US20070027543A1 - Use of adipose tissue-derived stromal cells in spinal fusion - Google Patents
Use of adipose tissue-derived stromal cells in spinal fusion Download PDFInfo
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- US20070027543A1 US20070027543A1 US11/194,270 US19427005A US2007027543A1 US 20070027543 A1 US20070027543 A1 US 20070027543A1 US 19427005 A US19427005 A US 19427005A US 2007027543 A1 US2007027543 A1 US 2007027543A1
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Definitions
- non-metabolic bone conditions such as bone fractures, bone/spinal deformation, osteosarcoma, myeloma, bone dysplasia and scoliosis
- metabolic bone conditions such as osteoporosis, osteomalacia, rickets, fibrous osteitis, renal bone dystrophy and Paget's disease of bone.
- Osteoporosis a metabolic bone condition
- spinal kyphosis and fractures of dorsolumbar bones, vertebral centra, femoral necks, lower end of radius, ribs, upper end of humerus, and others.
- bone tissue bone formation and destruction due to bone resorption occur constantly.
- a quantitative reduction in bone occurs.
- bone resorption suppressors such as estrogens, calcitonin and bisphosphonates have been mainly used to treat osteoporosis.
- Allograft bone is probably the best known type of osteoconductive implant. Although widely used for many years, the risk of disease transmission, host rejection, and lack of osteoinduction compromise its desirability (Leads, 1988, JAMA 260:2487-2488).
- Synthetic osteoconductive implants include titanium fibermetals and ceramics composed of hydroxyapatite and/or tricalcium phosphate. The favorably porous nature of these implants facilitate bony ingrowth, but their lack of osteoinductive potential limits their utility.
- a variety of osteoinductive compounds have also been studied, including demineralized bone matrix, which is known to contain bone morphogenic proteins (BMP).
- osteoinductive approach is the implantation of living cells which are directly osteogenic. Since bone marrow has been shown to contain a population of cells which possess osteogenic potential, some have devised experimental therapies based on the implantation of fresh autologous or syngeneic marrow at sites in need of skeletal repair (Gêtl et al., 1991, Clin. Orthop. Rel. Res. 266:244-258; Werntz et al., 1996, J. Orthop. Res. 14:85-93; Wolff et al., 1994, J. Orthop. Res. 12:439-446). Though sound in principle, the practicality of obtaining enough bone marrow with the requisite number of osteoprogenitor cells is limiting.
- MSC mesenchymal stem cells
- BMSC bone marrow stromal cells
- MSCs represent approximately 1 out of every 10,000 to 100,000 nucleated bone marrow cells or about 200 cells per ml of bone marrow aspirate (Bruder et al., 2000, Principles of Tissue Engineering, 2 nd Edition, Academic Press). In order to obtain MSC numbers sufficient for tissue engineering applications, it is necessary to expand the bone marrow-derived MSCs through multiple passages in vitro.
- adipose tissue In contrast to bone marrow, adipose tissue is easily accessible for surgical harvest and abundant in the average adult American. Recently, it has been demonstrated that adipose tissue can serve as a source of stem cells (known as adipose derived adult stem cells or ADAS cells). These cells are capable of differentiating along multiple lineage pathways. In response to specific chemicals, hormones, and/or cytokines, human and rodent ADAS cells express biochemical and histological characteristics consistent with adipose, bone, cartilage, muscle, and neuronal cells. In a recent study, murine ADAS cells accelerated the repair a critical sized calvarial defect (Cowan et al., 2004, Nat. Biotechnol. 22:560-7).
- Bone grafting is often used for the treatment of bone conditions. Indeed, more than 1.4 million bone grafting procedures are performed in the world annually. The success or failure of bone grafting is dependent upon a number of factors including the vitality of the site of the graft, the graft processing, and the immunological compatibility of the engrafted tissue. In view of the prevalence of bone conditions, there is a need for novel sources of bone for therapeutic, diagnostic, and research uses. The present invention satisfies this need.
- the invention includes a method of enhancing the fusion of bone following a spinal fusion procedure in a mammal comprising administering an isolated adipose tissue-derived adult stromal (ADAS) cell to the spine of the mammal, wherein the ADAS cell differentiates in vivo into a cell that expresses at least one characteristic of a bone cell.
- ADAS adipose tissue-derived adult stromal
- the invention also includes a method of performing one or more spinal fusions in a mammal comprising administering an ADAS cell to the spine of the mammal to facilitate a single or multi level spinal fusion.
- the ADAS cell differentiates in vivo into a cell that expresses at least one characteristic of a bone cell.
- the ADAS cell is cultured in vitro for a period of time without being induced to differentiate prior to the administration of the cell to the mammal.
- the ADAS cell is allogeneic with respect to the mammal.
- the ADAS cell induces bone formation for intervertebral body spinal fusion.
- the ADAS cell induces bone formation for intertransverse process spinal fusion.
- the ADAS cell further comprises a biocompatible matrix.
- the biocompatible matrix is selected from the group consisting of calcium alginate, agarose, fibrin, collagen, laminin, fibronectin, glycosaminoglycan, hyaluronic acid, heparin sulfate, chondroitin sulfate A, dermatan sulfate, and bone matrix gelatin.
- the ADAS cell is genetically modified.
- the ADAS cell is administered into one or more interbody spaces in the spine of the mammal.
- the spinal fusion is in a segment of the spine selected from the group consisting of cervical, thoracic, lumbar, lumbosacral and sacro-iliac (SI) joint.
- the ADAS cell is administered into one or more interbody spaces by an approach selected from the group consisting of a posterior approach, a posterolateral approach, an anterior approach, an anterolateral approach, and a lateral approach.
- the mammal is a human.
- FIG. 1 is an image depicting a spinal fusion procedure.
- FIG. 1A depicts the intervertebral space in the lumbar spine.
- FIGS. 1B and 1C demonstrates introduction of a mechanical device and bone grafts to stabilize the space, respectively.
- FIG. 1D is an image depicting the spine.
- FIG. 2 is an image depicting the potential of ADAS cells to differentiate along multiple lineage pathways.
