of skill in the art. They may also be cloned by standard techniques.
- primers will be produced by synthetic means, involving a step wise manufacture of the desired nucleic acid sequence one nucleotide at a time. Techniques for accomplishing this using automated techniques are readily available in the art.
- host cells can be genetically engineered to incorporate expression systems or polynucleotides of the invention.
- Introduction of a polynucleotide into the host cell can be effected by methods described in many standard laboratory manuals (e.g. Davis et al and Sambrook et al) such as transfection, including calcium phosphate transfection and DEAE-dextran mediated transfection, microinjection, cationic lipid-mediated transfection, electroporation, transduction, scrape loading, ballistic introduction and infection. It will be appreciated that such methods can be employed in vitro or in vivo.
- bacterial cells such as streptococci, staphylococci, E. coli, streptomyces and Bacillus subtilis cells
- fungal cells such as yeast cells and Aspergillus cells
- insect cells such as Drosophila S2 and Spodoptera Sf9 cells
- animal cells such as CHO, COS, NSO, HeLa, C127, 3T3, BHK, 293 and Bowes melanoma cells
- plant cells include bacterial cells, such as streptococci, staphylococci, E. coli, streptomyces and Bacillus subtilis cells
- fungal cells such as yeast cells and Aspergillus cells
- insect cells such as Drosophila S2 and Spodoptera Sf9 cells
- animal cells such as CHO, COS, NSO, HeLa, C127, 3T3, BHK, 293 and Bowes melanoma cells
- vectors include, among others, chromosomal, episomal and virus-derived vectors, e.g., vectors derived from bacterial plasmids, from bacteriophage, from transposons, from yeast episomes, from insertion elements, from yeast chromosomal elements, from viruses such as baculo viruses, papova viruses, such as SV40, vaccinia viruses, adenoviruses, fowl pox viruses, pseudorabies viruses and retroviruses, and vectors derived from combinations thereof, such as those derived from plasmid and bacteriophage genetic elements, such as cosmids and phagemids.
- vectors include, among others, chromosomal, episomal and virus-derived vectors, e.g., vectors derived from bacterial plasmids, from bacteriophage, from transposons, from yeast episomes, from insertion elements, from yeast chromosomal elements, from viruses such as baculo viruses, papova
- the expression system constructs may contain control regions that regulate as well as engender expression.
- any system or vector suitable to maintain, propagate or express polynucleotides and/or to express a polypeptide in a host may be used for expression in this regard.
- the appropriate DNA sequence may be inserted into the expression system by any of a variety of well-known and routine techniques, such as, for example, those set forth in Sambrook et al.
- appropriate secretion signals may be incorporated into the expressed polypeptide. These signals may be endogenous to the polypeptide or they may be heterologous signals.
- Active agents for use in the invention can be recovered and purified from recombinant cell cultures by well-known methods including ammonium sulfate or ethanol precipitation, acid extraction, anion or cation exchange chromatography, phosphocellulose chromatography, hydrophobic interaction chromatography, affinity chromatography, hydroxylapatite chromatography and lectin chromatography. Most preferably, high performance liquid chromatography is employed for purification. Well known techniques for refolding proteins may be employed to regenerate an active conformation when the polypeptide is denatured during isolation and/or purification.
- the present invention also encompasses the use of variants, derivatives, analogues, homologues, mimetics and fragments thereof.
- a "variant" of any given sequence is a sequence in which the specific sequence of residues (whether amino acid or nucleic acid residues) has been modified in such a manner that the polypeptide or polynucleotide in question retains at least one of its endogenous functions.
- a variant sequence can be modified by addition, deletion, substitution modification replacement and/or variation of at least one residue present in the naturally- occurring protein.
- derivative as used herein, in relation to proteins or polypeptides of the present invention includes any substitution of, variation of, modification of, replacement of, deletion of and/or addition of one (or more) amino acid residues from or to the sequence providing that the resultant protein or polypeptide retains at least one of its endogenous functions.
- analogue in relation to polypeptides or polynucleotides, includes any polypeptide or polynucleotide which retains at least one of the functions of the endogenous polypeptide or polynucleotide but generally has a different evolutionary origin thereto.
- mimetic in relation to polypeptides or polynucleotides, refers to a chemical compound that possesses at least one of the endogenous functions of the polypeptide or polynucleotide which it mimics.
- amino acid substitutions may be made, for example from 1, 2 or 3 to 10 or 20 substitutions provided that the modified sequence retains the required ability to modulate Notch signalling.
- Amino acid substitutions may include the use of non-naturally occurring analogues.
- Proteins of use in the present invention may also have deletions, insertions or substitutions of amino acid residues which produce a silent change and result in a functionally equivalent protein.
- Deliberate amino acid substitutions may be made on the basis of similarity in polarity, charge, solubility, hydrophobicity, hydrophilicity, and/or the amphipathic nature of the residues as long as the transport or modulation function is retained.
- negatively charged amino acids include aspartic acid and glutamic acid; positively charged amino acids include lysine and arginine; and amino acids with uncharged polar head groups having similar hydrophilicity values include leucine, isoleucine, valine, glycine, alanine, asparagine, glutamine, serine, threonine, phenylalanine, and tyrosine.
- amino acids with uncharged polar head groups having similar hydrophilicity values include leucine, isoleucine, valine, glycine, alanine, asparagine, glutamine, serine, threonine, phenylalanine, and tyrosine.
- “Fragments” are also variants and the term typically refers to a selected region of the polypeptide or polynucleotide that is of interest either functionally or, for example, in an assay. “Fragment” thus refers to an amino acid or nucleic acid sequence that is a portion of a full-length polypeptide or polynucleodtide.
- Such variants may be prepared using standard recombinant DNA techniques such as site-directed mutagenesis. Where insertions are to be made, synthetic DNA encoding the insertion together with 5' and 3' flanking regions corresponding to the naturally-occurring sequence either side of the insertion site. The flanking regions will contain convenient restriction sites corresponding to sites in the naturally-occurring sequence so that the sequence may be cut with the appropriate enzyme(s) and the synthetic DNA ligated into the cut. The DNA is then expressed in accordance with the invention to make the encoded protein. These methods are only illustrative of the numerous standard techniques known in the art for manipulation of DNA sequences and other lcnown techniques may also be used.
- Polynucleotide variants will preferably comprise codon optimised sequences.
- Codon optimisation is known in the art as a method of enhancing RNA stability and therefor gene expression.
- the redundancy of the genetic code means that several different codons may encode the same amino-acid.
- Leucine, Arginine and Serine are each encoded by six different codons. Different organisms show preferences in their use of the different codons.
- Viruses such as HJN, for instance, use a large number of rare codons.
- Codon usage tables are known in the art for mammalian cells, as well as for a variety of other organisms.
- at least part of the sequence is codon optimised. Even more preferably, the sequence is codon optimised in its entirety.
- homologous sequence can be taken to include an amino acid sequence which may be at least 75, 85 or 90% identical, preferably at least 95 or 98% identical. hi particular, homology should typically be considered with respect to those regions of the sequence (such as amino acids at positions 51, 56 and 57) known to be essential for an activity. Although homology can also be considered in terms of similarity (i.e. amino acid residues having similar chemical properties/functions), in the context of the present invention it is preferred to express homology in terms of sequence identity.
- Homology comparisons can be conducted by eye, or more usually, with the aid of readily available sequence comparison programs. These commercially available computer programs can calculate %> homology between two or more sequences.
- Percent homology may be calculated over contiguous sequences, i.e. one sequence is aligned with the other sequence and each amino acid in one sequence is directly compared with the corresponding amino acid in the other sequence, one residue at a time. This is called an "ungapped" alignment. Typically, such ungapped alignments are performed only over a relatively short number of residues. Although this is a very simple and consistent method, it fails to take into consideration that, for example, in an otherwise identical pair of sequences, one insertion or deletion will cause the following amino acid residues to be put out of alignment, thus potentially resulting in a large reduction in % homology when a global alignment is performed.
