WO2011163531A2 - Compositions and methods for re-programming cells without genetic modification for treatment of cardiovascular diseases - Google Patents
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- 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
- C12N5/0636—T lymphocytes
- C12N5/0637—Immunosuppressive T lymphocytes, e.g. regulatory T cells or Treg
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- 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
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- C12N5/0696—Artificially induced pluripotent stem cells, e.g. iPS
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- B82—NANOTECHNOLOGY
- B82Y—SPECIFIC USES OR APPLICATIONS OF NANOSTRUCTURES; MEASUREMENT OR ANALYSIS OF NANOSTRUCTURES; MANUFACTURE OR TREATMENT OF NANOSTRUCTURES
- B82Y5/00—Nanobiotechnology or nanomedicine, e.g. protein engineering or drug delivery
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- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
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- C12N2501/00—Active agents used in cell culture processes, e.g. differentation
- C12N2501/60—Transcription factors
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- C12N2501/602—Sox-2
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- C12N2501/604—Klf-4
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- C12N2501/60—Transcription factors
- C12N2501/606—Transcription factors c-Myc
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S977/00—Nanotechnology
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Definitions
- Embryonic stem cells are capable of differentiating into many types of cells of the human body. The majority of somatic cells are terminally differentiated and were believed to lack the capability of changing to other types of somatic cells. Recent advances in induced pluripotent stem cell (iPSC) and transdifferentiation fields have changed this paradigm. Somatic cells can be reprogrammed to induced pluripotent stem cell (iPSC), i.e. via ectopic expression of four transcription factors, i.e. Oct4 (e.g. SEQ JO NO: 1), Sox2 (e.g. SEQ ID NO: 2), Klf4 (SEQ ID NO: 3), and cMyc (e.g.
- iPSC induced pluripotent stem cell
- Cardiovascular diseases in particular, ischemic diseases remain one of the major causes of morbidity and mortality throughout the world despite the development of several new therapeutic approaches. Aging and industrialization contribute to this problem.
- One major form of ischemia-cardiac ischemia-often leads to post infarction heart failure particularly in patients with large myocardial infarction and is associated with high mortality.
- Myocardial infarction usually starts a chain of events, including death of cardiomyocytes, scar tissue formation, aneurismal thinning, and left ventricular remodeling, resulting in decreased pumping capacity, heart dysfunction, or even mortality. Therefore, there exist great needs to reprogram cells without genetic modification to provide effective therapy to cardiovascular diseases.
- One aspect of the present disclosure relates to a transducible material comprising an effector domain.
- the effector domain is capable of exerting
- the effector domain is inherently capable of transducing into the biological sample.
- the transducible material further comprises a transduction domain which is covalently or non-covalently associated with or linked to the effector domain.
- the transduction domain is covalently linked to the effector domain through a linker.
- the transducible material is capable of selectively transducing into one or more specific biological samples or becoming transducible in a specific environment surrounding the biological sample.
- composition comprising a biological sample and a transducible material, wherein the transducible material has transduced into the biological material.
- Another aspect of the present disclosure relates to a method of
- reprogramming a biological sample by exposing the biological sample to a composition comprising a transducible material.
- Another aspect of the present disclosure relates to a method of treating a disease or condition in a biological organism comprising administering a pharmaceutical composition comprising a transducible material into the biological organism.
- Another aspect of the present disclosure relates to a method of developing cell-based therapies for various diseases or conditions comprising the step of
- reprogramming an iPSC, an embryonic stem cell, or a progenitor cell to a transplantable somatic cell or a transplantable progenitor cell using a transducible material reprogramming an iPSC, an embryonic stem cell, or a progenitor cell to a transplantable somatic cell or a transplantable progenitor cell using a transducible material.
- Another aspect of the present disclosure relates to a method of developing disease models comprising the step of reprogramming an iPSC, an embryonic stem cell, or a progenitor cell to a transplantable somatic cell or a transplantable progenitor cell using a transducible material.
- Another aspect of the present disclosure relates to a method of identifying an effector domain comprising covalently or non-covalently associating a test effector domain to a transduction domain to form a test transducible molecule, exposing the test molecule to a biological sample, and measuring a reprogramming level of the biological sample.
- FIG. 1 Characterization of transducible materials
- FIG. 2 Characterization of transducible materials (II). Protein transduction of HR-tagged transducible materials into OG2-MEF cells examined by immunocytochemistry.
- Oct4 MEF cells transuded with Oct4-l lR (green)
- Sox2 MEF cells transuded with Sox2-l lR (red)
- Klf4 MEF cells transuded with Klf4-11R (red)
- cMyc MEF cells transuded with cMyc-11R (green).
- DAPI Cells stained with DAPI to visualize the nuclei (blue) and the images were merged.
- Figure 3 Characterization of transducible materials ( ⁇ ). Protein induced pluripotent stem (piPS) cells clonally expanded and self-renewed in chemical defined media and feeder free condition.
- piPS Protein induced pluripotent stem
- FIG. 4 Generation of piPS cells by transducible materials Oct4-l 1R, Sox2- 11R, Klf4-11R, and cMyc-l lR.
- A Timeline of piPS cell generation.
- B Oct4-GFP + piPS cell colonies initially observed around day 30-35. Phase: representative phase contrast image; and GFP: fluorescence image.
- C Oct4-GFP + piPS cells sustained long term self-renewal under conventional mESC growth condition.
- D The long-term expanded piPS cells grew as compact and domed colonies that expressed strong ALP, a typical pluripotency marker.
- E piPS cells expressed other typical pluripotency markers, examined by immunofluorescence: SEA-1 (red), Sox2 (red), Oct4 (ed) and Nanog (red).
- DAPI DAPI staining for visualization of the nuclei (blue), and the images were merged.
- F RT-PCR analysis of endogenous pluripotency gene expression in piPS cells.
- G Oct4 promoter methylation analysis by bisulfite genomic sequencing. Open and closed circles indicate unmethylated and methylated CpGs, respectively.
- FIG. 5 In vitro and in vivo pluripotency of piPS cells (I). piPS cells effectively differentiated in vitro into cells in the three germ layers: Tujl : characteristic TUJ1 + neuronal cells-ectoderm (red): Bryt: Brachyury + mesoderm cells (red); and Soxl7: Soxl7 + definitive endoderm cells. Images were merged with DAPI (blue) staining.
- FIG. 6 In vitro and in vivo pluripotency of piPS cells (II)
- A RT-PCR analysis of in vitro differentiation of piPS cells.
- B Chimeric embryos (13.5 dpc, 2 out of 7, left) obtained after transfer of the piPS cell aggregated embryos into a pseudo- pregnant mouse (top).
- Such piPS cells contributed to the germline cells (Oct4-GFP positive) in isolated genital ridge tissue from chimeric embryos (bottom).
- Figure 7 Schematic of protein expression vectors for transducible materials. His6: SEQ ID NO: 59; Effector Domain: Ngn3 (SEQ ID NO: 8), PDX1 (SEQ ID NO: 9); MafA (SEQ ID NO: 10), or Foxp3 (SEQ ID NO: 1 1); Linker: SEQ ID NO: 55.
- Figure 8 Reprogramming of liver and pancreatic exocrine cells to insulin- producing beta cells by transducible materials His6-Ngn3-1 1R (SEQ ID NO: 30), His6- PDX1 -1 1R (SEQ ID NO: 31 ) and His6-MafA-l 1R (SEQ ID NO: 32) in mouse (I).
- Mouse-1 , Mouse-2 and Mouse-3 were treated with bovine serum albumin (BSA) protein (control group).
- BSA bovine serum albumin
- Mouse-4, Mouse-5 and Mouse-6 were treated with His6-Ngn3-11R, His6-PDX1 -1 1R and His6-MafA-l 1R (treatment group).
- Figure 9 Reprogramming of liver and pancreatic exocrine cells to insulin- producing beta cells by transducible materials His6-Ngn3-11R, His6-PDX1 -11R and His6-MafA-l 1R in mouse (II).
- Mouse-1 , Mouse-2 and Mouse-3 were treated with bovine serum albumin (BSA) protein (control group).
- BSA bovine serum albumin
- Mouse-4, Mouse-5 and Mouse-6 were treated with His6-Ngn3-11R, His6-PDX1 -11R and His6-MafA-l 1R (treatment group).