- human ADAS cells can differentiate into chondrocytes, osteoblasts, adipocytes, and neuronal- and glial-like cells in vitro.
- FIG. 3 is an image depicting osteogenesis of human ADAS cells.
- FIG. 4 is a chart depicting the aldehyde phosphatase expression in ADAS cells during adipogenic and osteogenic differentiation.
- FIG. 5 is an image demonstrating that ADAS cells form bone in vivo.
- the present invention encompasses methods and compositions for treating a bone disease.
- an isolated adipose tissue-derived adult stromal (ADAS) cell of the invention is used to enhance the fusion of bone following a spinal fusion procedure in a mammal.
- ADAS adipose tissue-derived adult stromal
- an element means one element or more than one element.
- adipose tissue-derived cell refers to a cell that originates from adipose tissue.
- the initial cell population isolated from adipose tissue is a heterogeneous cell population including, but not limited to stromal vascular fraction (SVF) cells.
- SVF stromal vascular fraction
- adipose derived stromal cells As used herein, the term “adipose derived stromal cells,” “adipose tissue-derived stromal cells,” “adipose tissue-derived adult stromal (ADAS) cells,” or “adipose-derived stem cells (ASCs)” are used interchangeably and refer to stromal cells that originate from adipose tissue which can serve as stem cell-like precursors to a variety of different cell types such as but not limited to adipocytes, osteocytes, chondrocytes, muscle and neuronal/glial cell lineages. “Adipose” refers to any fat tissue. The adipose tissue may be brown or white adipose tissue.
- the adipose tissue is subcutaneous white adipose tissue.
- Such cells may comprise a primary cell culture or an immortalized cell line.
- the adipose tissue may be from any organism having fat tissue.
- the adipose tissue is mammalian, most preferably the adipose tissue is human.
- a convenient source of human adipose tissue is that derived from liposuction surgery.
- the source of adipose tissue or the method of isolation of adipose tissue is not critical to the invention.
- Allogeneic refers to a graft derived from a different animal of the same species.
- autologous is meant to refer to any material derived from the same individual to which it is later to be re-introduced into the individual.
- Xenogeneic refers to a graft derived from a mammal of a different species.
- biocompatible lattice is meant to refer to a substrate that can facilitate formation into three-dimensional structures conducive for tissue development.
- cells can be cultured or seeded onto such a biocompatible lattice, such as one that includes extracellular matrix material, synthetic polymers, cytokines, growth factors, etc.
- the lattice can be molded into desired shapes for facilitating the development of tissue types.
- the medium and/or substrate is supplemented with factors (e.g., growth factors, cytokines, extracellular matrix material, etc.) that facilitate the development of appropriate tissue types and structures.
- bone condition refers to disorders or diseases of the bone including, but is not limited to, acute, chronic, metabolic and non-metabolic conditions of the bone.
- the term encompasses conditions caused by disease, trauma or failure of the tissue to develop normally.
- Examples of bone conditions include, but are not limited, a bone fracture, a bone/spinal deformation, osteosarcoma, myeloma, bone dysplasia, scoliosis, osteoporosis, osteomalacia, rickets, fibrous osteitis, renal bone dystrophy, and Paget's disease of bone.
- “Differentiation medium” is used herein to refer to a cell growth medium comprising an additive or a lack of an additive such that a stem cell, adipose derived adult stromal cell or other such progenitor cell, that is not fully differentiated when incubated in the medium, develops into a cell with some or all of the characteristics of a differentiated cell.
- “Expandability” is used herein to refer to the capacity of a cell to proliferate, for example, to expand in number or in the case of a cell population to undergo population doublings.
- “Graft” refers to a cell, tissue, organ or otherwise any biological compatible lattice for transplantation.
- growth factors is intended the following specific factors including, but not limited to, growth hormone, erythropoietin, thrombopoietin, interleukin 3, interleukin 6, interleukin 7, macrophage colony stimulating factor, c-kit ligand/stem cell factor, osteoprotegerin ligand, insulin, insulin like growth factors, epidermal growth factor (EGF), fibroblast growth factor (FGF), nerve growth factor, ciliary neurotrophic factor, platelet derived growth factor (PDGF), and bone morphogenetic protein at concentrations of between picogram/ml to milligram/ml levels.
- growth medium is meant to refer to a culture medium that promotes growth of cells.
- a growth medium will generally contain animal serum. In some instances, the growth medium may not contain animal serum.
- isolated cell refers to a cell which has been separated from other components and/or cells which naturally accompany the isolated cell in a tissue or mammal.
- multipotential or “multipotentiality” is meant to refer to the capability of a stem cell of the central nervous system to differentiate into more than one type of cell.
- module is meant to refer to any change in biological state, i.e. increasing, decreasing, and the like.
- non-immunogenic is meant to refer to the discovery that ADAS cells do not induce proliferation of T cells in an MLR.
- non-immunogenic should not be limited to T cell proliferation in an MLR, but rather should also apply to ADAS cells not inducing T cell proliferation in vivo.
- proliferation is used herein to refer to the reproduction or multiplication of similar forms, especially of cells. That is, proliferation encompasses production of a greater number of cells, and can be measured by, among other things, simply counting the numbers of cells, measuring incorporation of 3 H-thymidine into the cell, and the like.
- “Progression of or through the cell cycle” is used herein to refer to the process by which a cell prepares for and/or enters mitosis and/or meiosis. Progression through the cell cycle includes progression through the G1 phase, the S phase, the G2 phase, and the M-phase.
- progenitor cell refers either to a pluripotent, or lineage-uncommitted, progenitor cell, which is potentially capable of an unlimited number of mitotic divisions to either renew itself or to produce progeny cells which will differentiate into the desired cell type.
- pluripotent stem cells lineage-committed progenitor cells are generally considered to be incapable of giving rise to numerous cell types that phenotypically differ from each other. Instead, progenitor cells give rise to one or possibly two lineage-committed cell types.
- stromal cell medium refers to a medium useful for culturing ADAS cells.