- Calculation of maximum %> homology therefor firstly requires the production of an optimal alignment, taking into consideration gap penalties.
- a suitable computer program for carrying out such an alignment is the GCG Wisconsin Bestfit package (Devereux).
- Examples of other software than can perform sequence comparisons include, but are not limited to, the BLAST package, FASTA (Atschul) and the GENEWORKS suite of comparison tools. Both BLAST and FASTA are available for offline and online searching. However it is preferred to use the GCG Bestfit program.
- a scaled similarity score matrix is generally used that assigns scores to each pairwise comparison based on chemical similarity or evolutionary distance.
- An example of such a matrix commonly used is the BLOSUM62 matrix - the default matrix for the BLAST suite of programs.
- GCG Wisconsin programs generally use either the public default values or a custom symbol comparison table if supplied (see user manual for further details). It is preferred to use the public default values for the GCG package, or in the case of other software, the default matrix, such as BLOSUM62.
- % homology preferably % sequence identity.
- the software typically does this as part of the sequence comparison and generates a numerical result.
- Nucleotide sequences which are homologous to or variants of sequences of use in the present invention can be obtained in a number of ways, for example by probing
- DNA libraries made from a range of sources.
- other viral/bacterial, or cellular homologues particularly cellular homologues found in mammalian cells
- sequences shown in the sequence listing herein may be obtained by probing cDNA libraries made from or genomic DNA libraries from other animal species, and probing such libraries with probes comprising all or part of the reference nucleotide sequence under conditions of medium to high stringency.
- Nariants and strain/species homologues may also be obtained using degenerate PCR which will use primers designed to target sequences within the variants and homologues encoding conserved ammo acid sequences within the sequences of use in the present invention.
- conserved sequences can be predicted, for example, by aligning the amino acid sequences from several variants/homologues. Sequence alignments can be performed using computer software known in the art. For example the GCG Wisconsin PileUp program is widely used.
- the primers used in degenerate PCR will contain one or more degenerate positions and will be used at stringency conditions lower than those used for cloning sequences with single sequence primers against known sequences.
- nucleotide sequences may be obtained by site directed mutagenesis of characterised sequences. This may be useful where for example silent codon changes are required to sequences to optimise codon preferences for a particular host cell in which the nucleotide sequences are being expressed. Other sequence changes may be desired in order to introduce restriction enzyme recognition sites, or to alter the activity of the polynucleotide or encoded polypeptide.
- candidate modulator (or “candidate compound”) is used to describe any one or more molecule(s) which may be, or is suspected of being, capable of functioning as a modulator of Notch signalling.
- Said molecules may for example be organic "small molecules” or polypeptides.
- candidate molecules comprise a plurality of, or a library of such molecules or polypeptides. These molecules may be derived from known modulators. "Derived from” means that the candidate modulator molecules preferably comprise polypeptides which have been fully or partially randomised from a starting sequence which is a known modulator of Notch signalling.
- candidate molecules comprise polypeptides which are at least 40% homologous, more preferably at least 60% homologous, even more preferably at least 75% homologous or even more, for example 85 %>, or 90 %>, or even more than 95% homologous to one or more known Notch modulator molecules, using the BLAST algorithm with the parameters as defined herein.
- the present invention provides an assay comprising the steps of: (a) providing a culture of immune cells;
- the assay of the present invention is set up to detect enhancement of Notch signalling in cells of the immune system by candidate modulators.
- the method comprises mixing cells of the immune system (e.g. T-cells or APCs), where necessary transformed or transfected, etc. with a synthetic reporter gene, in an appropriate buffer, with a sufficient amount of candidate modulator and monitoring Notch signalling, optionally in the presence of a suitable stimulus (such as an antigen).
- the modulators may be small molecules, proteins, antibodies or other ligands as described above. Amounts or activity of the target gene (also described above) will be measured for each compound tested using standard assay techniques and appropriate controls.
- the detected signal is compared with a reference signal and any modulation with respect to the reference signal measured.
- the assay may also be run in the presence of a known antagonist of the Notch signalling pathway in order to identify compounds capable of rescuing the Notch signal.
- any one or more of appropriate targets - such as an amino acid sequence and/or nucleotide sequence - may be used for identifying a compound capable of modulating the Notch signalling pathway in cells of the immune system in any of a variety of drug screening techniques.
- the target employed in such a test may be free in solution, affixed to a solid support, borne on a cell surface, or located intracellularly.
- the assay of the present invention is a cell based assay.
- the assay of the present invention may be a screen, whereby a number of agents are tested.
- the assay method of the present invention is a high through put screen.
- Techniques for drug screening may be based on the method described in Geysen, European Patent No. 0138855, published on September 13, 1984.
- large numbers of different small peptide candidate modulators are synthesized on a solid substrate, such as plastic pins or some other surface.
- the peptide test compounds are reacted with a suitable target or fragment thereof and washed.
- Bound entities are then detected - such as by appropriately adapting methods well lcnown in the art.
- a purified target can also be coated directly onto plates for use in drug screening techniques. Plates of use for high throughput screening (HTS) will be multi-well plates, preferably having 96, 384 or over 384 wells/plate. Cells can also be spread as "lawns". Alternatively, non-neutralising antibodies can be used to capture the peptide and immobilise it on a solid support. High throughput screening, as described above for synthetic compounds, can also be used for identifying organic candidate modulators.
- This invention also contemplates the use of competitive drug screening assays in which neutralising antibodies capable of binding a target specifically compete with a test compound for binding to a target.
- nucleic acid assays are also known. Any conventional technique which is known or which is subsequently disclosed may be employed. Examples of suitable nucleic acid assay are mentioned below and include amplification, PCR, RT-PCR, RNase protection, blotting, spectrometry, reporter gene assays, gene chip arrays and other hybridization methods.
- Target gene presence, amplification and/or expression may be measured in a sample directly, for example, by conventional Southern blotting, Northern blotting to quantitate the transcription of target mRNA, dot blotting (DNA or RNA analysis), or in situ hybridisation, using an appropriately labelled probe.
- Southern blotting Northern blotting to quantitate the transcription of target mRNA
- dot blotting DNA or RNA analysis
- in situ hybridisation using an appropriately labelled probe.
- nucleic acid amplification generation of nucleic acids for analysis from samples generally requires nucleic acid amplification.
- Many amplification methods rely on an enzymatic chain reaction (such as a polymerase chain reaction, a ligase chain reaction, or a self- sustained sequence replication) or from the replication of all or part of the vector into which it has been cloned.
- the amplification according to the invention is an exponential amplification, as exhibited by for example the polymerase chain reaction.
- Many target and signal amplification methods have been described in the literature, for example, general reviews of these methods in Landegren, U., et al., Science 242:229-237 (1988) and Lewis, R., Genetic Engineering News 10:1, 54- 55 (1990).
- amplification methods may be used in the methods of our invention, and include polymerase chain reaction (PCR), PCR in situ, ligase amplification reaction (LAR), ligase hybridisation, Qbeta bacteriophage replicase, transcription-based amplification system (TAS), genomic amplification with transcript sequencing (GAWTS), nucleic acid sequence-based amplification (NASBA) and in situ hybridisation.
- Primers suitable for use in various amplification techniques can be prepared according to methods known in the art.
- PCR is a nucleic acid amplification method described inter alia in U.S. Pat. Nos. 4,683,195 and 4,683,202.
- PCR consists of repeated cycles of DNA polymerase generated primer extension reactions.
- PCR was originally developed as a means of amplifying DNA from an impure sample. The technique is based on a temperature cycle which repeatedly heats and cools the reaction solution allowing primers to anneal to target sequences and extension of those primers for the formation of duplicate daughter strands.
- RT-PCR uses an RNA template for generation of a first strand cDNA with a reverse transcriptase. The cDNA is then amplified according to standard PCR protocol.
- PCR can be used to amplify any known nucleic acid in a diagnostic context (Mok et al, (1994), Gynaecologic Oncology, 52: 247-252).