- Figure 10 Reprogramming of liver and pancreatic exocrine cells to insulin- producing beta cells by transducible materials His6-Ngn3-11R, His6-PDX1 -11R and His6-MafA-l 1R in mouse (III).
- Mouse-1 , Mouse-2 and Mouse-3 were treated with bovine serum albumin (BSA) protein (control group).
- BSA bovine serum albumin
- Mouse-4, Mouse-5 and Mouse-6 were treated with His6-Ngn3-11R, His6-PDX1 -11R and His6-MafA-l 1R (treatment group).
- FIG. 11 Reprogramming of liver and pancreatic exocrine cells to insulin- producing beta cells by transducible materials His6-Ngn3-11R, His6-PDX1 -11R and His6-MafA-l 1R in mouse (IV).
- Mouse-1 , Mouse-2 and Mouse-3 were treated with bovine serum albumin (BSA) protein (control group).
- BSA bovine serum albumin
- Mouse-4, Mouse-5 and Mouse-6 were treated with His6-Ngn3-11R, His6-PDX1 -11R and His6-MafA-l IR (treatment group).
- Figure 12 Reprogramming of T cells to Treg cells by transducible material His6-Foxp3-l lR (SEQ ID NO: 33) (IA).
- IA His6-Foxp3-l lR
- FIG. 13 Reprogramming of T cells to Treg cells by transducible material His6-Foxp3-l IR (IB). Flow cytometric analysis of CD4 and CD25 protein expression in PBMC with lacking of CD14 monocytes treated with Hisl6-Foxp3-l lR of ⁇ ⁇ , 20 ⁇ g/ml, or 50 ⁇ g/ml.
- Figure 14 Reprogramming of T cells to Treg cells by transducible material His6-Foxp3-l IR (IIA).
- IIA His6-Foxp3-l IR
- Figure 15 Reprogramming of T cells to Treg cells by transducible material His6-Foxp3-l IR (IIB).
- Flow cytometric analysis of CD4 and CD25 protein expression in PBMC sample buffer control and protein (BSA 100 ⁇ g/ml) control.
- Figure 16 Reprogramming of T cells to Treg cells by transducible material His6-Foxp3-l IR (IIC). Flow cytometric analysis of CD4 and CD25 protein expression in PBMC treated with Hisl6-Foxp3-l IR of 1 or 50 ⁇ g/ml.
- Figure 17 Reprogramming of T cells to Treg cells by transducible material His6-Foxp3-l IR (IID). Flow cytometric analysis of CD4 and CD25 protein expression in PBMC treated with Hisl6-Foxp3-l IR of 100 ⁇ g/ml.
- FIG. 18 Reprogramming of cardiac fibroblasts to mature cardiomyocytes by transducible materials His6-Gata4-1 IR, His6-Mef2c-1 IR, and His6-Tbx 5-1 IR (GMT) (b), GMT with valproic acid (c), GMT with suberoylanilide hydroxamic acid (d), and buffers (a) as control. Fluorescence microscopy images show expression of GFP under control of promoter of aMHC. aMHC is expressed only in mature cardiomyocytes.
- FIG. 19 Reprogramming of tail tip fibroblasts to mature cardiomyocytes by transducible materials His6-Gata4-1 IR, His6-Mef2c-1 IR, and His6-Tbx 5-1 IR (GMT) (b), GMT with valproic acid (c), GMT with suberoylanilide hydroxamic acid (d), and buffers (a) as control. Fluorescence microscopy images show expression of GFP under control of promoter of aMHC. aMHC is expressed only in mature cardio myocytes.
- Figure 20 Sequences of the exemplary effector domains.
- Figure 21 Sequences of the exemplary transducile materials: Effector domain-HR.
- Figure 22 Sequences of the exemplary transducile materials: His6-Effector domain-HR.
- One aspect of the present disclosure relates to a transducible material comprising an effector domain.
- a transducible material used herein refers to a material or a molecule which is not DNA or derived from DNA but is capable of crossing or transducing or being crossed through a membrane of a biological sample (e.g., a cell membrane) so that the transducible material can enter or be brought into the inside of the biological sample from the outside of the biological sample and exerts reprogramming efforts.
- the transducible material may interact with cell-surface receptors which facilitate the entry of the material into cells through receptor mediated endocytosis.
- a transducible material is a selective transducible material which is more likely to transduce into a specific type of biological samples (e.g. cancer or tumor cells) or becomes transducible in a specific microenvironment in or around a biological sample (e.g. microenvironment around cancer or tumor) than other biological samples.
- the selective transducible material comprises a transduction domain (e.g. a cell-targeting peptide or an activatable cell penetrating peptide) that preferably delivers the selective transducible material into a specific type of biological sample or become transducible in a microenvironment around a biological sample.
- transducible materials may cross a cell membrane and enter into cytoplasm to reprogram cytoplasm activities such as translation, post-translation modification, signaling pathway, apoptosis pathway. It is further contemplated that the transducible material may cross the nucleus membrane and reprogram or modulate DNA or chromosomal replication, gene transcription, and RNA splicing.
- An effector domain is a motif or a molecule which, once inside a biological sample, is capable of exerting reprogramming changes of the biological sample.
- the effector domain may interact with molecules (e.g., proteins, DNA, RNA, sugars, and lipids) in the biological sample (e.g., in cytoplasm or nuclei) and lead to changes such as proliferation, differentiation, dedifferentiation, transdifferentiation, retrodifferentiation, transdertermination, apoptosis, and morphogenesis.
- the effector domain can be 1) a polypeptide, or a fragment or a mimic thereof; 2) a polynucleotide which cannot be gene expressed once transduced or incorporated into the genome of the biological sample or cause genetic modification but nevertheless interacts with molecules in the biological sample (e.g., a ribozyme, an antisense molecule, a siRNA or miRNA, an oligonucleotide, and the like); and 3) a small molecule or other chemical compound (e.g. chemotherapy drugs).
- an effector domain is inherently transducible, e.g. PDX1 (e.g. SEQ ID NO: 9) and NeuroD (e.g. SEQ ID NO: 7).
- effector domain is a polypeptide such as a transcription factor, a chromosome remodeling protein, an antibody, or a fragment or mimic thereof.
- Another example of the effector domain is a small molecule which is not a polymer and binds with a biolpolymer such as protein, nucleic acid, or polysaccharide and alters the activity or function of the biopolymer.
- small molecules include, without limitation, acetylation inhibitors, transcription activators, signal pathway activators, signal pathway inhibitors, and methylation inhibitors.
- an effector domain can be at least one polypeptide that reprograms a somatic cell into a stem cell or change a cell state from one to another.
- the effector domain can be 1) a polypeptide selected from the group consisting of Klf4 (e.g. SEQ ID NO: 3), Sox2 (e.g. SEQ ID NO: 2), Lin28 (e.g. SEQ ID NO: 5), Oct4 (e.g. SEQ ID NO: 1), cMyc (e.g. SEQ ID NO: 4), Nanog (e.g.
- SEQ ID NO: 6 SEQ ID NO: 6
- a polypeptide selected from the group consisting of Klf4, Sox2, Oct4, cMyc, and any combination thereof 3) a polypeptide selected from the group consisting of Sox2, Oct4, Lin28, Nanog, and any combination thereof
- a polypeptide selected from the group consisting of Ngn3 e.g. SEQ ID NO: 8
- PDXl e.g. SEQ ID NO: 9
- MafA e.g. SEQ ID NO: 10
- NeuroD e.g. SEQ ID NO: 7
- a polypeptide comprising Foxp3 e.g.
- SEQ ID NO: 11 a polypeptide selected from the group consisting of Oct4, Sox2, Klf4, Lin28, Nanog, cMyc, Ngn3, PDXl, MafA, NeuroD, Foxp3, and any combination thereof; 7) a combination of polypeptides Oct4, Sox2, Klf4 and cMyc; 8) a combination of polypeptides Ngn3, PDXl and MafA; 9) a polypeptide selected from the group consisting of Nkx2.5, GATA4 (e.g. SEQ ID NO: 68), Mef-2C (e.g. SEQ ID NO: 69), ISL1 , Wtl , Tbxl8, Tbx5 (e.g.
- polypeptides provided herein encompass their homologous sequences.
- a "homologous sequence” as used herein refers to a polypeptide which shares sufficient percentage of identity in amino acid sequence with a reference polypeptide to which it is homologous.