- a non-limiting example of a stromal cell medium is a medium comprising DMEM/F 12 Ham's, 10% fetal bovine serum, 100 U penicillin/100 ⁇ g streptomycin/0.25 ⁇ g Fungizone.
- the stromal cell medium comprises a base medium, serum and an antibiotic/antimycotic.
- ADAS cells can be cultured with stromal cell medium without an antibiotic/antimycotic and supplemented with at least one growth factor.
- the growth factor is human epidermal growth factor (hEGF).
- the preferred concentration of hEGF is about 1-50 ng/ml, more preferably the concentration is about 5 ng/ml.
- the preferred base medium is DMEM/F12 (1:1).
- the preferred serum is fetal bovine serum (FBS) but other sera may be used including horse serum or human serum.
- FBS fetal bovine serum
- a defined medium could be used if the necessary growth factors, cytokines, and hormones in FBS for stromal cell growth are identified and provided at appropriate concentrations in the growth medium. It is further recognized that additional components may be added to the culture medium.
- Such components include but are not limited to antibiotics, antimycotics, albumin, growth factors, amino acids, and other components known to the art for the culture of cells.
- Antibiotics which can be added into the medium include, but are not limited to, penicillin and streptomycin.
- the concentration of penicillin in the culture medium is about 10 to about 200 units per ml.
- the concentration of streptomycin in the culture medium is about 10 to about 200 ⁇ g/ml.
- the invention should in no way be construed to be limited to any one medium for culturing stromal cells. Rather, any media capable of supporting stromal cells in tissue culture may be used.
- pharmaceutically acceptable carrier refers to reagents, cells, compounds, materials, compositions, and/or dosage forms which are, within the scope of being suitable for use in contact with the tissues of human beings and animals without excessive toxicity, irritation, allergic response, or other complication commensurate with a reasonable benefit/risk ratio.
- a “suitable interbody space” as the term is used herein means the space between adjacent vertebrae where a disc resides in a healthy spine but which is either at least partially devoid of disc material due to wear and tear on the vertebral column or has been prepared using techniques known in the art to surgically create a void in the disc space.
- a “therapeutically effective amount” is the amount of ADAS cells sufficient to provide a beneficial effect to the subject to which the cells are administered.
- Treating refers to ameliorating the effects of, or delaying, halting or reversing the progress of, or delaying or preventing the onset of, a bone condition.
- endogenous refers to any material from or produced inside an organism, cell or system.
- Exogenous refers to any material introduced from or produced outside an organism, cell, or system.
- Encoding refers to the inherent property of specific sequences of nucleotides in a polynucleotide, such as a gene, a cDNA, or an mRNA, to serve as templates for synthesis of other polymers and macromolecules in biological processes having either a defined sequence of nucleotides (i.e., rRNA, tRNA and mRNA) or a defined sequence of amino acids and the biological properties resulting therefrom.
- a gene encodes a protein if transcription and translation of mRNA corresponding to that gene produces the protein in a cell or other biological system.
- Both the coding strand the nucleotide sequence of which is identical to the mRNA sequence and is usually provided in sequence listings, and the non-coding strand, used as the template for transcription of a gene or cDNA, can be referred to as encoding the protein or other product of that gene or cDNA.
- nucleotide sequence encoding an amino acid sequence includes all nucleotide sequences that are degenerate versions of each other and that encode the same amino acid sequence. Nucleotide sequences that encode proteins and RNA may include introns.
- isolated nucleic acid refers to a nucleic acid segment or fragment which has been separated from sequences which flank it in a naturally occurring state, i.e., a DNA fragment which has been removed from the sequences which are normally adjacent to the fragment, i.e., the sequences adjacent to the fragment in a genome in which it naturally occurs.
- the term also applies to nucleic acids which have been substantially purified from other components which naturally accompany the nucleic acid, i.e., RNA or DNA or proteins, which naturally accompany it in the cell.
- the term therefore includes, for example, a recombinant DNA which is incorporated into a vector, into an autonomously replicating plasmid or virus, or into the genomic DNA of a prokaryote or eukaryote, or which exists as a separate molecule (i.e., as a cDNA or a genomic or cDNA fragment produced by PCR or restriction enzyme digestion) independent of other sequences. It also includes a recombinant DNA which is part of a hybrid gene encoding additional polypeptide sequence.
- A refers to adenosine
- C refers to cytosine
- G refers to guanosine
- T refers to thymidine
- U refers to uridine.
- under transcriptional control or “operatively linked” as used herein means that the promoter is in the correct location and orientation in relation to the polynucleotides to control RNA polymerase initiation and expression of the polynucleotides.
- promoter/regulatory sequence means a nucleic acid sequence which is required for expression of a gene product operably linked to the promoter/regulatory sequence.
- this sequence may be the core promoter sequence and in other instances, this sequence may also include an enhancer sequence and other regulatory elements which are required for expression of the gene product.
- the promoter/regulatory sequence may, for example, be one which expresses the gene product in a tissue specific manner.
- a “constitutive” promoter is a nucleotide sequence which, when operably linked with a polynucleotide which encodes or specifies a gene product, causes the gene product to be produced in a cell under most or all physiological conditions of the cell.
- an “inducible” promoter is a nucleotide sequence which, when operably linked with a polynucleotide which encodes or specifies a gene product, causes the gene product to be produced in a cell substantially only when an inducer which corresponds to the promoter is present in the cell.
- tissue-specific promoter is a nucleotide sequence which, when operably linked with a polynucleotide which encodes or specifies a gene product, causes the gene product to be produced in a cell substantially only if the cell is a cell of the tissue type corresponding to the promoter.
- a “vector” is a composition of matter which comprises an isolated nucleic acid and which can be used to deliver the isolated nucleic acid to the interior of a cell.
- vectors are known in the art including, but not limited to, linear polynucleotides, polynucleotides associated with ionic or amphiphilic compounds, plasmids, and viruses.
- the term “vector” includes an autonomously replicating plasmid or a virus.
- the term should also be construed to include non-plasmid and non-viral compounds which facilitate transfer of nucleic acid into cells, such as, for example, polylysine compounds, liposomes, and the like.