- the effect on expression of an endogenous Notch ligand is determined in the presence or absence of a suitable stimulus (such as an antigen) by measuring transcription initiated from the gene encoding the Notch ligand (see, for example WO-A-98/20142) or by quantitative reverse-transcription polymerase chain reaction (RT-PCR).
- RT-PCR may be performed using a control plasmid with in-built standards for measuring endogenous gene expression with primers specific for Serrate 1, Serrate 2, Delta 1, Delta 2 and/or Delta 3, for example. This construct may be modified as new ligand members are identified.
- Self-sustained sequence replication is a variation of TAS, which involves the isothermal amplification of a nucleic acid template via sequential rounds of reverse transcriptase (RT), polymerase and nuclease activities that are mediated by an enzyme cocktail and appropriate oligonucleotide primers (Guatelli et al. (1990) Proc. Natl. Acad. Sci. USA 87:1874). Enzymatic degradation of the RNA of the RNA DNA heteroduplex is used instead of heat denaturation. RNase H and all other enzymes are added to the reaction and all steps occur at the same temperature and without further reagent additions. Following this process, amplifications of 10 6 to 109 have been achieved in one hour at 42 °C.
- Ligation amplification reaction or ligation amplification system uses DNA ligase and four ohgonucleotides, two per target strand. This technique is described by Wu, D. Y. and Wallace, R. B. (1989) Genomics 4:560. The ohgonucleotides hybridise to adjacent sequences on the target DNA and are joined by the ligase. The reaction is heat denatured and the cycle repeated.
- rolling circle amplification (Lizardi et al, (1998) Nat Genet 19:225) is an amplification technology available commercially (RCATTM) which is driven by DNA polymerase and can replicate circular oligonucleotide probes with either linear or geometric kinetics under isothermal conditions.
- RCATTM rolling circle amplification technology available commercially
- a geometric amplification occurs via DNA strand displacement and hyperbranching to generate 10 12 or more copies of each circle in 1 hour.
- RCAT generates in a few minutes a linear chain of thousands of tandemly linked DNA copies of a target covalently linked to that target.
- strand displacement amplification (SDA; Walker et al, (1992) PNAS (USA) 80:392) begins with a specifically defined sequence unique to a specific target. But unlike other techniques which rely on thermal cycling,
- SDA is an isothermal process that utilises a series of primers, DNA polymerase and a restriction enzyme to exponentially amplify the unique nucleic acid sequence.
- SDA comprises both a target generation phase and an exponential amplification phase.
- double-stranded DNA is heat denatured creating two single- stranded copies.
- a series of specially manufactured primers combine with DNA polymerase (amplification primers for copying the base sequence and bumper primers for displacing the newly created strands) to form altered targets capable of exponential amplification.
- the exponential amplification process begins with altered targets (single-stranded partial DNA strands with restricted enzyme recognition sites) from the target generation phase.
- DNA polymerase then uses the primer to identify a location to extend the primer from its 3' end, using the altered target as a template for adding individual nucleotides.
- the extended primer thus forms a double-stranded DNA segment containing a complete restriction enzyme recognition site at each end.
- a restriction enzyme is then bound to the double stranded DNA segment at its recognition site.
- the restriction enzyme dissociates from the recognition site after having cleaved only one strand of the double-sided segment, forming a nick.
- DNA polymerase recognises the nick and extends the strand from the site, displacing the previously created strand.
- the recognition site is thus repeatedly nicked and restored by the restriction enzyme and DNA polymerase with continuous displacement of DNA strands containing the target segment.
- Each displaced strand is then available to anneal with amplification primers as above. The process continues with repeated nicking, extension and displacement of new DNA strands, resulting in exponential amplification of the original DNA target.
- the present invention provides for the detection of gene expression at the RNA level.
- Typical assay formats utilising ribonucleic acid hybridisation include nuclear run-on assays, RT-PCR and RNase protection assays (Melton et al, Nuc. Acids Res. 12:7035).
- Methods for detection which can be employed include radioactive labels, enzyme labels, chemiluminescent labels, fluorescent labels and other suitable labels.
- Real-time PCR uses probes labeled with a fluorescent tag or fluorescent dyes and differs from end-point PCR for quantitative assays in that it is used to detect PCR products as they accumulate rather than for the measurement of product accumulation after a fixed number of cycles.
- the reactions are characterized by the point in time during cycling when amplification of a target sequence is first detected through a significant increase in fluorescence.
- the ribonuclease protection (RNase protection) assay is an extremely sensitive technique for the quantitation of specific RNAs in solution.
- the ribonuclease protection assay can be performed on total cellular RNA or poly(A)-selected mRNA as a target.
- the sensitivity of the ribonuclease protection assay derives from the use of a complementary in vitro transcript probe which is radiolabeled to high specific activity.
- the probe and target RNA are hybridized in solution, after which the mixture is diluted and treated with ribonuclease (RNase) to degrade all remaining single-stranded RNA.
- RNase ribonuclease
- the hybridized portion of the probe will be protected from digestion and can be visualized via electrophoresis of the mixture on a denaturing polyacrylamide gel followed by autoradiography. Since the protected fragments are analyzed by high resolution polyacrylamide gel electrophoresis, the ribonuclease protection assay can be employed to accurately map mRNA features. If the probe is hybridized at a molar excess with respect to the target RNA, then the resulting signal will be directly proportional to the amount of complementary RNA in the sample.
- PCR technology as described e.g. in section 14 of Sambrook et al., 1989, requires the use of oligonucleotide probes that will hybridise to target nucleic acid sequences. Strategies for selection of ohgonucleotides are described below.
- a probe is e.g. a single-stranded DNA or RNA that has a sequence of nucleotides that includes between 10 and 50, preferably between 15 and 30 and most preferably at least about 20 contiguous bases that are the same as (or the complement of) an equivalent or greater number of contiguous bases.
- the nucleic acid sequences selected as probes should be of sufficient length and sufficiently unambiguous so that false positive results are minimised.
- the nucleotide sequences are usually based on conserved or highly homologous nucleotide sequences or regions of polypeptides.
- the nucleic acids used as probes may be degenerate at one or more positions.
- nucleic acid probes of the invention are labelled with suitable label means for ready detection upon hybridisation.
- suitable label means is a radiolabel.
- the preferred method of labelling a DNA fragment is by incorporating 32 P dATP with the Klenow fragment of DNA polymerase in a random priming reaction, as is well known in the art.
- Ohgonucleotides are usually end-labelled with 32 P-labelled ATP and polynucleotide kinase.
- other methods e.g. non-radioactive
- Stringency of hybridisation refers to conditions under which polynucleic acids hybrids are stable. Such conditions are evident to those of ordinary skill in the field. As known to those of skill in the art, the stability of hybrids is reflected in the melting temperature (Tm) of the hybrid which decreases approximately 1 to 1.5°C with every 1%> decrease in sequence homology. In general, the stability of a hybrid is a function of sodium ion concentration and temperature. Typically, the hybridisation reaction is performed under conditions of higher stringency, followed by washes of varying stringency.
- high stringency refers to conditions that permit hybridisation of only those nucleic acid sequences that form stable hybrids in 1 M Na+ at 65-68 °C.
- High stringency conditions can be provided, for example, by hybridisation in an aqueous solution containing 6x SSC, 5x Denhardt's, 1 %> SDS (sodium dodecyl sulphate), 0.1 Na+ pyrophosphate and 0.1 mg/ml denatured salmon sperm DNA as non specific competitor.
- high stringency washing may be done in several steps, with a final wash (about 30 min) at the hybridisation temperature in 0.2 - O.lx SSC, 0.1 % SDS.
- Gene expression may also be detected using a reporter system.
- a reporter system may comprise a readily identifiable marker under the control of an expression system, e.g. of the gene being monitored. Fluorescent markers, which can be detected and sorted by FACS, are preferred. Especially preferred are GFP and luciferase.
- Another type of preferred reporter is cell surface markers, i.e. proteins expressed on the cell surface and therefor easily identifiable.
- cell- based screening assays can be designed by constructing cell lines in which the expression of a reporter protein, i.e.