- a homologous sequence shares at least 70%, at least 75%, at least 80%, at least 85%, at least 88%, at least 90%, at least 93%, at least 95%, at least 97%, at least 98%, or at least 99% of identity in amino acid sequence with one of the polypeptides provided herein useful as effector domain.
- the polypeptides having homologous sequences have substantially the same activity as the effector domains disclosed herein.
- the percentage of identity in amino acid sequence can be determined as the percentage of amino acid residues in a candidate amino acid sequence that are identical to the amino acid residues in a reference amino acid sequence, after aligning the sequences and, if necessary, introducing gaps, to achieve the maximum number of identical amino acids. Conservative substitution of the amino acid residues may be considered or may not considered as identical residues. "Conservative substitution” as used herein refers to replacing an amino acid residue with another amino acid residue that has similar physiochemical properties (e.g., hydrophobicity and molecular bulk of the side chain). [0046] Alignment for purposes of determining percent amino acid sequence identity can be achieved in various ways known in the art. For instance, alignment of amino acid sequences may be made using publicly available tools such as BLASTp (available on the website of U.S. National Center for Biotechnology Information (NCBI):
- polypeptides provided herein further encompass their functional equivalents.
- a "functional equivalent” as used herein refers to a polypeptide which possesses functional or structural characteristics that are substantially similar to all or part of a parent polypeptide.
- the polypeptides provided herein encompass their functional equivalents that can exert a substantially similar function, i.e. reprograming a somatic cell into a stem cell or changing a cell state from one to another.
- a functional equivalent of the polypeptides provided herein i.e. parent polypeptides
- the functional equivalent may have one or more amino acid substitutions, additions, deletions, insertions, truncations, modifications (e.g.
- the functional equivalent may include naturally occurring variants of the parent polypeptide and artificial polypeptide sequences such as those obtained by recombinant methods or chemical synthesis.
- the functional equivalent may contain non- naturally occurring amino acid residues.
- a transducible material further comprises a transduction domain.
- a transduction domain is a motif that is capable of facilitating the entry of the transducible material into a biological sample (e.g., a cell).
- the transducible domain is associated with the effector domain covalently, noncovalently or via a linker.
- the transduction domain is covalently linked to the effector domain through a linker.
- the linker is a glycine-rich linker that comprises one or more glycine residues (e.g. esggggspg (SEQ ID NO: 55)).
- transduction domain examples include, without limitation, polymers such as cationic lipid polymers and nanoparticles, protein transduction domains (PTD), cell penetrating peptides (CPP1), cell permeating peptides (CPP2), activatable cell penetrating peptides or conjugates (ACPP), cell-targeting peptides (CTP), and
- CPP1 , CPP2, PTD and super charged proteins are peptides known to facilitate delivery of a molecular cargo associated thereof into cells.
- the association between a CPP1 , CPP2 PTD or super charged proteins and the molecular cargo can be through covalent bond or non-covalent interactions.
- the molecular cargo can be small chemical molecules, peptides, protein, fragment of DNA, RNA such as siRNA and miRNA, or nanosize particles.
- CPP1 and PTD include 5 to 20 amino acid peptide motifs that are capable of penetrating cells independent of surface transporters and of cell cycle phase. CPP1 and PTD can also be capable of penetrating through blood-brain barriers.
- CPP1 and PTD can deliver proteins and peptides in vitro and in vivo with uniform distribution throughout the organism after parenteral administration.
- Cationic PTDs can act as nuclear localization signals and carry an associated molecular cargo to cell nuclei.
- protein transduction domains include, without limitation, TAT (e.g. YGRKKRRQRRR, SEQ ID NO: 34), poly-arginine (e.g. poly- arginine having 7-1 1 arginine residues such as RRRRRRR, RRRRRRRR, RRRRRRRRR, RRRRRRRRRR (SEQ ID NO: 35)and RRRRRRRRRRR (SEQ ID NO: 36)), Penetratin (Antennapedia, e.g. RQIKIWF QNRRMKWKK (SEQ ID NO: 38)), VP22 (e.g.
- DAATATRGRSAASRPTQRPRAPARSASRPRRPVQ (SEQ ID NO: 39)
- Transportan e.g. G WT L N S AG Y L LGK I N L K A L A A L A K K I L (SEQ ID NO: 40)
- MAP e.g.
- KLALKLALKALKAALKLA (SEQ ID NO: 41)
- MTS e.g. AAVALLPAVLLALLP (SEQ ID NO: 42)
- PEP-1 e.g. KETWWETWWTEWSQPKKKRKV (SEQ ID NO: 43)
- Arg/Trp analogue e.g. RRWRRWWRRWWRRW (SEQ ID NO: 44)
- polyguamdine peptoids e.g. polyguanidine peptoids with a 6-methylene spacer between backbone and guanidine group such as N-arg 5, 7 or 9 peptoids
- inherent protein transduction domain e.g. RHIKIWF QNRRMKWKK (SEQ ID NO: 56)
- KPKRRGPKKKKMTKARLERFKLRRMKANARERNR (SEQ ID NO: 57), HIV-1 Rev (e.g. TRQARRNRRRRWRERQR (SEQ ID NO: 60)), Flock house virus coat peptide (e.g. RRRRNRTRRNRRRVR (SEQ ID NO: 61)), DNA-binding peptides such as c-Fos (e.g. KRRIRRERNKMAAAKSRNRRRELTDT (SEQ ID NO: 62)), c-Jun (e.g.
- yeast GCN4 e.g.
- KRARNTEAARRSRARKLQRMKQ (SEQ ID NO: 64)
- Fusogenic HA2 peptide e.g. GLFGAIAGFIENGWEGMIDG (SEQ ID NO: 65), GDFMGEWGNEIFGAIAGFLG (SEQ ID NO: 66)).
- a supercharged protein can be a peptide or protein modified to have an increased or decreased overall net charge (either positive or negative net charge) relative to the unmodified form of the protein.
- superpositively charged protein which has an overall net positive charge, can be used as the transduction domain.
- the supercharged proteins include, without limitation, supercharged GFP (e.g.
- Naturally occurring supercharged proteins can also be used, such as HBEGF (Accession No.: Q99075), N-DEK (Accession No.: P35659), C-jun (Accession No.: P05412), and HGF (Accession No.: PI 4210), and other naturally supercharged proteins as disclosed in U.S. patent application US20110112040, which is incorporated herein by reference in its entirety.
- Cell-targeting peptides are proteins or peptides that bind to cell-surface receptors and enter cells through endocytosis.
- a cell-target peptide targets specific tissues or cell types, for example, GnRH peptides (e.g. SEQ ID NO: 58) target biological samples that express GnRH receptors (e.g. solid tumors and hormone-responsive cancer cell lines). More examples of cell-targeting peptides and the specific biological samples targeted are listed in Table 2.
- An activatable cell penetrating peptide or conjugate comprises a cationic CPP1 , CPP2, PTD or super charged proteins and a netutralizing anionic counterpart.
- the cationic CPP1 , CPP2, PTD or super charged proteins and the anionic counterpart are associated via noncovalent interactions (e.g. charge-charge interaction) and/or covalent cleavable linker (e.g. matrix metal oprotease (MMP) cleavable sequence).
- MMP matrix metal oprotease
- the anionic counterparts comprise one or more pH sensitive groups such as sulfonamide groups, which are protonated at pH 7.4 (the pH in the blood stream) and become neutral at slightly acidic pH (e.g. pH 6.8). Therefore, charge-charge interactions between cationic CPP1 , CPP2, PTD or super charged proteins and the anionic counterpart can be interrupted in slightly acidic microenvironment (e.g. in or around tumor or cancer). MMP concentration in blood stream is lower than that in a microenvironment around tumor or cancer. Therefore, MMP cleavable sequence, which is not cleaved in the bloodstream, is cleaved in environment around tumor or cancer.
- pH sensitive groups such as sulfonamide groups, which are protonated at pH 7.4 (the pH in the blood stream) and become neutral at slightly acidic pH (e.g. pH 6.8). Therefore, charge-charge interactions between cationic CPP1 , CPP2, PTD or super charged proteins and the anionic counterpart can be interrupted in slightly acidic microenvironment (
- the cationic CPP1, CPP2, PTD or super charged proteins is no longer neutralized by the anionic counterpart, and therefore is exposed to facilitate the translocation into cells (e.g. tumor or cancer cells).
- the CPP1 , CPP2 or PTD is TAT.