- viral vectors include, but are not limited to, adenoviral vectors, adeno-associated virus vectors, retroviral vectors, and the like.
- “Expression vector” refers to a vector comprising a recombinant polynucleotide comprising expression control sequences operatively linked to a nucleotide sequence to be expressed.
- An expression vector comprises sufficient cis-acting elements for expression; other elements for expression can be supplied by the host cell or in an in vitro expression system.
- Expression vectors include all those known in the art, such as cosmids, plasmids (i.e., naked or contained in liposomes) and viruses that incorporate the recombinant polynucleotide.
- the present invention relates to the discovery that adipose tissue-derived adult stromal (ADAS) cells can differentiate into a variety of different cell types including, but not limited to, adipocytes, osteocytes, chondrocytes, muscle and neuronal/glial cell lineages. Particularly, the invention relates to the observation that ADAS cells can differentiate along the osteogenic lineage in vivo.
- ADAS adipose tissue-derived adult stromal
- an ADAS cell can be successfully used in cell and/or gene therapy for experimental/therapeutic purposes.
- the cells can be used in the treatment of bone diseases.
- the cells are used to enhance the fusion of bone following a spinal fusion procedure.
- Spinal fusion is a common orthopedic and neurosurgical procedure used to treat back pain in mammals suffering from degenerative disc disease, spinal stenosis, scoliosis, spinal fracture, tumor, and the like.
- ADAS cells useful in the methods of the present invention may be isolated by a variety of methods known to those skilled in the art. For example, such methods are described in U.S. Pat. No. 6,153,432, which is incorporated herein in its entirety.
- ADAS cells are isolated from a mammalian subject, preferably a human subject. In humans, the ADAS cells are typically isolated from liposuction material. If the cells of the invention are to be transplanted into a human subject, it is preferable that the ADAS cells be isolated from that same subject so as to provide for an autologous transplant.
- the administered ADAS cells may be allogeneic with respect to the recipient.
- the allogeneic ADAS cells are isolated from a donor that is a different individual of the same species as the recipient. Following isolation, the cells are cultured using the methods disclosed herein to produce an allogeneic product.
- the invention also encompasses ADAS cells that are xenogeneic with respect to the recipient.
- stromal cells from adipose tissue can be isolated using the methods disclosed herein. Briefly, human adipose tissue from subcutaneous depots are removed by liposuction surgery. The adipose tissue is then transferred from the liposuction cup into a 500 ml sterile beaker and allowed to settle for about 10 minutes. Precipitated blood is removed by suction. About a 125 ml volume (or less) of the tissue is transferred to a 250 ml centrifuge tube, and the tube is then filled with Krebs-Ringer Buffer. The tissue and buffer are allowed to settle for about three minutes or until a clear separation is achieved, and then the buffer is removed by aspiration. The tissue can be washed with Krebs-Ringer Buffer for an additional four to five times or until the tissue becomes orange-yellow in color and until the buffer becomes light tan in color.
- the stromal cell of the adipose tissue can be dissociated using collagenase treatment. Briefly, the buffer is removed from the tissue and replaced with about 2 mg collagenase/ml Krebs Buffer (Worthington, Me.) solution at a ratio of 1 ml collagenase solution/ml tissue. The tubes are incubated in a 37° C. water bath with intermittent shaking for about 30 to 35 minutes.
- collagenase/ml Krebs Buffer Wood, Me.
- Stromal cells are isolated from other components of the adipose tissue by centrifugation for 5 minutes at 500 ⁇ g at room temperature. The oil and adipocyte layer are removed by aspiration. The remaining fraction can be resuspended in approximately 100 ml of phosphate buffered saline (PBS) by vigorous swirling, divided into 50 ml tubes and centrifuged for five minutes at 500 ⁇ g. The buffer is removed by aspiration, leaving the stromal cells. The stromal cells are then resuspended in stromal cell medium, and plated at an appropriate cell density and incubated at 37° C. in 5% CO 2 overnight.
- PBS phosphate buffered saline
- the cultured stromal cells can be used immediately or maintained in culture for a period of time or a number of passages before using the cells according to the methods disclosed herein.
- the invention should in no way be construed to be limited to any one method of isolating stromal cells. Rather, any method of isolating ADAS cells should be encompassed in the present invention.
- Any medium capable of supporting fibroblasts in cell culture may be used to culture ADAS.
- Media formulations that support the growth of fibroblasts include, but are not limited to, Minimum Essential Medium Eagle, ADC-1, LPM (bovine serum albumin-free), F10 (HAM), F12 (HAM), DCCM1, DCCM2, RPMI 1640, BGJ Medium (with and without Fitton-Jackson Modification), Basal Medium Eagle (BME-with the addition of Earle's salt base), Dulbecco's Modified Eagle Medium (DMEM-without serum), Yamane, IMEM-20, Glasgow Modification Eagle Medium (GMEM), Leibovitz L-15 Medium, McCoy's 5A Medium, Medium M199 (M199E-with Earle's salt base), Medium M199 (M199H-with Hank's salt base), Minimum Essential Medium Eagle (MEM-E-with Earle's salt base), Minimum Essential Medium Eagle (MEM-H-with Hank's salt base) and Minimum Essential Medium Eagle (MEM
- media useful in the methods of the invention can contain fetal serum of bovine or other species at a concentration at least 1% to about 30%, preferably at least about 5% to 15%, most preferably about 10%.
- Embryonic extract of chicken or other species can be present at a concentration of about 1% to 30%, preferably at least about 5% to 15%, most preferably about 10%.
- ADAS cells are incubated in stromal cell medium in a culture apparatus for a period of time or until the cells reach confluency before passing the cells to another culture apparatus.
- the culturing apparatus can be of any culture apparatus commonly used in culturing cells in vitro.
- the level of confluence is greater than 70% before passing the cells to another culture apparatus. More preferably, the level of confluence is greater than 90%.
- a period of time can be any time suitable for the culture of cells in vitro.
- Stromal cell medium may be replaced during the culture of the ADAS cells at any time.