- an easily assayable protein such as ⁇ - galactosidase, chloramphenicol acetyltransferase (CAT) or luciferase
- CAT chloramphenicol acetyltransferase
- luciferase is dependent on the activation of a Notch.
- a reporter gene encoding one of the above polypeptides may be placed under the control of an response element which is specifically activated by Notch signalling.
- Alternative assay formats include assays which directly assess responses in a biological system. If a cell-based assay system is employed, the test compound(s) identified may then be subjected to in vivo testing to determine their effect on Notch signalling pathway.
- reporter constructs useful for detecting Notch signalling by expression of a reporter gene may be constructed according to the general teaching of Sambrook et al (1989).
- constructs according to the invention comprise a promoter of the gene of interest (i.e. of an endogenous target gene), and a coding sequence encoding the desired reporter constructs, for example of GFP or luciferase.
- Vectors encoding GFP and luciferase are known in the art and available commercially.
- Sorting of cells may be performed by any technique known in the art, as exemplified above.
- cells may be sorted by flow cytometry or FACS.
- flow cytometry FACS
- FACS Fluorescence Activated Cell Sorting
- F.A.C.S. Fluorescence Activated Cell Sorting
- flow cytometry Fluorescence Activated Cell Sorting
- FACS can be used to measure target gene expression in cells transfected with recombinant DNA encoding polypeptides. This can be achieved directly, by labelling of the protein product, or indirectly by using a reporter gene in the construct.
- reporter genes are ⁇ -galactosidase and Green Fluorescent Protein (GFP).
- ⁇ -galactosidase activity can be detected by FACS using fluorogenic substrates such as fluorescein digalactoside (FDG).
- FDG fluorescein digalactoside
- FDG fluorescein digalactoside
- FDG fluorescein digalactoside
- Mutants of GFP are available which have different excitation frequencies, but which emit fluorescence in the same channel, h a two-laser FACS machine, it is possible to distinguish cells which are excited by the different lasers and therefor assay two transfections at the same time.
- the invention comprises the use of nucleic acid probes complementary to mRNA.
- Such probes can be used to identify cells expressing polypeptides individually, such that they may subsequently be sorted either manually, or using FACS sorting.
- Nucleic acid probes complementary to mRNA may be prepared according to the teaching set forth above, using the general procedures as described by Sambrook et al (1989).
- the invention comprises the use of an antisense nucleic acid molecule, complementary to a target mRNA, conjugated to a fluorophore which may be used in FACS cell sorting.
- TVET In Vivo Expression Technology
- the present invention also provides a method of detection of polypeptides.
- the advantage of using a protein assay is that Notch ligand expression can be directly measured.
- Assay techniques that can be used to determine levels of a polypeptide are well known to those skilled in the art. Such assay methods include radioimmunoassays, competitive-binding assays, protein gel assay, Western Blot analysis, antibody sandwich assays, antibody detection, FACS and ELISA assays.
- polypeptides can be detected by differential mobility on protein gels, or by other size analysis techniques, such as mass spectrometry.
- the detection means may be sequence-specific.
- polypeptide or RNA molecules can be developed which specifically recognise polypeptides in vivo or in vitro.
- RNA aptamers can be produced by SELEX.
- SELEX is a method for the in vitro evolution of nucleic acid molecules with highly specific binding to target molecules. It is described, for example, in U.S. patents 5654151, 5503978, 5567588 and 5270163, as well as PCT publication WO 96/38579
- the invention in certain embodiments, includes antibodies specifically recognising and binding to polypeptides.
- Antibodies may be recovered from the serum of immunised animals.
- Monoclonal antibodies may be prepared from cells from immunised animals in the conventional manner.
- the antibodies of the invention are useful for identifying cells expressing the genes being monitored.
- Antibodies according to the invention may be whole antibodies of natural classes, such as IgE and IgM antibodies, but are preferably IgG antibodies. Moreover, the invention includes antibody fragments, such as Fab, F(ab')2, Fv and ScFv. Small fragments, such Fv and ScFv, possess advantageous properties for diagnostic and therapeutic applications on account of their small size and consequent superior tissue distribution.
- the antibodies may comprise a label.
- labels which allow the imaging of the antibody in neural cells in vivo.
- Such labels may be radioactive labels or radioopaque labels, such as metal particles, which are readily visualisable within tissues.
- they may be fluorescent labels or other labels which are visualisable in tissues and which may be used for cell sorting.
- antibodies as used herein can be altered antibodies comprising an effector protein such as a label.
- labels which allow the imaging of the distribution of the antibody in vivo.
- Such labels can be radioactive labels or radioopaque labels, such as metal particles, which are readily visualisable within the body of a patient.
- they can be fluorescent labels or other labels which are visualisable on tissue
- Antibodies as described herein can be produced in cell culture. Recombinant DNA technology can be used to produce the antibodies according to established procedure, in bacterial or preferably mammalian cell culture. The selected cell culture system optionally secretes the antibody product, although antibody products can be isolated from non-secreting cells.
- Multiplication of hybridoma cells or mammalian host cells in vitro is carried out in suitable culture media, which are the customary standard culture media, for example Dulbecco's Modified Eagle Medium (DMEM) or RPMI 1640 medium, optionally replenished by a mammalian serum, e.g. foetal calf serum, or trace elements and growth sustaining supplements, e.g. feeder cells such as normal mouse peritoneal exudate cells, spleen cells, bone marrow macrophages, 2- aminoethanol, insulin, transferrin, low density lipoprotein, oleic acid, or the like.
- suitable culture media which are the customary standard culture media, for example Dulbecco's Modified Eagle Medium (DMEM) or RPMI 1640 medium
- a mammalian serum e.g. foetal calf serum
- trace elements and growth sustaining supplements e.g. feeder cells
- feeder cells such as normal mouse peritoneal exudate cells, spleen cells
- Multiplication of host cells which are bacterial cells or yeast cells is likewise carried out in suitable culture media known in the art, for example for bacteria in medium LB, NZCYM, NZYM, NZM, Terrific Broth, SOB, SOC, 2 x YT, or M9 Minimal Medium, and for yeast in medium YPD, YEPD, Minimal Medium, or Complete Minimal Dropout Medium.
- fri vitro production provides relatively pure antibody preparations and allows scale-up to give large amounts of the desired antibodies.
- Techniques for bacterial cell, yeast or mammalian cell cultivation are known in the art and include homogeneous suspension culture, e.g. in an airlift reactor or in a continuous stirrer reactor, or immobilised or entrapped cell culture, e.g. in hollow fibres, microcapsules, on agarose microbeads or ceramic cartridges.
- the desired antibodies can also be obtained by multiplying mammalian cells in vivo.
- hybridoma cells producing the desired antibodies are injected into histocompatible mammals to cause growth of antibody-producing tumours.
- the animals are primed with a hydrocarbon, especially mineral oils such as pristane (tetramethyl-pentadecane), prior to the injection.
- pristane tetramethyl-pentadecane
- hybridoma cells obtained by fusion of suitable myeloma cells with antibody-producing spleen cells from Balb/c mice, or transfected cells derived from hybridoma cell line Sp2/0 that produce the desired antibodies are injected intraperitoneally into Balb/c mice optionally pre-treated with pristane, and, after one to two weeks, ascitic fluid is taken from the animals.
- the cell culture supernatants are screened for the desired antibodies, preferentially by an enzyme immunoassay, e.g. a sandwich assay or a dot-assay, or a radioimmunoassay.
- an enzyme immunoassay e.g. a sandwich assay or a dot-assay, or a radioimmunoassay.
- the immunoglobulins in the culture supernatants or in the ascitic fluid can be concentrated, e.g. by precipitation with ammonium sulphate, dialysis against hygroscopic material such as polyethylene glycol, filtration through selective membranes, or the like.
- the antibodies are purified by the customary chromatography methods, for example gel filtration, ion-exchange chromatography, chromatography over DEAE-cellulose and/or (immuno-) affinity chromatography, e.g. affinity chromatography with the target antigen, or with Protein-A.