- the anionic counterparts comprise pH-sensitive polymer (e.g. di-block copolymer) comprising pH-sensitive groups (e.g. sulfonamide groups).
- an activatable cell penetrating conjugate comprises a conventional hydrophobic core made of a polymer into which an effective domain is incorporated, a peripheral hydrophilic layer composed of poly-ethylene glycol and one or more cationic CPPls, CPP2s, PTDs or super charged proteins, and one or more anionic counterpart that neutralize the cationic CPP12, CPP2s, PTDs or super charged proteins through charge-charge interactions.
- Such charge-charge interactions are expected to shield the cationic charges during delivery until the transduction material reaches a slightly acidic microenvironment (e.g. tumor or cancer), which triggers protonation of the anionic counterparts and disrupts the charge-charge association.
- the cationic CPPls, CPP2s, PTDs or super charged proteins previously quenched by the anionic counterpart, are now capable of facilitating delivery of the effector domain into the surrounding cells (e.g. tumor or cancer cells).
- a selective transducible material comprises a transduction domain selected from the group consisting of cell-targeting peptides and activatable cell penetrating peptides and activatable cell penetrating conjugates.
- a transduction domain is associated to an effector domain via covalent bond, non-covalent interactions or through a linker.
- a transducible material can be made by obtaining the transduction domain and the effector domain separately and associate together through a covalent bond or non-covalent interactions (e.g., repulsive interactions, dipole interactions, hydrogen bonding interactions, dispersive interactions, charge-charge interactions, solvent, counter ion and entropic effects, and water and hydrophobic effects).
- the transduction material is prepared by mixing the effector domain and transducible domain.
- a transducible material can be produced by isolating the material from natural resources or recombinantly.
- the effector domain can be linked to the N- terminus or C-terminus of the transduction domain and the transducible polypeptide can be made synthetically through chemical synthesis or recombinantly through recombinant technology.
- a transducible material comprises an effector domain that is inherently transducible, and a transduction domain associated with the effector domain via covalent or non-covalent interactions.
- a transducible material further comprises one or more motifs that do not interrupt the function of the effector domain or the transduction domain.
- these motifs are linked covalently, non-covalently or through a linker to the effector domain and/or the transduction domain.
- these motifs facilitate the preparation and/or purification of the
- the polyhistidine-tag comprises at least six histidine residues (e.g.
- a transducible material includes, for example, Oct4- 11R (SEQ ID N0: 12), Sox2-l IR (SEQ ID NO: 13), Klf4-1 IR (SEQ ID NO: 14), Lin28- 11R (SEQ ID N0: 16), Nanog-1 IR (SEQ ID NO: 17), cMyc-1 IR (SEQ ID NO: 15), Ngn3-1 IR (SEQ ID NO: 19), PDX1 -1 IR (SEQ ID NO: 20), MafA-1 IR (SEQ ID NO: 21), NeuroD-1 IR (SEQ ID NO: 18), Foxp3-l IR (SEQ ID NO: 22), Nkx2.5-1 IR, GATA4-l lR (e.g.
- a transducible material includes, for example, His6-Oct4-l IR (SEQ ID NO: 23), His6- Sox2-l IR (SEQ ID NO: 24), His6-Klf4-1 IR (SEQ ID NO: 25), His6-Lin28-1 IR (SEQ ID NO: 27), His6-Nanog-l IR (SEQ ID NO: 28), His6-cMyc-l IR (SEQ ID NO: 26), His6-Ngn3-11R (SEQ ID NO: 30), His6-PDX1 -1 IR (SEQ ID NO: 31), His6-MafA-l IR (SEQ ID NO: 32), His6-NeuroD-l IR (SEQ ID NO: 29), His6-Foxp3-l IR (SEQ ID NO: 33), His6-Nkx2.5-1 IR, His6-GATA4-1 IR (e.g.
- His6-Mef-2C-1 IR e.g. SEQ ID NO: 75
- His6-Isll-11R e.g. His6-Wtl -1 IR
- His6-Tbxl 8-11R e.g. SEQ ID NO: 76
- His6-Ref-1-1 IR e.g. His6-Baf60c-1 IR
- His6-STAT3-1 IR e.g. SEQ ID NO: 76
- the "His6" is covalently linked to the N terminal of the effector domain. Exemplary sequences of transducible materials are shown in Table 3.
- a transducible material can be combined with one or more adjuvants such as small molecule epigenetic agents.
- Suitable epigenetic agents include, without limitation, histone deacetylase inhibitor and DNA methylation inhibitor.
- suitable adjuvants include, without limitation, trichostatin A, which is a histone deacetylase inhibitor and DNA methylation inhibitor, valproic acid, which is a histone deacetylase inhibitor and DNA methylation inhibitor, aza-2'-deoxycytidine, which is a DNA methylation inhibitor, and suberoylanilide hydroxamic acid, which is a histone deacetylase inhibitor.
- compositions comprising a biological sample and at least one transducible material, wherein the transducible material has transduced into the biological sample.
- the composition includes a transducible material comprising Foxp3 (e.g. the transducible material is Foxp3, Foxp3-l IR or His6-Foxp3-l IR) and a T cell wherein the transducible material has transduced into the T cell;
- a composition includes a piPS cell and one or more transducible materials comprising a polypeptide selected from the group consisting of Oct4, Klf4, Sox2 and cMyc, and any combination thereof (e.g.
- the transducible material is Oct4, Klf4, Sox2, cMyc, Oct4-l IR, Klf4-1 IR, Sox2-l IR, cMyc-1 IR, His6-Oct4-l IR, His6-Klf4-1 IR, His6-Sox2-l IR or His6-cMyc-l IR); a composition including a liver or pancreatic exocrine cell and one or more transducible materials comprising a polypeptide selected from the group consisting of Ngn3, PDXl, MafA, NeuroD, and any combination thereof (e.g.
- the transducible material is Ngn3, PDXl , MafA, NeuroD, Ngn3-1 IR, PDXl -1 IR, MafA-1 IR, NeuroD-1 IR, His6-Ngn3-1 IR, His6-PDX1 -1 IR or His6-MafA- 1 IR, His6-NeuroD-l IR) wherein the transducible materials have transduced into the liver or pancreatic exocrine cell; and a composition including a fibroblast cell and one or more transducible materials comprising a polypeptide selected from the group consisting of Nkx2.5, GATA4, Mef-2C, ISL1 , Wtl , Tbxl 8, Tbx5, Ref-1 , Baf60c, STAT3, STAT3- C, and any combination thereof (e.g.
- the transducible material is Nkx2.5, GATA4, Mef- 2C, Isll , Wtl , Tbxl 8, Tbx5, Ref-1 , Baf60c, STAT3, STAT3-C, Nkx2.5-1 IR, GATA4- 1 IR, Mef-2C-1 IR, Isll -1 IR, Wtl -1 IR, Tbxl 8-1 IR, Tbx5-1 IR, Ref-1 -1 IR, Baf60c-1 IR, STAT3-1 IR, STAT3-C-1 IR, His6-Nkx2.5-1 IR, His6-GATA4-1 IR, His6-Mef-2C-1 IR, His6-Isll -11R, His6-Wtl -11R, His6-Tbxl 8-1 IR, His6-Tbx5-11R, His6-Ref-1 -11R, His6-Baf60c-1 IR, His6-STAT3-1 IR,
- Another aspect of the present disclosure relates to a method of
- a biological sample includes a cell, a cluster of cells, a tissue, an organ, a biological body from a biological organism.
- the biological sample can be normal, healthy sample or abnormal, diseased sample (e.g., cancer or tumor).
- a biological organism includes, for example, a microorganism (e.g., bacteria), a fungus, a plant and an animal (e.g., a human).
- a microorganism e.g., bacteria
- a fungus e.g., a plant
- an animal e.g., a human
- An organ from an animal biological organism includes, for example, a circulatory organ (e.g., heart, blood and blood vessels), a digestive organ (e.g., salivary glands, esophagus, stomach, liver, gallbladder, pancreas, intestines, rectum and anus), an endocrine organ (e.g., endocrine glands such as the hypothalamus, pituitary or pituitary gland, pineal body or pineal gland, thyroid, parathyroids and adrenals, i.e., adrenal glands), an integumentary organ (e.g., skin, hair and nails), a lymphatic organ (e.g., lymph nodes and vessels, tonsils, adenoids, thymus and spleen), a muscular organ (e.g., muscles), a nervous organ (e.g., brain, spinal cord, peripheral nerves and nerves), a reproductive organ (e.g., o
- An organ from a plant biological organism includes, for example, root, stem, leaf, flower, seed and fruit.