- the stromal cell medium is replaced every 3 to 4 days.
- ADAS cells are then harvested from the culture apparatus whereupon the ADAS cells can be used immediately or cryopreserved to be stored for use at a later time.
- ADAS cells may be harvested by trypsinization, EDTA treatment, or any other procedure used to harvest cells from a culture apparatus.
- Cell culture refers generally to cells taken from a living organism and grown under controlled condition.
- a primary cell culture is a culture of cells, tissues or organs taken directly from an organism and before the first subculture.
- Cells are expanded in culture when they are placed in a growth medium under conditions that facilitate cell growth and/or division, resulting in a larger population of the cells.
- the rate of cell proliferation is typically measured by the amount of time required for the cells to double in number, otherwise known as the doubling time.
- Each round of subculturing is referred to as a passage.
- cells When cells are subcultured, they are referred to as having been passaged.
- a specific population of cells, or a cell line, is sometimes referred to or characterized by the number of times it has been passaged.
- a cultured cell population that has been passaged ten times may be referred to as a P10 culture.
- the primary culture i.e., the first culture following the isolation of cells from tissue, is designated P0.
- the cells are described as a secondary culture (P1 or passage 1).
- P2 or passage 2 tertiary culture
- the number of population doublings of a culture is greater than the passage number.
- the expansion of cells (i.e., the number of population doublings) during the period between passaging depends on many factors, including but is not limited to the seeding density, substrate, medium, and time between passaging.
- the cells of the present invention can also be used to express a foreign protein or molecule for a therapeutic purpose or in a method of tracking the assimilation of the cell and/or its differentiation in the recipient.
- the invention encompasses expression vectors and methods for the introduction of exogenous DNA into ADAS cells with concomitant expression of the exogenous DNA in the ADAS cells. Methods for introducing and expressing DNA in a cell are well known to the skilled artisan and include those described, for example, in Sambrook et al. (2001, Molecular Cloning: A Laboratory Manual, Cold Spring Harbor Laboratory, New York), and in Ausubel et al. (1997, Current Protocols in Molecular Biology, John Wiley & Sons, New York).
- the isolated nucleic acid can encode a molecule used to track the migration, assimilation, and survival of ADAS cells once they are introduced in the recipient.
- Proteins useful for tracking a cell include, but are not limited to, green fluorescent protein (GFP), any of the other fluorescent proteins (e.g., enhanced green, cyan, yellow, blue and red fluorescent proteins; Clontech, Palo Alto, Calif.), or other tag proteins (e.g., LacZ, FLAG-tag, Myc, His 6 , and the like).
- Tracking the migration, assimilation and/or differentiation of an ADAS cell of the present invention is not limited to the use of detectable molecules expressed by a vector or virus.
- the migration, assimilation, and/or differentiation of a cell can also be assessed using a series of probes that facilitate localization of transplanted ADAS cells within a mammal. Tracking an ADAS cell transplant may further be accomplished using antibodies or nucleic acid probes for cell-specific markers detailed elsewhere herein.
- genetic modification refers to the stable or transient alteration of the genotype of an ADAS cell by intentional introduction of exogenous DNA.
- DNA may be synthetic, or naturally derived, and may contain genes, portions of genes, or other useful DNA sequences.
- genetic modification as used herein is not meant to include naturally occurring alterations such as that which occurs through natural viral activity, natural genetic recombination, or the like.
- Exogenous DNA may be introduced to an ADAS cell using viral vectors (retrovirus, modified herpes viral, herpes-viral, adenovirus, adeno-associated virus, lentiviral, and the like) or by direct DNA transfection (lipofection, calcium phosphate transfection, DEAE-dextran, electroporation, and the like).
- viral vectors retrovirus, modified herpes viral, herpes-viral, adenovirus, adeno-associated virus, lentiviral, and the like
- direct DNA transfection lipofection, calcium phosphate transfection, DEAE-dextran, electroporation, and the like.
- the substance When the purpose of genetic modification of the cell is for the production of a biologically active substance, the substance will generally be one that is useful for the treatment of a given disorder. For example, it may be desired to genetically modify cells so that they secrete a certain growth factor product associated with bone formation.
- the cells of the present invention can be genetically modified by having exogenous genetic material introduced into the cells, to produce a molecule such as a trophic factor, a growth factor, a cytokine, and the like, which is beneficial to culturing the cells.
- a molecule such as a trophic factor, a growth factor, a cytokine, and the like, which is beneficial to culturing the cells.
- the cell can provide an additional therapeutic effect to the mammal when transplanted into a mammal in need thereof.
- the genetically modified cell can secrete a molecule that is beneficial neighboring cells in the mammal.
- growth factor product refers to a protein, peptide, mitogen, or other molecule having a growth, proliferative, differentiative, or trophic effect on a cell.
- growth factor products useful in the treatment of bone disorders include, but are not limited to, FGF, TGF- ⁇ , insulin-like growth factor, and bone morphogenetic protein.
- gene constructs which comprise nucleotide sequences that encode heterologous proteins are introduced into the ADAS cells. That is, the cells are genetically altered to introduce a gene whose expression has therapeutic effect in the mammal.
- ADAS cells from the mammal to be treated or from another mammal may be genetically altered to replace a defective gene and/or to introduce a gene whose expression has therapeutic effect in the mammal being treated.
- the heterologous gene is operably linked to regulatory sequences required to achieve expression of the gene in the cell.
- regulatory sequences typically include a promoter and a polyadenylation signal.
- the gene construct is preferably provided as an expression vector that includes the coding sequence for a heterologous protein operably linked to essential regulatory sequences such that when the vector is transfected into the cell, the coding sequence will be expressed by the cell.
- the coding sequence is operably linked to the regulatory elements necessary for expression of that sequence in the cells.
- the nucleotide sequence that encodes the protein may be cDNA, genomic DNA, synthesized DNA or a hybrid thereof or an RNA molecule such as mRNA.