- customary chromatography methods for example gel filtration, ion-exchange chromatography, chromatography over DEAE-cellulose and/or (immuno-) affinity chromatography, e.g. affinity chromatography with the target antigen, or with Protein-A.
- the antibody is preferably provided together with means for detecting the antibody, which can be enzymatic, fluorescent, radioisotopic or other means.
- the antibody and the detection means can be provided for simultaneous, simultaneous separate or sequential use, in a kit.
- the antibodies of the invention are assayed for immunospecific binding by any method known in the art.
- the immunoassays which can be used include but are not limited to competitive and non-competitive assay systems using techniques such as western blots, radioimmunoassays, ELISA, sandwich immunoassays, immunoprecipitation assays, precipitin reactions, gel diffusion precipitin reactions, immunodiffusion assays, agglutination assays, complement-fixation assays, immunoradiometric assays, fluorescent immunoassays and protein A immunoassays.
- Such assays are routine in the art (see, for example, Ausubel et al, eds, 1994, Current Protocols in Molecular Biology, Vol. 1, John Wiley & Sons, Inc., New York, which is incorporated by reference herein in its entirety). Exemplary immunoassays are described briefly below.
- Immunoprecipitation protocols generally comprise lysing a population of cells in a lysis buffer such as PUPA buffer (1% NP-40 or Triton X-100, 1% sodium deoxycholate, 0.1% SDS, 0.15 M NaCl, 0.01 M sodium phosphate at pH 7.2,1% Trasylol) supplemented with protein phosphatase and/or protease inhibitors (e.g. EDTA, PMSF, aprotinin, sodium vanadate), adding the antibody of interest to the cell lysate, incubating for a period of time (e.g.
- PUPA buffer 1% NP-40 or Triton X-100, 1% sodium deoxycholate, 0.1% SDS, 0.15 M NaCl, 0.01 M sodium phosphate at pH 7.2,1% Trasylol
- protein phosphatase and/or protease inhibitors e.g. EDTA, PMSF, aprotinin, sodium vanadate
- Western blot analysis generally comprises preparing protein samples, electrophoresis of the protein samples in a polyacrylamide gel (e.g. 8%o-20% SDS-PAGE depending on the molecular weight of the antigen), transferring the protein sample from the polyacrylamide gel to a membrane such as nitrocellulose, PNDF or nylon, blocking the membrane in blocking solution (e.g. PBS with 3%> BSA or non-fat milk), washing the membrane in washing buffer (e.g. PBS-Tween 20), exposing the membrane to a primary antibody (the antibody of interest) diluted in blocking buffer, washing the membrane in washing buffer, exposing the membrane to a secondary antibody (which recognises the primary antibody, e.g.
- a polyacrylamide gel e.g. 8%o-20% SDS-PAGE depending on the molecular weight of the antigen
- a membrane such as nitrocellulose, PNDF or nylon
- blocking solution e.g. PBS with 3%> BSA or non-fat milk
- washing buffer e
- an antihuman antibody conjugated to an enzymatic substrate (e.g. horseradish peroxidase or alkaline phosphatase) or radioactive molecule (e.g. 32 P or 125 I) diluted in blocking buffer, washing the membrane in wash buffer, and detecting the presence of the antigen.
- an enzymatic substrate e.g. horseradish peroxidase or alkaline phosphatase
- radioactive molecule e.g. 32 P or 125 I
- ELISAs generally comprise preparing antigen, coating the well of a 96 well microtitie plate with the antigen, adding the antibody of interest conjugated to a detectable compound such as an enzymatic substrate (e.g. horseradish peroxidase or alkaline phosphatase) to the well and incubating for a period of time, and detecting the presence of the antigen.
- a detectable compound such as an enzymatic substrate (e.g. horseradish peroxidase or alkaline phosphatase)
- a detectable compound such as an enzymatic substrate (e.g. horseradish peroxidase or alkaline phosphatase)
- Up-regulated Notch ligand expression or activity can also be monitored using functional assays such as cell adhesion assays. Increased Notch ligand expression leads to increased adhesion between cells expressing Notch and its ligands. Test cells will be exposed to a particular treatment in culture and radiolabelled or flourescein labelled target cells (transfected with Notch/Notch ligand protein) will be overlayed. Cell mixtures will be incubated at 37°C for 2 hours. Non- adherent cells will be washed away and the level of adherence measured by the level of radioactivity/immunofluorescence at the plate surface.
- functional assays such as cell adhesion assays. Increased Notch ligand expression leads to increased adhesion between cells expressing Notch and its ligands. Test cells will be exposed to a particular treatment in culture and radiolabelled or flourescein labelled target cells (transfected with Notch/Notch ligand protein) will be overlayed. Cell mixtures will be incubated at 37°C
- Immobilisation approaches include covalent immobilsation, such as using amine coupling, surface thiol coupling, ligand thiol coupling and aldehyde coupling, and high affinity capture which relies on high affinity binding of a ligand to an immobilsed capturing molecule.
- capturing molecules include: streptavidin, anti-mouse Ig antibodies, ligand-specif ⁇ c antibodies, protian A, protein G and Tag-specific capture.
- immobilisation is achieved through binding to a support, particularly a particulate support which is preferably in the form of a bead.
- sample refers to a collection of inorganic, organic or biochemical molecules which is either found in nature (e.g. in a biological- or other specimen) or in an artificially-constructed grouping, such as agents which may be found and/or mixed in a laboratory.
- the biological sample may refer to a whole organism, but more usually to a subset of its tissues, cells or component parts (e.g. body fluids, including but not limited to blood, mucus, saliva and urine).
- the invention also relates to compounds detectable by these assays methods, and to their use in the methods of the present invention.
- Antigen-presenting cells for use in the present invention may be "professional" antigen presenting cells or may be another cell that may be induced to present antigens to T-cells.
- an APC precursor may be used which differentiates or is activated under the conditions of culture to produce an APC.
- An APC for use in the ex vivo methods of the invention is typically isolated from the bone marrow or blood of a transplant patient (or from the residual blood in organs intended for transplantation).
- the APC or precursor is of human origin.
- APCs include dendritic cells (DCs) such as interdigitating DCs or follicular DCs, Langerhans cells, PBMCs, macrophages, B-lymphocytes, T-lymphocytes, or other cell types such as epithelial cells, fibroblasts or endothelial cells, activated or engineered by transfection to express a MHC molecule (Class I or II) on their surfaces.
- DCs dendritic cells
- PBMCs macrophages
- B-lymphocytes B-lymphocytes
- T-lymphocytes T-lymphocytes
- Precursors of APCs include CD34 + cells, monocytes, fibroblasts and endothelial cells.
- the APC or precursor APC may be provided by a cell proliferating in culture such as an established cell line or a primary cell culture.
- Examples include hybridoma cell lines, L-cells and human fibroblasts such as MRC-5.
- Preferred cell lines for use in the present invention include Jurkat, H9, CEM and EL4 T- cells; long-term T-cell clones such as human HA1.7 or mouse D10 cells; T-cell hybridomas such as DO11.10 cells; macrophage-like cells such as U937 or THP1 cells; B-cell lines such as EBN-transformed cells such as Raji, A20 and Ml cells.
- the APCs or precursors may be modified by the culture conditions or may be genetically modified, for instance by transfection of one or more genes.
- Dendritic cells can be isolated/prepared by a number of means, for example they can either be purified directly from peripheral blood, or generated from CD34 + precursor cells for example after mobilisation into peripheral blood by treatment with GM-CSF, or directly from bone marrow. From peripheral blood, adherent precursors can be treated with a GM-CSF/IL-4 mixture ( iaba et al, 1992), or from bone marrow, non-adherent CD34 + cells can be treated with GM-CSF and T ⁇ F-a (Caux et al, 1992).