- a tissue from a biological sample includes a connective tissue, a muscle tissue, a nervous tissue, and an epithelial tissue.
- a tissue can be normal or healthy, and alternatively, abnormal or unhealthy (e.g., cancerous).
- a tissue from a biological sample e.g. a plant
- a cell can be prokaryotic or eukaryotic.
- a prokaryotic cell includes, for example, bacteria.
- a eukaryotic cell includes, for example, a fungus, a plant cell, and an animal cell.
- the types of an animal cell includes, for example, a cell from circulatory/immune system or organ (e.g., a B cell, a T cell (cytotoxic T cell, natural killer T cell, regulatory T cell, T helper cell), a natural killer cell, a granulocyte (e.g., basophil granulocyte, an eosinophil granulocyte, a neutrophil granulocyte and a hypersegmented neutrophil), a monocyte or macrophage, a red blood cell (e.g., reticulocyte), a mast cell, a thrombocyte or megakaryocyte, and a dendritic cell); a cell from an endocrine
- enterochromaffin cell an APUD cell, a liver cell (e.g., a hepatocyte and Kupffer cell)); a cell from integumentary system or organ (e.g., a bone cell (e.g., an osteoblast, an osteocyte, and an osteoclast), a teeth cell (e.g., a cementoblast, and an ameloblast), a cartilage cell (e.g., a chondroblast and a chondrocyte), a skin/hair cell (e.g., a trichocyte, a keratinocyte, and a melanocyte (Nevus cell)), a muscle cell (e.g., myocyte), an adipocyte, a fibroblast, and a tendon cell), a cell from urinary system or organ (e.g., a podocyte, a juxtaglomerular cell, an intraglomerular mesangial cell, an extraglomerular mesangial cell,
- a cell further includes a mammalian stem cell which include an embryonic stem cell, a fetal stem cell, an induced pluripotent stem cell, and an adult stem cell.
- a stem cell is a cell that is capable of undergoing cycles of cell division while maintaining an undifferentiated state and differentiating into specialized cell types.
- a stem cell can be an omnipotent stem cell, a pluripotent stem cell, a multipotent stem cell, an
- a stem cell may also include a cancer stem cell.
- the cell is a fibroblast cell.
- a fibroblast cell is a cell that secretes an extracellular matrix containing collagen. Fibroblast cells are ubiquitous throughout the body, and are commonly found in connective tissue. Exemplary fibroblast cells include, cardiac fibroblast cells and dermal fibroblast cells.
- reprogramming a biological sample used herein is exchangeable with or refers to modulating, altering, or changing the biological activities of the biological sample (e.g., cell) or modulating, altering, or changing the state or status of the biological sample from one to another.
- a biological sample e.g., a cell
- the biological activities of the cell are modulated or altered so as to lead to cell proliferation, differentiation (e.g., from progenitor cells to terminally differentiated cells), dedifferentiation (e.g., from terminally differentiated cells to pluripotent stem cells), transdifferentiation (e.g., from one type of terminally differentiated cells to another type of terminally differentiated cells), retrodifferentiation (e.g., from terminally differentiated cells to progenitor cells), transdertermination (e.g., from one type of progenitor cells to a type of terminally differentiated cells that are usually derived from another type of progenitor cells under natural conditions), apoptosis (e.g., cell death of cells or cancer cells),
- the state of a biological sample can be altered or changed from abnormal or diseased state to normal or healthy state (e.g., from cancer cells to noncancer cells); from one cell type to another cell type (e.g., from undifferentiated stem cells to differentiated stem cells or specialized cells), from differentiated or specialized cells to undifferentiated cells or stem cells (e.g., an omnipotent stem cell, a pluripotent stem cell, a multipotent stem cell, an oligopotent stem cell and an unipotent stem cell)(e.g., from fibroblast cells to induced pluripotent stem cells (iPSCs)), from somatic cells to stem cells or induced stem cells, from one state of stem cells to another state of stem cells (e.g., from ominipotent stem cells to pluripotent stem cells), from one type of differentiated cells to another type of differentiated cells (e.g., T-cells to regulatory T cells, pancreatic exocrine cells to insulin-producing beta cells,
- a biological sample is exposed to a transducible material and reprogrammed.
- the biological sample can be exposed in vitro, in vivo or ex vivo.
- the biological sample is exposed in vitro through contacting the sample with the transducible material in an environment outside of a living biological organism (e.g., in a cell culture system or a test tube).
- the biological sample is exposed in vivo through contacting the material with a biological organism containing the sample or introducing (e.g., through administration) the material into the organism.
- the transducible materials can be administered via any known administration route such as for example parenteral ⁇ e.g., subcutaneous, intraperitoneal, intravenous, including intravenous infusion, intramuscular, or intradermal injection) or non-parenteral ⁇ e.g., oral, intranasal, intraocular, sublingual, rectal, or topical) route.
- the biological sample is exposed ex vivo when the biological sample (e.g., a cell, a tissue or an organ) is taken outside the biological organism, contacted with the transducible material, and placed back to the same or different biological organisms. Examples of ex vivo exposures comprise removing a biological sample from the biological organism, exposing the biological sample to a transducible material, and transplanting the biological sample transduced with the transducible material back to the biological organism.
- OG2-MEF cells are exposed to a composition comprising protein Oct4-l IR, Sox2-l IR, Klf4-1 IR and cMyc-1 IR and reprogrammed to induced pluripotent stem cells (iPSCs).
- iPSCs induced pluripotent stem cells
- T cells are exposed to a composition comprising protein Foxp3-l IR or His6-Foxp3-l IR and reprogrammed to regulatory T cells (Treg cells).
- liver and/or pancreatic exocrine cells are exposed to a composition comprising one or more proteins selected from the group consisting of Ngn3-1 IR, PDXl -1 IR, MafA-1 IR, NeuroD-1 IR, His6-Ngn3-1 IR, His6-PDX1 -1 IR, His6-MafA-l IR, and His6-NeuroD-l IR and reprogrammed into insulin producing cells (e.g. ⁇ cells).
- the composition further comprises one or more adjuvant such as Islet growth factor (e.g. betacellulin).
- the composition comprises His6-Ngn3-11R, His6-PDX1 -1 1R, and His6-MafA-l lR. In certain embodiments, the composition comprises His6-Ngn3-1 1R, His6-PDX1 -11R, His6-MafA-l 1R and betacellulin. Without intending to be bound to a particular mechanism, it is further contemplated that such reprogramming is through
- fibroblast cells are exposed to a composition comprising one or more proteins selected from the group consisting of Nkx2.5-11R, GATA4-1 1R, Mef-2C-11R, Isll -l lR, Wtl -l lR, Tbxl 8-11R, Tbx5-11R, Ref-l -l lR, Baf60c-11R, STAT3-1 1R, STAT3-C-11R, His6-Nkx2.5-1 1R, His6-GATA4-11R, His6- Mef-2C-1 1R, His6-Isll -11R, His6-Wtl -1 1R, His6-Tbxl 8-11R, His6-Tbx5-11R, His6- Ref-l -l lR, His6-Baf60c-1 1R, His6-STAT3-11R, His6-STAT3-C-1 1R, and
- the composition further comprises one or more adjuvant such as epigenetic agents (e.g. trichostatin A, valproic acid, aza-2'-deoxycytidine,
- epigenetic agents e.g. trichostatin A, valproic acid, aza-2'-deoxycytidine,
- the composition comprises GATA4-1 1R, Mef-2C-11R, Tbx5-11R, His6-GATA4-1 1R, His6-Mef-2C-1 1R, His6- Tbx5-11R, or any combination thereof. Without intending to be bound to a particular mechanism, it is further contemplated that such reprogramming is through
- transdetermination transdifferentiation and/or retro-differentiation.
- compositions comprising a transducible material into the organism.
- the composition is a pharmaceutical composition comprising a transducible material.
- the composition comprises a selective transducible material.
- the treatment, prevention or reduction of a disease or condition is associated with the change or reprogramming of a biological sample (e.g., a cell, a tissue or an organ) in the organism.
- the present disclosure also provides use of a transducible material in manufacturing a medicament for treating preventing or reducing a disease or condition in a biological organism.