- the gene construct includes the nucleotide sequence encoding the beneficial protein operably linked to the regulatory elements and may remain present in the cell as a functioning cytoplasmic molecule, a functioning episomal molecule or it may integrate into the cell's chromosomal DNA.
- Exogenous genetic material may be introduced into cells where it remains as separate genetic material in the form of a plasmid.
- linear DNA which can integrate into the chromosome may be introduced into the cell.
- reagents which promote DNA integration into chromosomes may be added.
- DNA sequences which are useful to promote integration may also be included in the DNA molecule.
- RNA may be introduced into the cell.
- the regulatory elements for gene expression include: a promoter, an initiation codon, a stop codon, and a polyadenylation signal. It is preferred that these elements be operable in the cells of the present invention. Moreover, it is preferred that these elements be operably linked to the nucleotide sequence that encodes the protein such that the nucleotide sequence can be expressed in the cells and thus the protein can be produced. Initiation codons and stop codons are generally considered to be part of a nucleotide sequence that encodes the protein. However, it is preferred that these elements are functional in the cells. Similarly, promoters and polyadenylation signals used must be functional within the cells of the present invention.
- promoters useful to practice the present invention include but are not limited to promoters that are active in many cells such as the cytomegalovirus promoter, SV40 promoters and retroviral promoters.
- Other examples of promoters useful to practice the present invention include but are not limited to tissue-specific promoters, i.e. promoters that function in some tissues but not in others; also, promoters of genes normally expressed in the cells with or without specific or general enhancer sequences.
- promoters are used which constitutively express genes in the cells with or without enhancer sequences. Enhancer sequences are provided in such embodiments when appropriate or desirable.
- cells of the present invention can be transfected using well known techniques readily available to those having ordinary skill in the art. Exogenous genes may be introduced into the cells using standard methods where the cell expresses the protein encoded by the gene. In some embodiments, cells are transfected by calcium phosphate precipitation transfection, DEAE dextran transfection, electroporation, microinjection, liposome-mediated transfer, chemical-mediated transfer, ligand mediated transfer or recombinant viral vector transfer.
- recombinant adenovirus vectors are used to introduce DNA with desired sequences into the cell.
- recombinant retrovirus vectors are used to introduce DNA with desired sequences into the cells.
- standard CaPO 4 , DEAE dextran or lipid carrier mediated transfection techniques are employed to incorporate desired DNA into dividing cells. Standard antibiotic resistance selection techniques can be used to identify and select transfected cells.
- DNA is introduced directly into cells by microinjection.
- well-known electroporation or particle bombardment techniques can be used to introduce foreign DNA into the cells.
- a second gene is usually co-transfected or linked to the therapeutic gene. The second gene is frequently a selectable antibiotic-resistance gene. Transfected cells can be selected by growing the cells in an antibiotic that will kill cells that do not take up the selectable gene. In most cases where the two genes are unlinked and co-transfected, the cells that survive the antibiotic treatment have both genes in them and express both of them.
- the invention also relates to the discovery that ADAS cells lack immunogenic characteristics with respect to inducing proliferation of T cells. This characteristic is an indication that there is a reduced likelihood of an immune rejection by the recipient's immune cells.
- ADAS cells have been shown not to stimulate allogeneic PBMCs in a mixed lymphocyte reaction.
- ADAS cells it may not be necessary or desirable to immunosuppress a mammal prior to initiation of cell/gene therapy with ADAS cells. Accordingly, transplantation with allogeneic, or even xenogeneic, ADAS cells is included in the invention.
- ADAS cells for the treatment of a disease, disorder, or a condition of the bone provides an additional advantage in that the ADAS cells can be introduced into a recipient without the requirement of an immunosuppressive agent.
- Successful transplantation of a cell is believed to require the permanent engraftment of the donor cell without inducing a graft rejection immune response generated by the recipient.
- nonspecific immunosuppressive agents such as cyclosporine, methotrexate, steroids and FK506 are used. These agents are administered on a daily basis and if administration is stopped, graft rejection usually results.
- an undesirable consequence in using nonspecific immunosuppressive agents is that they function by suppressing all aspects of the immune response (general immune suppression), thereby greatly increasing a recipient's susceptibility to infection and other diseases.
- the present invention provides a method of treating a disease, disorder, or a condition of the bone by introducing undifferentiated or differentiated ADAS cells into the recipient without the requirement of immunosuppressive agents. There is therefore a reduced susceptibility for the recipient of the transplanted ADAS cell to incur infection and other diseases, including cancer relating conditions that is associated with immunosuppression therapy.
- the present invention includes the administration of an allogeneic or a xenogeneic ADAS cell, or otherwise an ADAS cell that is genetically disparate from the recipient, into a recipient to provide a benefit to the recipient.
- the present invention provides a method of using ADAS cells to treat a disease, disorder or condition of the bone without the requirement of using immunosuppressive agents when administering the cells to a recipient.
- the ADAS cell used in the present invention can be isolated, from adipose tissue of any species of mammal, including but is not limited to, human, mouse, rat, ape, gibbon, bovine.
- the ADAS cell is isolated from a human, a mouse, or a rat. More preferably, the ADAS cell is isolated from a human.
- the ADAS cell may be administered to a mammal following a period of in vitro culturing.
- the ADAS cell may be cultured in a manner that induces the ADAS cell to differentiate in vitro.
- it is preferred that the ADAS cell is implanted into the recipient in an undifferentiated state and that the implanted ADAS cell differentiates to express at least one characteristic of a bone cell in vivo.
- the ADAS cells of this invention can be transplanted into a mammal using techniques known in the art such as i.e., those described in U.S. Pat. Nos. 5,082,670 and 5,618,531, each incorporated herein by reference, or into any other suitable site in the body. Transplantation of the cells of the present invention can be accomplished using techniques well known in the art as well as those described herein or as developed in the future.
- the present invention comprises a method for transplanting, grafting, infusing, or otherwise introducing the cells into a mammal, preferably, a human.
- the number of ADAS cells administered to a mammal may be related to, for example, the cell yield after adipose tissue processing. A portion of the total number of cells may be retained for later use or cyropreserved. In addition, the dose delivered depends on the route of delivery of the cells to the mammal.