- DCs can also be routinely prepared from the peripheral blood of human volunteers, similarly to the method of Sallusto and Lanzavecchia (1994) using purified peripheral blood mononucleocytes (PBMCs) and treating 2 hour adherent cells with GM-CSF and IL-4. If required, these may be depleted of CD19 + B cells and CD3 + , CD2 + T- cells using magnetic beads (see Coffin et al, 1998). Culture conditions may include other cytokines such as GM-CSF or IL-4 for the maintenance and, or activity of the dendritic cells or other antigen presenting cells.
- PBMCs peripheral blood mononucleocytes
- the T-cells are typically T lymphocytes isolated from the bone marrow of a transplant patient or from the transplant donor (in the case of cells to be tolerised).
- T-cells from the donor are obtained by an appropriate method (e.g. as described in US-A- 4663058) and may be enriched and/or purified by standard methods including antibody-mediated separation.
- the T-cells may be used in combination with other immune cells, obtained from the same or a different individual.
- whole blood may be used or leukocyte enriched blood or purified white blood cells as a source of T-cells and other cell types. It is particularly preferred to use helper T-cells (CD4 + ).
- T-cells such as CD8 + cells may be used. It may also be convenient to use cell lines such as T-cell hybridomas, immature T-cells of peripheral or thymic origin and NK-T cells.
- the T-cells used in the present invention will be T-cells that can transfer antigen specific suppression to other T-cells.
- the term "antigen presenting cell or the like" are used herein is not intended to be limited to APCs.
- APCs any vehicle capable of presenting antigens to the T-cell population may be used.
- APCs is used to refer to all these.
- suitable APCs include dendritic cells, T-cells, hybridomas, fibroblasts, lymphomas, macrophages, B cells or synthetic APCs such as lipid membranes.
- Donor APCs of use in the present invention will be taken from donor individuals selected from an appropriate category (live related, MHC-matched unrelated or unmatched).
- T-cells and APCs as described above are cultured in a suitable culture medium such as DMEM or other defined media, optionally in the presence of fetal calf serum.
- a suitable culture medium such as DMEM or other defined media, optionally in the presence of fetal calf serum.
- Polypeptide substances may be administered to T-cells and or APCs by introducing nucleic acid constructs/viral vectors encoding the polypeptide into cells under conditions that allow for expression of the polypeptide in the T-cell and/or APC.
- nucleic acid constructs encoding antisense constructs may be introduced into the T-cells and/or APCs by transfection, viral infection or viral transduction.
- nucleotide sequences encoding the enhancers of Notch ligand expression and/or activity will be operably linked to control sequences, including promoters/enhancers and other expression regulation signals.
- the promoter is typically selected from promoters which are functional in mammalian cells, although prolcaryotic promoters and promoters functional in other eukaryotic cells may be used.
- the promoter is typically derived from promoter sequences of viral or eukaryotic genes. For example, it may be a promoter derived from the genome of a cell in which expression is to occur. With respect to eukaryotic promoters, they may be promoters that function in a ubiquitous manner (such as promoters of a-actin, b-actin, tubulin) or, alternatively, a tissue-specific manner (such as promoters of the genes for pyruvate kinase).
- Tissue-specific promoters specific for lymptocytes, dendritic cells, skin, brain cells and epithelial cells within the eye are particularly preferred, for example the CD2, CD lie, keratin 14, Wnt-1 and Rhodopsin promoters respectively.
- the epithelial cell promoter SPC is used. They may also be promoters that respond to specific stimuli, for example promoters that bind steroid hormone receptors.
- Viral promoters may also be used, for example the Moloney murine leukaemia virus long terminal repeat (MMLV LTR) promoter, the rous sarcoma virus (RSV) LTR promoter or the human cytomegalovirus (CMV) IE promoter.
- MMLV LTR Moloney murine leukaemia virus long terminal repeat
- RSV rous sarcoma virus
- CMV human cytomegalovirus
- the promoters may be inducible so that the levels of expression of the heterologous gene can be regulated during the life-time of the cell. Inducible means that the levels of expression obtained using the promoter can be regulated.
- Any of the above promoters may be modified by the addition of further regulatory sequences, for example enhancer sequences. Chimeric promoters may also be used comprising sequence elements from two or more different promoters.
- the regulatory sequences may be cell specific such that the gene of interest is only expressed in cells of use in the present invention.
- Such cells include, for example, APCs and T-cells.
- T-cells and/or APCs that comprise nucleic acid constructs capable of up-regulating Notch ligand expression are now ready for use. If required, a small aliquot of cells may be tested for up-regulation of Notch ligand expression as described above. The cells may be prepared for administration to a patient or incubated with T-cells in vitro (ex vivo).
- host (or recipient) APCs are used to present antigens or allergens to immune cells from the donor.
- host APCs may be cultured in a suitable culture medium such as DMEM or other defined media, optionally in the presence of a serum such as fetal calf serum.
- a serum such as fetal calf serum.
- Optimum cytokine concentrations may be determined by titration.
- One or more substances capable of up-regulating the Notch signalling pathway are then typically added to the culture medium together with donor APCs or T-cells.
- the donor cells may be added before, after or at substantially the same time as the modulator(s).
- primed host APCs may be prepared first and then incubate them with donor T-cells.
- they may be pelleted and washed with PBS before being resuspended in fresh culture medium.
- Incubations will typically be for at least 1 hour, preferably at least 3 or 6 hours or, if necessary, for 12 hours or more, in suitable culture medium at 37°C. If required, a small aliquot of cells may be tested for modulated target gene expression as described above. Induction of immunotolerance may be determined by subsequently challenging T-cells with an antigen of interest and measuring E -2 production compared with control cells not exposed to APCs.
- Notch ligand expression may be induced in the host APCs according to one of the following strategies:
- the vector may be a viral vector such as an adenovirus, an adeno-associated virus, a retrovirus vector or it may be a plasmid.
- the host APCs may be incubated with the donor T-cells in the presence of a Notch receptor agonist such as a peptide derived from Notch ligand so mimicking the Notch receptor stimulus and inducing tolerance in the donor T-cells.
- a Notch receptor agonist such as a peptide derived from Notch ligand
- the modulator may be bound to a membrane or support.
- a membrane or support can be selected from those lcnown in the art.
- the support is a particulate support matrix.
- the support is a bead.
- the bead may be, for example, a magnetic bead (e.g. as available under the trade name "Dynal") or a polymeric bead such as a Sepharose bead.
- T-cells which have been treated according to the above methods may be used to induce immunotolerance in other cells of the immune system.
- any of the assays described above can be adapted to monitor or to detect reduced reactivity and tolerisation in immune cells for use in clinical applications.
- Such assays will involve, for example, detecting increased Notch- ligand expression or activity in host cells or monitoring Notch cleavage in donor cells. Further methods of monitoring immune cell activity are set out below.
- Immune cell activity may be monitored by any suitable method known to those skilled in the art. For example, cytotoxic activity may be monitored. Natural killer (NK) cells will demonstrate enhanced cytotoxic activity after activation. Therefore any drop in or stabilisation of cytotoxicity will be an indication of reduced reactivity.
- NK Natural killer
- leukocytes Once activated, leukocytes express a variety of new cell surface antigens.
- NK cells for example, will express transferrin receptor, HLA-DR and the CD25 IL-2 receptor after activation. Reduced reactivity may therefore be assayed by monitoring expression of these antigens.
- leukocyte reactivity may be monitored as described in EP 0325489, which is incorporated herein by reference. Briefly this is accomplished using a monoclonal antibody ("Anti-Leu23”) which interacts with a cellular antigen recognised by the monoclonal antibody produced by the hybridoma designated as ATCC No. HB-9627.
- Anti-Leu23 a monoclonal antibody
- ATCC No. HB-9627 a monoclonal antibody
- Anti-Leu 23 recognises a cell surface antigen on activated and antigen stimulated leukocytes. On activated NK cells, the antigen, Leu 23, is expressed within 4 hours after activation and continues to be expressed as late as 72 hours after activation. Leu 23 is a disulfide-linked homodimer composed of 24 kD subunits with at least two N-linked carbohydrates.
- Anti-Leu 23 is useful in monitoring the reactivity of leukocytes.