- the transducible material is a selective transducible material.
- the treatment, prevention or reduction of a disease or condition is associated with the change or reprogramming of a biological sample (e.g., a cell, a tissue or an organ) in the organism.
- the disease or condition treatable by the method or treatable by the medicament include, without limitations, tumor, cancer, metabolic diseases or conditions (e.g. type I and type II diabetes and obesity), inflammatory conditions, cardiac diseases, neuro generative diseases (e.g. anemia, amyotrophic lateral sclerosis, spinal cord injury, burns, or arthritis), autoimmune diseases or conditions (e.g. acute disseminated encephalomyelitis (ADEM), Addison's disease, alopecia areata, ankylosing spondylitis, antiphospholipid antibody syndrome (APS), anemia (e.g.
- metabolic diseases or conditions e.g. type I and type II diabetes and obesity
- inflammatory conditions e.g. type I and type II diabetes and obesity
- cardiac diseases e.g. anemia, amyotrophic lateral sclerosis, spinal cord injury, burns, or arthritis
- autoimmune diseases or conditions e.g. acute disseminated encephalomyelitis (ADEM), Addison's disease,
- autoimmune hemolytic anemia and pernicious anaemia arthritis, psoriatic arthritis, rheumatoid arthritis, diabetes mellitus type 1, autoimmune hepatitis, autoimmune inner ear disease, bullous pemphigoid, coeliac disease, Chagas disease, chronic obstructive pulmonary disease, Crohns disease, dermatomyositis, endometriosis, Goodpasture's syndrome, Graves' disease, Guillain-Barre syndrome (GBS), Hashimoto's disease, hidradenitis suppurativa, Kawasaki disease, IgA nephropathy, idiopathic
- thrombocytopenic purpura interstitial cyctitis, lupus erythematosus, mixed connective tissue disease, morphea, multiple sclerosis (MS), myasthenia gravis, narcolepsy, neuromyotonia, pemphigus vulgaris, psoriasis, polymyositis, primary billiary cirrhosis, schizophrenia, scleroderma, Sjogren's syndrome, stiff person syndrome, temporal arteritis ("Giant cell arteritis”), ulcerative colitis, vasculitis, vitiligo, and Wegener's
- a transducible material, or a medicament manufactured from a transducible material can be administered to a biological organism having a tumor to activate the apoptosis of the tumor cells or make tumor cells more sensitive to chemotherapy, radiotherapy, or cancer drugs.
- a transducible material, or a medicament manufactured from a transducible material can be administered to a biological organism to enhance or attenuate immune system and thus treat or prevent immune-related diseases or inflammatory diseases.
- protein Foxp3-l 1R or His6-Foxp3-l 1R is transduced to T cells and programs them to Treg cells, which suppress the overactive immune system and thus is a treatment for auto-immune diseases.
- a transducible material or a medicament
- cardiovascular diseases or conditions such as myocardial infarction, ischemia, cardiac infarction, post-infarction process, heart injury, alcoholic cardiomyopathy, coronary artery disease, congenital heart disease, nutritional diseases affecting the heart, ischemic (or ischaemic) cardiomyopathy, hypertensive cardiomyopathy, valvular cardiomyopathy, inflammatory cardiomyopathy, cardiomyopathy secondary to a systemic metabolic disease, myocardiodystrophy, dilated cardiomyopathy, hypertrophic cardiovascular diseases or conditions such as myocardial infarction, ischemia, cardiac infarction, post-infarction process, heart injury, alcoholic cardiomyopathy, coronary artery disease, congenital heart disease, nutritional diseases affecting the heart, ischemic (or ischaemic) cardiomyopathy, hypertensive cardiomyopathy, valvular cardiomyopathy, inflammatory cardiomyopathy, cardiomyopathy secondary to a systemic metabolic disease, myocardiodystrophy, dilated cardiomyopathy, hypertrophic cardiovascular diseases or conditions
- a polypeptide or a composition comprising such polynucleotide is transduced to a suitable cell (e.g. fibroblast cells, cardiac fibroblasts, dermal fibroblast cells, endothelial cells, or smooth muscle cells) and reprograms them to cardiomyocytes, cardiac stem cells or cardiac progenitor cells, which polypeptide is selected from the group consisting of Nkx2.5-1 IR, GATA4-1 IR, Mef-2C-1 IR, Isll -1 IR, Wtl -1 IR, Tbxl 8-11R, Tbx5-11R, Ref-l -l lR, Baf60c-1 1R, STAT3-11R, STAT3-C-1 1R, His6- Nkx2.5-11R, His6-GATA4-11R, His6-Mef-2C-1 IR, His6-Isll -11R, His6-Wtl
- a suitable cell e.g. fibroblast cells, cardiac fibroblasts,
- composition comprising a polypeptide selected from the group consisting of GATA4-1 IR, Mef-2C- 1 IR, Tbx5-1 IR, His6-GATA4-1 IR, His6-Mef-2C-1 IR, His6-Tbx5-1 IR, or any combination thereof is transduced into fibroblast cells and reprograms them to
- cardiac fibroblasts are reprogrammed to cardiac stem cells or cardiac progenitor cells through trans-differentiation, trans-determination, or retro-differentiation.
- these newly generated cardiac stem cells or cardiac progenitor cells can differentiate into muscle cells, endothelial cells, and smooth muscle cells, which then reconstitute the damaged part of the heart.
- one or more adjuvant such as epigenetic agents (e.g. trichostatin A, valproic acid, aza-2'-deoxycytidine, and/or suberoylanilide hydroxamic acid) is/are also administered to the biological organism.
- epigenetic agents e.g. trichostatin A, valproic acid, aza-2'-deoxycytidine, and/or suberoylanilide hydroxamic acid
- Another aspect of the present disclosure relates to a method of
- stem cells or progenitor cells may be patient-specific or non-patient-specific, repaired to rid of molecular defects or not, before they are exposed to transducible materials for controlled differentiation or
- the reprogrammed cells may be enriched, purified, or manipulated before transplanted back to patients.
- the reprogrammed cell is a cell in the cardiovascular system, such as, cardiomyocytes, cardiac fibroblast cells, cardiac stem cells or cardiac progenitor cells.
- Another aspect of the present disclosure relates to a method of
- the method comprises exposing an iPSC, an embryonic stem cell, or a progenitor cell to a composition comprising a transducible material to reprogram the iPSC, embryonic stem cell, or progenitor cell to a
- the method comprises reprogramming patient- specific cells to iPSCs using a transducible materials; further generating different type of cells from patient specific iPSCs with or without tranducible materials; and developing a disease model using patient-specific iPSCs or iPSC-derived cells.
- the method of developing drug screening or toxicity models comprises reprogramming somatic cells, progenitor cells, or multipotent cells to iPSCs using a transducible material; further generating different type of cells from iPSCs with or without exposing to transducible materials; and using iPSCs and/or iPSC-derived cells to screen the effects and/or toxicities of different compounds.
- Another aspect of the present disclosure relates to a method of developing cell-based therapies for various diseases or conditions comprising the step of
- reprogramming an iPSC, an embryonic stem cell, or a progenitor cell to a transplantable somatic or progenitor cell using a transducible material transplanting the transplantable somatic or progenitor cell into a biological sample or biological organism; assessing the therapeutic effect of the transplantable somatic or progenitor cell.
- the transplantable cell is a cell in the cardiovascular system, such as, cardiomyocytes, cardiac fibroblast cells, cardiac muscle cells, cardiac stem cells or cardiac progenitor cells.
- the transplantable cells can be transplanted to a subject in need, and once in the heart niches, the transplanted cardiac stem cells or cardiac progenitor cells can differentiate into muscle cells, endothelial cells, and smooth muscle cells, which then reconstitute the damaged part of the heart.
- a post-infarction patient is treated with protein drugs, small molecule drugs, or the combination, through injection into the injured site of his/her heart, generating new cardiomyocytes and/or other type of cardiac cells at the injured or affected sites.
- the new cells re-establish the normal structure and function of the heart tissue and help the patient recover quickly from the cardiac infarction.
- Another aspect of the present disclosure relates to a method of identifying a effector domain, wherein the method comprises the steps of covalently linking a test effector domain to a know transduction domain to form a test transducible molecule; exposing the test molecule to a biological sample, and measuring the reprogramming of the biological sample to indicate whether the test effector domain can exerts a change in the biological sample.