- the dosage of the ADAS cells varies within wide limits and may be adjusted to the individual requirements in each particular case.
- the number of cells used depends on the weight and condition of the recipient, the number and/or frequency of administrations, and other variables known to those of skill in the art. This number can be adjusted by orders of magnitude to achieve the desired therapeutic effect.
- ADAS cells per 100 kg body weight can be administered to the individual. In some embodiments, between about 1.5 ⁇ 10 6 and about 1.5 ⁇ 10 12 cells are administered per 100 kg body weight. In some embodiments, between about 1 ⁇ 10 9 and about 5 ⁇ 10 11 cells are administered per 100 kg body weight. In other embodiments, between about 4 ⁇ 10 9 and about 2 ⁇ 10 11 cells are administered per 100 kg body weight. In yet other embodiments, between about 5 ⁇ 10 8 cells and about 1 ⁇ 10 10 cells are administered per 100 kg body weight.
- ADAS cells can be suspended in an appropriate diluent, at a concentration of from about 0.01 to about 5 ⁇ 10 6 cells/ml.
- Suitable excipients for injection solutions are those that are biologically and physiologically compatible with the ADAS cells and with the recipient, such as buffered saline solution or other suitable excipients.
- the composition for administration can be formulated, produced and stored according to standard methods complying with proper sterility and stability.
- the cells may also be encapsulated and used to deliver biologically active molecules, according to known encapsulation technologies, including microencapsulation (see, e.g., U.S. Pat. Nos. 4,352,883; 4,353,888; and 5,084,350, herein incorporated by reference), or macroencapsulation (see, e.g., U.S. Pat. Nos. 5,284,761; 5,158,881; 4,976,859; and 4,968,733; and International Publication Nos. WO 92/19195; WO 95/05452, all of which are incorporated herein by reference).
- microencapsulation see, e.g., U.S. Pat. Nos. 4,352,883; 4,353,888; and 5,084,350, herein incorporated by reference
- macroencapsulation see, e.g., U.S. Pat. Nos. 5,284,761; 5,158,881; 4,976,859; and 4,968,733; and International Publication Nos
- cell number in the devices can be varied; preferably, each device contains between 10 3 -10 9 cells, most preferably, about 10 5 to 10 7 cells.
- macroencapsulation devices may be implanted in the mammal. Methods for the macroencapsulation and implantation of cells are well known in the art and are described in, for example, U.S. Pat. No. 6,498,018.
- the mode of administration of the cells of the invention to the mammal may vary depending on several factors including the type of disease being treated, the age of the mammal, whether the cells are differentiated or not, whether the cells have heterologous DNA introduced therein, and the like.
- the cells may be introduced to the desired site by direct injection, or by any other means used in the art for the introduction of compounds administered to a mammal suffering from a particular disease or disorder of the bone.
- the ADAS cells can be administered into a host in a wide variety of ways. Modes of administration include, but are not limited to, intravascular, intracerebral, parenteral, intraperitoneal, intravenous, epidural, intraspinal, intrastemal, intra-articular, intra-synovial, intrathecal, intra-arterial, intracardiac, or intramuscular. Preferably, the cells are used in spinal fusion procedures.
- the invention also provides a matrix for implantation into a mammal, wherein the matrix comprises an ADAS cell of the invention.
- the matrix can also include, but is not limited to, an ADAS cell, an ADAS cell lysate, an ADAS cell conditioned medium, and an extracellular matrix produced by an ADAS cell.
- the matrix may also contain or be treated with one or more bioactive factor including, but not limited to an anti-apoptotic agent (i.e., erythropoietin, thrombopoietin, insulin-like growth factor I and insulin-like growth factor II, hepatocyte growth factor, caspase inhibitors); an anti-inflammatory agent (i.e., p38 MAPK inhibitors, TGF-beta inhibitors, statins, IL-6 and IL-1 inhibitors, and non-steroidal anti-inflammatory drugs); an immunosupressive/immunomodulatory agent; an mTOR inhibitor; an anti-proliferative agent; a corticosteroid (i.e., prednisolone, hydrocortisone); an anti-thrombogenic agent; and an anti-oxidant.
- an anti-apoptotic agent i.e., erythropoietin, thrombopoietin, insulin-like growth factor I and insulin-like growth factor II,
- the invention further provides in some aspects methods of regenerating bone tissue in a mammal in need thereof by administering a composition comprising an ADAS cell, a matrix, an ADAS cell lysate, an ADAS-product of the invention (i.e. molecules secreted by the ADAS cell), or any combination thereof in a mammal.
- a composition comprising an ADAS cell, a matrix, an ADAS cell lysate, an ADAS-product of the invention (i.e. molecules secreted by the ADAS cell), or any combination thereof in a mammal.
- the invention encompasses a pharmaceutical composition, wherein the composition may be used in the treatment of a bone condition.
- the bone condition includes, but is not limited to, a bone fracture, a bone/spinal deformation, osteosarcoma, myeloma, bone dysplasia, scoliosis, osteoporosis, osteomalacia, rickets, fibrous osteitis, renal bone dystrophy, and Paget's disease of bone.
- the invention provides compositions and methods for enhancing fusion of bone following a spinal fusion procedure.
- a formulation comprising the cells of the invention is prepared for administration directly to the site where the production of new bone tissue is desired.
- the cells of the invention may be suspended in a hydrogel solution for injection.
- the hydrogel solution containing the cells may be allowed to harden, for instance in a mold, to form a matrix having cells dispersed therein prior to implantation, or once the matrix has hardened, the cell formations may be cultured so that the cells are mitotically expanded prior to implantation.
- the hydrogel is an organic polymer (natural or synthetic) which is cross-linked via covalent, ionic, or hydrogen bonds to create a three-dimensional open-lattice structure which entraps water molecules to form a gel.
- Examples of materials which can be used to form a hydrogel include polysaccharides such as alginate and salts thereof, peptides, polyphosphazines, and polyacrylates, which are crosslinked ionically, or block polymers such as polyethylene oxide-polypropylene glycol block copolymers which are crosslinked by temperature or pH, respectively.