- Successfully tolerised donor T-cells prepared by the method of the invention may be used to treat, or to improve the treatment of, diseases and conditions treated by organ, tissue and cell transplants, particularly bone marrow transplants, and diseases and conditions associated with (e.g. caused by- or linked to) such transplants or GNHD.
- Treatment includes diagnostic, prophylactic and therapeutic treatment and the expression “to treat” should be construed accordingly.
- Bone marrow transplant Diseases and conditions treated by bone marrow transplant include malignant, haematologic or genetic disease such as leukaemia, aplastic anaemia, multiple myeloma and lymphomas, thalassemia major and immunodeficiency diseases.
- Leukemias that can be treated include, for example, chronic myeloid leukaemia, acute myeloid leukaemia, chronic lymphocytic leukaemia, acute lymphocytic leukaemia and/or myelodyspastic syndrome.
- Lymphomas that can be treated include Hodgkin's and non-Hodgkin's lymphomas, such as malignant lymphomas (Burkitt's lymphoma or Mycosis fungoides).
- Immune disorders that can be treated include severe combined immunodeficiency (SCID), systemic lupus erythematosus (SLE), rheumatoid arthritis, rheumatoid spondylitis, osteoarthritis, gouty arthritis and other arthritic conditions, thyroidosis, scleroderma, diabetes mellitus, Graves' disease, Beschet's disease, and the like.
- SCID severe combined immunodeficiency
- SLE systemic lupus erythematosus
- rheumatoid arthritis rheumatoid spondylitis
- osteoarthritis gouty arthritis and other arthritic conditions
- thyroidosis scleroderma
- diabetes mellitus Graves' disease
- Graves' disease Beschet's disease, and the like.
- Diseases and conditions treated by organ transplants include common conditions such as diabetes (including diabetes mellitus) and various types of nephritis, kidney failure (such as that caused by end-stage renal disease), urinological problems, toxic hepatitis, hyperhpidemia, cirrhosis, chronic liver disease, lung disease such as emphysema, cystic fibrosis or acute lung damage (such as that caused by smoke inhalation), alpha- 1 antitrypsin malfunction, heart conditions (such as protein losing enteropathy) and heart damage, lymphoproliferative disease, Wilson's disease, biliary atresia and various types of cancer. Many other conditions treatable by organ transplantation will be apparent to the skilled practitioner.
- Diseases and conditions associated with (e.g. caused by or linked to) organ, tissue and cell (such as bone marrow) transplants include, for example, GVHD and (severe) infection.
- Diseases and conditions associated with acute GVHD include inflammatory reactions, severe blistering / erythroderma, erythematous macules, gastrointestinal bleeding, fulminant liver failure and jaundice.
- Disorders associated with chronic GVHD include scleroderma that results in erythema, esophageal dysmotihty, joint contractures and skin ulcers, hair loss and generalised wasting syndrome.
- Other major symptoms associated with GVHD include frequent fever, anthema, diarrhoea, vomiturition, anorexia, abdominal pain hepatopathy and hepatic insufficiency.
- Infection can be characterised by sepsis syndrome, general sepsis, gram-negative sepsis, septic shock, endotoxic shock, toxic shock syndrome, cachexia, circulatory collapse and shock resulting from acute or chronic bacterial infection, acute and chronic parasitic and/or infectious diseases, bacterial, viral or fungal, such as a HIV, ALDS (including symptoms of cachexia, autoimmune disorders, AIDS dementia complex and infections), fever and myalgias due to bacterial or viral infections. Any of the above can be treated and/or prevented according to the method of the present invention.
- Inflammatory reactions that can be treated are, for example, chronic inflammatory pathologies and vascular inflammatory pathologies, including chronic inflammatory pathologies such as sarcoidosis, chronic inflammatory bowel disease, ulcerative colitis, and Crohn's pathology and vascular inflammatory pathologies, such as, but not limited to, disseminated intravascular coagulation, atherosclerosis, and Kawasaki's pathology.
- chronic inflammatory pathologies such as sarcoidosis, chronic inflammatory bowel disease, ulcerative colitis, and Crohn's pathology
- vascular inflammatory pathologies such as, but not limited to, disseminated intravascular coagulation, atherosclerosis, and Kawasaki's pathology.
- GVHD is responsible for 20% of deaths following bone marrow transplant treatment. It has now surprisingly been found that the use of tolerised T-cells according to the invention results in a 50% decrease in mortality.
- T-cells prepared by the methods of the present invention for use in a organ, tissue or cell transplant such as a bone marrow transplant are typically formulated for administration to patients, in a therapeutically effective amount, with a pharmaceutically acceptable carrier, diluent and/or excipient to produce a pharmaceutical composition.
- a therapeutically effective amount of cells refers to a number of cells which, when administered, is sufficient to induce at least partial tolerance to an alloantigen in donor cells. Preferably, a sufficient number of cells will be administered to cause an increase in allograft survival while causing no side effects or an acceptable level of side effects.
- Suitable carriers and diluents are well known in the art. The choice of carriers will be determined in part by the kind and number of cells delivered, as well as by the particular method used to administer the composition. Accordingly, there is a wide variety of suitable formulations for the pharmaceutical composition of the present invention.
- Formulations suitable for intravenous and intraperitoneal administration include aqueous and nonaqueous, isotonic sterile injection solutions (such as isotonic saline solutions), which can contain anti-oxidants, buffers, bacteriostats, and solutes that render the formulation isotonic with the blood of the intended recipient, and aqueous and nonaqueous sterile suspensions that can include suspending agents, solubilizers, thickening agents, stabilizers, and preservatives. Further suitable carriers and diluents are described in Remington's Pharmaceutical Sciences, Mack Publishing Co. (A. R. Gennaro edit. 1985).
- the exact amount of such compounds required will vary from subject to subject, depending on the species, age, and general condition of the subject, the severity of the disease that is being treated, its mode of administration (e.g. intravenous, intra-arterial, or peritoneal administration) and the like.
- the dosage will vary according to such factors as degree of compatibility of the donor and recipient, the health of the host, and the amount of immunosuppressant drugs given concurrently. Thus, it is not possible to specify an exact activity-promoting amount. However, an appropriate amount may be determined by one of ordinary skill in the art using routine testing.
- composition of the present invention may be administered by any suitable means.
- suitable methods of administering the composition to an animal in the context of the present invention, in particular a human are available and that, although more than one route may be used, a particular route of administration may provide a more immediate and more effective reaction than another.
- the composition may be administered by parenteral, subcutaneous, intrapulmonary, and intranasal administration, and if desired for local immunosuppressive treatment, intralesional administration (including perfusing or otherwise contacting the graft with the immunosuppressive agent prior to transplantation).
- Parenteral infusions include intramuscular, intravenous, intraarterial, or intraperitoneal administration.
- the composition is suitably administered by pulse infusion, particularly with declining doses of the composition.
- the dosing is given by injections, most preferably intravenous or subcutaneous injections, depending in part on whether the administration is brief or chronic.
- the cells should be administered such that a therapeutic number resides in the body.
- the number of cells administered to an animal, particularly a human, in the context of the present invention should be sufficient to effect a therapeutic response in the animal over a reasonable period of time.
- the modified cells of the present invention are preferably administered to a host by direct injection into the lymph nodes of the patient.
- the cells will be taken from an enriched cell population.
- enriched refers to a more homogeneous population of cells which have fewer other cells with which they are naturally associated.
- An enriched population of cells can be achieved by several methods known in the art. For example, an enriched population of T-cells can be obtained using immunoaffinity chromatography using monoclonal antibodies specific for determinants found only on T-cells.
- Enriched populations can also be obtained from mixed cell suspensions by positive selection (collecting only the desired cells) or negative selection (removing the undesirable cells).
- the technology for capturing specific cells on affinity materials is well lcnown in the art (Wigzel, et al., J. Exp. Med., 128:23, 1969; Mage, et al, J. Imnmunol. Meth., 15:47, 1977; Wysocki, et al, Proc. Natl. Acad. Sci. U.S.A., 75:2844, 1978; Schrempf-Decker, et al, J. Immunol Meth., 32:285, 1980; Muller-Sieburg, et al., Cell, 44:653, 1986).