- another aspect of the present disclosure relates to a method of identifying a transducible domain, wherein the method comprises the steps of covalently linking a known effector domain to a test transduction domain to form a test transducible molecule; exposing the test molecule to a biological sample, and measuring the location of the test molecule in or the reprogramming effect of the biological sample to indicate whether the test transduction domain can transduce the effector domain into the biological sample.
- Example 1 Reprogramming somatic cells to induced pluripotent stem cells (iPSCs)
- a poly-arginine protein transduction domain was fused to the C-terminal of each reprogramming proteins Oct4, Sox2, Klf4 and cMyc through a linker SEQ ID NO. 55 to form a fused protein Oct4-l 1R, Sox2-l 1R, Klf4-11R and cMyc-11R respectively ( Figure 1 A).
- These poly-arginine fused proteins were expressed in E. Coli in inclusion body form, which were then solubilized, refolded, and further purified to render transducible materials Oct4-l 1R, Sox2-l 1R, Klf4-11R and cMyc-11R.
- the protein identities were confirmed by mass spectrometry and Western blot analysis (Figure IB).
- a transducible material (Oct4-l 1R, Sox2-l 1R, Klf4-11R, or cMyc-11R) was added to mouse embryonic fibroblast (MEF) cells at various concentrations for 6-72 hours. Cell morphology and protein presence were examined by immunocytochemistry. The transducible materials were found to enter cells at concentrations of 0.5-8 ⁇ g/ml within 6 hours, and translocated into nucleus ( Figure 2). In addition, the transduced proteins were fairly stable inside of cells for up to 48 hours ( Figure 3).
- the protein transduction condition described in paragraph 0047 was used to reprogram OG2/Oct4-GFP reporter MEF cells.
- Cells were treated in 4 cycles.
- the fibroblasts (initially seeded at the density of 5x10 4 cells/well in a six- well plate) were first treated with transducible materials Oct4-l 1R, Sox2-l 1R, Klf4-11R and cMyc- 11R at 8 ⁇ g/ml in the mESC growth media supplemented with or without 1 mM valproic acid (V A, a inhibitor of the enzyme histone deacetylase 1 (HDAC1)) for overnight, followed by changing to the same media without the transducible material and VP A, and culturing for additional 36 hours before the next cycle of the treatment.
- V A a inhibitor of the enzyme histone deacetylase 1 (HDAC1)
- pluripotency markers examined by immunocytochemistry and staining including ALP ( Figure 4D), Oct4, Nanog, Sox2, and SSEA1 (Figure 4E).
- RT-PCR analysis confirmed endogenous gene expression of these pluripotency markers and additional pluripotency genes ( Figure 4F).
- a single cell survival assay also demonstrated that piPS cells clonally expanded efficiently as Oct4-positive colonies in feeder-free and N2/B27-chemically defined conditions.
- bisulphite genomic sequencing analyses of the Oct4 promoter revealed that it was demethylated in piPS cells similarly to the mES cells, while the MEFs' Oct4 promoter was hypermethylated (Figure 4G). This result further suggests a reactivation of the pluripotency transcription program in these piPS cells.
- piPS cells To examine the developmental potential of piPS cells, standard in vitro differentiation using embryoid bodies (EB) or monolayer chemically defined step-wise differentiation, as well as in vivo chimerism assays were performed.
- piPS cells efficiently formed EB in suspension, and differentiated into cells in the three primary germ layers, including primitive endoderm (AFP, Soxl7), foregut endoderm (FoxA2), pancreatic cells endoderm (PDXl, Pax6), mesoderm (Brachyury), and neural (Soxl) and neuronal cells ( ill-tubulin)-ectoderm ( Figures 5 and 6 A).
- Example 2 Reprogramming of liver and pancreatic exocrine cells to insulin- producing beta cells by transducible materials His6-Ngn3-1 IR, His6-PDX1 -1 IR and His6-MafA-l IR in mouse.
- a poly-arginine protein transduction domain was fused respectively to the C- terminal of each reprogramming protein (Ngn3, PDXl and MafA) through a linker (SEQ ID NO: 55) to form His6-Ngn3-1 IR, His6-PDX1-1 IR and His6-MafA-l IR respectively ( Figure 7). His6 (SEQ ID NO: 59) was included to facilitate protein purification. These poly-arginine fused proteins were expressed in E.
- Coli in inclusion body form which were then solubilized, refolded, and further purified to prepare transducible materials His6-Ngn3-1 IR, His6-PDX1 -1 IR and His6-MafA-l IR
- the protein identities were confirmed by mass spectrometry and Western blot analysis.
- CD-I mice (Charles River Laboratory) were divided into two groups: the treatment group and the control group.
- mice of both treatment and control group were sacrificed on the 3rd day after the completion of all injections.
- the mouse liver and pancreas were washed with IX PBS and fixed by 4% paraformaldehyde for overnight. Then the liver and pancreatic tissues were processed by standard Paraffin Embedding protocol.
- the Tissue sections, 5-micro in thickness, were prepared routinely with histology microtomes and mounted on standard histology glass slides. The wax in tissues was dissolved by xylene during processing of tissue sections. Tissue sectioning and histologic and immunohistochemical staining were performed using routine methods.
- IF A indirect fluorescent-antibody
- the slides were blocked with 0.05% Tween-20 (TBST) and 3% BSA for 1 hour at RT and were incubated with mouse anti-insulin antibody (Invitrogen) at 4°C overnight.
- the slides were washed three times with PBS for 15 minutes at RT and incubated with fluorescein isothiocyanate (FITC) conjugated swine anti-mouse antibody (KPL) for 2 hours at RT. Same concentration of Mouse IgG was used as isotype control.
- Anti-DAPI antibody was added to slides as a nuclear marker. The slides were washed as before and mounted with aqueous mounting media (Biomeda, Foster City, CA).
- Endothelial markers were identified under the microscope (Olympus BX51 , San Diego, CA) and merged cells were analyzed by Microsuite Biological Suite program (Olympus BX51 , San Diego, CA) ( Figures 8-11 ). The results showed that the treatment group had more insulin-producing cells (Figure 9) in livers comparing to the control group ( Figure 8). The pancreas of the control group showed a cluster of insulin-producing cells ( Figure 10), while the pancreas of the treatment group showed insulin-producing cells in bigger area ( Figure 11 ).
- Example 3 Reprogramming of T cells and programs them to Treg cells using transducible material Foxp3.
- a poly-arginine protein transduction domain was fused to the C-terminal of each reprogramming protein Foxp3 through a linker (SEQ ID NO: 55) to form His6- Foxp3-l 1R ( Figure 7). His6 (SEQ ID NO: 59) was included to facilitate protein purification.
- the poly-arginine fused protein was expressed in E. Coli in inclusion body form, which were then solubilized, refolded, and further purified to prepare transducible materials His6-Foxp3-l 1R. The protein identities were confirmed by Western blot analysis.
- PBMCs peripheral blood mononuclear cells
- Histopaque-1077 Sigma-Aldrich, St Louis, MO
- CD14+ monocytes were removed by magnetic bead selection (Miltenyi Biotec, Auburn, CA).Briefly, 108 PBMCs were incubated with 200 iL anti-CD 14 microbeads (Miltenyi Biotec) in ice for 30 minutes.
- the cells were washed with cold IX PBS with 2% FCS and centrifuged at 300g for 10 minutes and then resuspended in IX PBS with 2% FCS.
- the cell suspension was applied to the magnetic column and unbinding cells were passed through by washing 3 times with IX PBS with 2% FCS.
- the PBMC/mono- were harvested by centrifuged at 300g for 10 minutes.
- the PBMC/mono- were cultured in 6-well plates (Becton Dickinson, Gaithersburg, MD) supplemented with 10% FBS, nonessential amino acids, 2 mM glutamine, 1 mM sodium pyruvate, 25 mM HEPES, 200 units/ml penicillin, and streptomycin at 37 °C and 5% C0 2 .
- His6-Foxp3-l 1R (10 ⁇ g/ml, 20 ⁇ g/ml, or 50 ⁇ g/ml) was added to the cells.
- BSA 100 ⁇ g/ml was added to another well as control.
- the cells were washed with PBS for flow cytometric analysis using a Beckman Coulter FC500 cytometer with Cytomics CXP software (Beckman Coulter, Fullerton, CA) ( Figures 12 and 13).