- Monoclonal antibodies against antigens specific for mature, differentiated cells have been used in a variety of negative selection strategies to remove undesired cells, for example, to deplete T-cells or malignant cells from allogeneic or autologous marrow grafts, respectively (Gee, et al., J.N.C.I. 80:154, 1988).
- Purification of human hematopoietic cells by negative selection with monoclonal antibodies and immunomagnetic microspheres can be accomplished using multiple monoclonal antibodies (Griffin, et al., Blood, 63:904, 1984).
- Procedures for separation of cells may include magnetic separation, using antibodycoated magnetic beads, affinity chromatography, cytotoxic agents joined to a monoclonal antibody or used in conjunction with a monoclonal antibody, for example, complement and cytotoxins, and "panning" with antibodies attached to a solid matrix, for example, plate, or other convenient technique.
- Techniques providing accurate separation include fluorescence activated cell sorters, which can have varying degrees of sophistication, for example, a plurality of color channels, low angle and obtuse light scattering detecting channels, impedance channels, etc.
- the cells can be administered as part of an organ, tissue or cell (e.g. bone marrow) transplant.
- organ, tissue or cell e.g. bone marrow
- the routes of administration and dosages described are intended only as a guide since a skilled practitioner will be able to determine readily the optimum route of administration and dosage for any particular patient depending on, for example, the age, weight and condition of the patient.
- the pharmaceutical compositions are in unit dosage form.
- the present invention includes both human and veterinary applications.
- DCs Dendritic cells
- tissue culture medium such as RPMI- 1640 supplemented with up to 10%> autologous or ABO human serum.
- Inducers of Notch-ligand expression are added for the appropriate time (between 3 hours and 2 days).
- Cytokines such as IL-4 and GM-CSF are also added as required.
- Donor individuals for the bone marrow transplantation procedure are selected from an appropriate category (live related, MHC-matched unrelated or unmatched).
- T-cells from the donor are obtained by an appropriate method (e.g. as described in US-A-4663058) and may be enriched by standard methods including antibody-mediated separation.
- the donor cells are cultured in RPMI- 1640 with serum and in the presence of modified DCs.
- the T-cells and DCs are then transferred to the transplant patient by infusion at a suitable time.
- regulatory T-cells as those that can transfer antigen specific suppression to other T-cells.
- Patient DCs are purified and cultured as set out in Example 1. They are transduced with Serrate 1 using retrovirus or non- viral protocols. Successfully transformed DCs are then co-cultured with donor T-cells in sufficient numbers.
- the donor T-cells are then isolated and added to cultures containing irradiated recipient PMBCs (or a HLA mismatched control) and na ⁇ ve donor PMBCs.
- Proliferation and cytokine production of the donor cells are measured and Notch 1 expression and cleavage is detected by Western Blotting.
- Host Antigen Presenting Cells are transduced with Serrate 1 and co-cultured with T-cell clones from the donor in the presence of a peptide to produce tolerised T- cells. These T-cells are then irradiated and co-cultured with na ⁇ ve T-cell clones and re-stimulated with the APC and peptide.
- DCs are purified from FI mice and transduced with Serrate 1. The transduced cells are then co-cultured with parental T-cells in sufficient numbers.
- DCs are purified from FI mice and transduced with Serrate 1.
- the transduced cells are co-cultured with parental T-cells which are then added to cultures containing na ⁇ ve T-cells and irradiated FI stimulator cells.
- DCs are purified from FI mice and transduced with Serrate 1. The transduced cells are then co-cultured with parental T-cells.
- T-cell depleted bone marrow together with escalating doses of regulatory T-cells is injected into the FI mouse. T-cell reconstitution and the ability to respond to other antigens are then measured.
- MyOne Streptavidin beads (l ⁇ m, Dynal 650.01) and CELLection Biotin Binder (4.5 ⁇ m, Dynal 115.21) were coated with anti-hIgG4-Biotin antibodies based on the binding capacity recommended by the supplier.
- PBMC Human peripheral blood mononuclear cells
- Human CD 14+ monocytes and CD4+ T cells were isolated from PBMC from donor A and B respectively by positive selection using anti-CD14 and anti-CD4 microbeads from Miltenyi Biotech according to the manufacturer's instructions.
- the CD 14+ cells were differentiated into dendritic cells (DC) by incubation for 6 days in medium [RPMI / 10%>FCS / glutamine / B2- mercaptoethanol / antibiotics] in the presence of hGM-CSF 50 ng/ml and hIL-4 50 ng/ml (both from Peprotech). Dendritic cell maturation was induced by addition into the culture of LPS 1 ⁇ g/ml (Sigma L-2654) for the last 24 hours.
- Matured-DC were treated for 1 hour with 50 ⁇ g/ml Mitomycin C (Sigma) in RPMI and washed 4 times. These cells were then plated at 4xl0 4 , lxlO 4 , 2.5xl0 3 ,
- Allogenic CD4+ T cells were added into each well given a final volume of 200 ⁇ l/well.
- the supernatants were removed after 5 days of incubation at 37°C/ 5%CO 2 /humidified atmosphere and cytokine production was evaluated by ELISA using Pharmingen kits OptEIA Set human IL 10 (catalog No. 555157) and a human TNFa DuoSet from R&D Systems (catalog. No. DY210) for TNFa according to the manufacturer's instructions.
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Abstract
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WO2013170315A1 (en) * | 2012-05-17 | 2013-11-21 | Paranta Biosciences Limited | A method of treatment and agents useful for same |
US9944700B2 (en) | 2013-03-13 | 2018-04-17 | Novartis Ag | Notch2 binding molecules for treating respiratory diseases |
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GB0123379D0 (en) * | 2001-09-28 | 2001-11-21 | Lorantis Ltd | Modulators |
WO2011063237A2 (en) | 2009-11-19 | 2011-05-26 | Oncomed Pharmaceuticals, Inc. | Jagged-binding agents and uses thereof |
JP5877457B2 (en) * | 2011-12-22 | 2016-03-08 | アイエスピー インヴェストメンツ インコーポレイテッドIsp Investments Inc. | Bioactive composition having skin anti-aging activity |
JP6784687B2 (en) | 2015-02-24 | 2020-11-11 | ザ リージェンツ オブ ザ ユニバーシティ オブ カリフォルニア | Binding-induced transcription switch and how to use it |
WO2017193059A1 (en) | 2016-05-06 | 2017-11-09 | The Regents Of The University Of California | Systems and methods for targeting cancer cells |
SG10201913583QA (en) | 2016-08-23 | 2020-02-27 | Univ California | Proteolytically cleavable chimeric polypeptides and methods of use thereof |
EP3477305A1 (en) | 2017-10-25 | 2019-05-01 | Universität Heidelberg | Delta-like ligand 1 for diagnosing severe infections |
CN111778325A (en) * | 2020-07-09 | 2020-10-16 | 华中科技大学同济医学院附属协和医院 | Method for using gene/protein as biliary tract atresia diagnosis mark and therapeutic target and application thereof |
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- 2003-09-05 WO PCT/GB2003/003874 patent/WO2004022730A1/en not_active Application Discontinuation
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WO2013170315A1 (en) * | 2012-05-17 | 2013-11-21 | Paranta Biosciences Limited | A method of treatment and agents useful for same |
US10034920B2 (en) | 2012-05-17 | 2018-07-31 | Paranta Biosciences Limited | Method of treatment and agents useful for same |
US9944700B2 (en) | 2013-03-13 | 2018-04-17 | Novartis Ag | Notch2 binding molecules for treating respiratory diseases |
Also Published As
Publication number | Publication date |
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GB0220658D0 (en) | 2002-10-16 |
AU2003260794A1 (en) | 2004-03-29 |
US20060140943A1 (en) | 2006-06-29 |
EP1534822A1 (en) | 2005-06-01 |
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