- the results showed that the CD4+CD25+T cells (Treg cells) have dramatically increased with treatment of transducible material His6-Foxp3-l 1R, and the increase is protein-dose dependent.
- PBMCs peripheral blood mononuclear cells
- Histopaque-1077 Sigma- Aldrich, St Louis, MO
- the PBMC/mono were cultured in 6- well plates (Becton Dickinson, Gaithersburg, MD) supplemented with 10% FBS, nonessential amino acids, 2 mM glutamine, 1 mM sodium pyruvate, 25 mM HEPES, 200 units/ml penicillin, and streptomycin at 37°C and 5% C02.
- Foxp3 (10 ⁇ g/ml, 50 ⁇ g/ml, 100 ⁇ g/ml) were added to the cells.
- BSA 100 ⁇ g/ml was added to another well as control. Same concentration of the Foxp3 or BSA was added after cultured two days. Following 5 days of culture, the cells were washed with PBS twice. The cells were re-suspended in 100 ⁇ L ⁇ diluted and added rabbit anti-human CD25 for 90 minutes. The cells were washed three time with cold IXPBS supplied 2% FBS and then the conjugated-PE mouse anti-human CD4 as well as conjugated-FITC goat anti- rabbit IgG were added to the cells for 60minutes in ice.
- Example 4 Reprogramming of fibroblast cells and reprograms them to cardiomyocytes using transducible material.
- a poly-arginine protein transduction domain was fused respectively to the C- terminal of each reprogramming protein ( Gata4, Mef2c, and Tbx 5) through a linker (SEQ ID NO: 55) to form His6-Gata4-11R (SEQ ID NO: 74), His6- Mef2c -11R (SEQ ID NO: 75) and His6- Tbx 5 -11R (SEQ ID NO: 76) respectively ( Figure 7). His6 (SEQ ID NO: 59) was included to facilitate protein purification. These poly-arginine fused proteins were expressed in E.
- Coli in inclusion body form which were then solubilized, refolded, and further purified to prepare transducible materials His6-Gata4-11R, His6- Mef2c -1 IR and His6- Tbx 5 -1 IR.
- the protein identities were confirmed by mass spectrometry and Western blot analysis.
- Alpha-myosin heavy chain (a-MHC) is only expressed in mature
- aMHC-GFP Transgenic mice
- Cardiac fibroblasts and tail tip fibroblasts were extracted from aMHC-GFP mice and cultured on 8-chamber slides.
- His6-Gata4-1 IR, His6-Mef2c-1 IR, and His6-Tbx 5-1 IR were added to the media at 16 ⁇ g/ml, with or without epigenetic agents valproic acid (V A, lmM) or suberoylanilide hydroxamic acid (SAHA, 1 ⁇ ).
- V A valproic acid
- SAHA suberoylanilide hydroxamic acid
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EP11798958.2A EP2585592A4 (en) | 2010-06-23 | 2011-06-23 | Compositions and methods for re-programming cells without genetic modification for treatment of cardiovascular diseases |
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WO2012116064A1 (en) * | 2011-02-22 | 2012-08-30 | The Board Of Regents Of The University Of Texas | Cardiac repair by reprogramming of cardiac fibroblasts into cardiomyocytes |
CN102888401A (en) * | 2011-12-31 | 2013-01-23 | 中国科学院动物研究所 | Inhibitor for inducing pluripotent stem cells, and inducing method and application thereof |
US9517251B2 (en) | 2010-04-28 | 2016-12-13 | The J. David Gladstone Institutes | Methods for generating cardiomyocytes |
US9828585B2 (en) | 2011-08-30 | 2017-11-28 | The J. David Gladstone Instututes | Methods for generating cardiomyocytes |
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US20140038291A1 (en) | 2009-10-31 | 2014-02-06 | New World Laboratories Inc. | Methods for reprogramming cells and uses thereof |
US9453205B2 (en) | 2009-10-31 | 2016-09-27 | Genesis Technologies Limited | Methods for reprogramming cells and uses thereof |
DK2494039T3 (en) * | 2009-10-31 | 2019-08-19 | Genesis Tech Limited | PROCEDURES FOR REPROGRAMMING CELLS AND APPLICATIONS THEREOF |
EP2734622B1 (en) * | 2011-07-19 | 2018-09-05 | Vivoscript, Inc. | Compositions and methods for re-programming cells without genetic modification for repairing cartilage damage |
CN105624117A (en) * | 2016-01-18 | 2016-06-01 | 哈尔滨医科大学 | Method for promoting reprogramming of mouse fibroblasts into myocardial cells under low oxygen conditions |
CN109402048A (en) * | 2018-10-11 | 2019-03-01 | 浙江大学 | The method for building up of " humanized " arrhythmogenic right ventricular cardiomyopathy disease model |
CN110024742A (en) * | 2019-02-14 | 2019-07-19 | 广东省心血管病研究所 | A kind of animal model application method based on the stem cell of big data in heart transplant |
CN111454885A (en) * | 2020-03-10 | 2020-07-28 | 温州医科大学附属第二医院、温州医科大学附属育英儿童医院 | Multifunctional induced stem cell of Barn syndrome, preparation method, differentiation medium and application thereof |
WO2022022624A1 (en) * | 2020-07-29 | 2022-02-03 | 南京昕瑞再生医药科技有限公司 | Method for producing cardiomyocytes by means of reprogramming |
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EP1627226A1 (en) * | 2003-05-23 | 2006-02-22 | Ecole Polytechnique Federale De Lausanne | Methods for protein labeling based on acyl carrier protein |
JP2009543580A (en) * | 2006-07-19 | 2009-12-10 | ユニバーシティ オブ フロリダ リサーチ ファウンデーション,インコーポレイテッド | Composition for cell reprogramming and use thereof |
WO2008086484A2 (en) * | 2007-01-10 | 2008-07-17 | The Cleveland Clinic Foundation | Compositions and methods for treating cardiovascular disease |
WO2008088882A2 (en) * | 2007-01-19 | 2008-07-24 | The J. David Gladstone Institutes | Methods of generating cardiomyocytes |
ES2612538T3 (en) * | 2007-05-29 | 2017-05-17 | Christopher B. Reid | Methods for production and uses of multipotent cell populations, pluripotent cell populations, differentiated cell populations, and HIV resistant cell populations |
CA2695505A1 (en) * | 2007-08-06 | 2009-02-12 | Burnham Institute For Medical Research | Znf206: a novel regulator of embryonic stem cell self-renewal and pluripotency |
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Cited By (10)
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US9517251B2 (en) | 2010-04-28 | 2016-12-13 | The J. David Gladstone Institutes | Methods for generating cardiomyocytes |
US9517250B2 (en) | 2010-04-28 | 2016-12-13 | The J. David Gladstone Institutes | Methods for generating cardiomyocytes |
EP2563907B1 (en) * | 2010-04-28 | 2019-06-19 | The J. David Gladstone Institutes | Methods for generating cardiomyocytes |
WO2012116064A1 (en) * | 2011-02-22 | 2012-08-30 | The Board Of Regents Of The University Of Texas | Cardiac repair by reprogramming of cardiac fibroblasts into cardiomyocytes |
JP2014507442A (en) * | 2011-02-22 | 2014-03-27 | ザ ボード オブ リージェンツ オブ ザ ユニバーシティー オブ テキサス システム | Cardiac repair by reprogramming cardiac fibroblasts into cardiomyocytes |
US9017661B2 (en) | 2011-02-22 | 2015-04-28 | The Board Of Regents Of The University Of Texas System | Cardiac repair by reprogramming of cardiac fibroblasts into cardiomyocytes |
AU2012220702B2 (en) * | 2011-02-22 | 2016-12-15 | The Board Of Regents Of The University Of Texas System | Cardiac repair by reprogramming of cardiac fibroblasts into cardiomyocytes |
US9523079B2 (en) | 2011-02-22 | 2016-12-20 | The Board Of Regents Of The University Of Texas System | Cardiac repair by reprogramming of cardiac fibroblasts into cardiomyocytes |
US9828585B2 (en) | 2011-08-30 | 2017-11-28 | The J. David Gladstone Instututes | Methods for generating cardiomyocytes |
CN102888401A (en) * | 2011-12-31 | 2013-01-23 | 中国科学院动物研究所 | Inhibitor for inducing pluripotent stem cells, and inducing method and application thereof |
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