- the polymers are at least partially soluble in aqueous solutions, such as water, buffered salt solutions, or aqueous alcohol solutions, that have charged side groups, or a monovalent ionic salt thereof.
- aqueous solutions such as water, buffered salt solutions, or aqueous alcohol solutions
- polymers with acidic side groups that can be reacted with cations are poly(phosphazenes), poly(acrylic acids), poly(methacrylic acids), copolymers of acrylic acid and methacrylic acid, poly(vinyl acetate), and sulfonated polymers, such as sulfonated polystyrene.
- Copolymers having acidic side groups formed by reaction of acrylic or methacrylic acid and vinyl ether monomers or polymers can also be used.
- acidic groups are carboxylic acid groups, sulfonic acid groups, halogenated (preferably fluorinated) alcohol groups, phenolic OH groups, and acidic OH groups.
- the ammonium or quaternary salt of the polymers can also be formed from the backbone nitrogens or pendant imino groups.
- basic side groups are amino and imino groups.
- polymers include, but are not limited to poly-alpha-hydroxy esters, polydioxanone, propylene fumarate, poly-ethylene glycol, poly-erthoesters, polyanhydrides and polyurethanes, poly-L-lactic acid, poly-glycolic acid, and poly-lactic-co-glycolic acid.
- the cells of the invention can be seeded onto or into a three-dimensional scaffold and implanted in vivo, where the seeded cells proliferate on the framework and form a replacement tissue in vivo in cooperation with the cells of the mammal.
- the scaffold comprises extracellular matrix, cell lysate (e.g., soluble cell fractions), or combinations thereof, of the ADAS cells.
- the scaffold comprises an extracellular matrix protein secreted by the cells of the invention.
- the extracellular matrix is an exogenous material selected from the group consisting of calcium alginate, agarose, fibrin, collagen, laminin, fibronectin, glycosaminoglycan, hyaluronic acid, heparin sulfate, chondroitin sulfate A, dermatan sulfate, and bone matrix gelatin.
- the matrix comprises natural or synthetic polymers.
- the invention includes biocompatible scaffolds, lattices, self-assembling structures and the like, whether biodegradable or not, liquid or solid.
- Such Scaffolds are known in the arts of cell-based therapy, surgical repair, tissue engineering, and wound healing.
- the scaffolds are pretreated (e.g., seeded, inoculated, contacted with) with the cells, extracellular matrix, conditioned medium, cell lysate, or combination thereof.
- the cells adhere to the scaffold.
- the seeded scaffold can be introduced into a mammal's body in anyway known in the art, including but not limited to implantation, injection, surgical attachment, transplantation with other tissue, injection, and the like.
- the scaffold of the invention may be configured to the shape and/or size of a tissue or organ in vivo.
- the scaffold may be designed such that the scaffold structure supports the seeded cells without subsequent degradation; supports the cells from the time of seeding until the tissue transplant is remodeled by the host tissue; and allows the seeded cells to attach, proliferate, and develop into a tissue structure having sufficient mechanical integrity to support itself.
- Scaffolds of the invention can be administered in combination with any one or more growth factors, cells, drugs or other components described elsewhere herein that stimulate tissue formation or otherwise enhance or improve the practice of the invention.
- the ADAS cells to be seeded onto the scaffolds may be genetically engineered to express growth factors or drugs.
- the cells of the invention are seeded onto a scaffold where the material exhibits specified physical properties of porosity and biomechanical strength to mimic the features of true bone, thereby promoting stability of the final structure and access and egress of metabolites and cellular nutrients. That is, the material should provide structural support and can form a scaffolding into which host vascularization and cell migration can occur.
- ADAS cells are first mixed with a carrier material before application to a scaffold.
- Suitable carriers include, but are not limited to, calcium alginate, agarose, types I, II, IV or other collagen isoform, fibrin, poly-lactic/poly-glycolic acid, hyaluronate derivatives, gelatin, laminin, fibronectin, starch, polysaccharides, saccharides, proteoglycans, synthetic polymers, calcium phosphate, and ceramics (i.e. hydroxyapatite, tricalcium phosphate).
- the external surfaces of the three-dimensional framework may be modified to improve the attachment or growth of cells and differentiation of tissue, such as by plasma coating the framework or addition of one or more proteins (e.g., collagens, elastic fibers, reticular fibers), glycoproteins, glycosaminoglycans (e.g., heparin sulfate, chondroitin-4-sulfate, chondroitin-6-sulfate, dermatan sulfate, keratin sulfate), a cellular matrix, and/or other materials such as, but not limited to, gelatin, alginates, agar, and agarose.
- proteins e.g., collagens, elastic fibers, reticular fibers
- glycoproteins e.g., glycoproteins, glycosaminoglycans (e.g., heparin sulfate, chondroitin-4-sulfate, chondroitin-6-sulfate, dermatan sulfate
- growth factors, osteogenic inducing agents, and angiogenic factors may be added to the culture medium prior to, during, or subsequent to inoculation of the cells to trigger differentiation and tissue formation by the ADAS cells following implantation into the mammal.
- the present invention encompasses methods for administering an ADAS cell to a mammal, including a human, in order to treat a disease where the introduction of the ADAS cells provide a therapeutic relief.
- the cells of the invention may be administered alone or as admixtures with other cells and/or a bioactive factor as discussed elsewhere herein.
- a cell that may be administered in conjunction with ADAS cells of the invention include, but is not limited to, other multipotent or pluripotent cells, an osteocyte, an osteoblast, an osteoclast, a bone lining cell, a stem cell, and a bone marrow cell.
- the different types of cells may be admixed with the ADAS cells immediately or shortly prior to administration to a mammal, or they may be co-cultured together for a period of time prior to administration to a mammal.
- ADAS cells can be transplanted into a mammal whereby upon receiving signals and cues from the surrounding milieu, the cells differentiate into mature cells in vivo dictated by the neighboring cellular milieu.
- the ADAS cells differentiate into a cell that exhibits at least one characteristic of a bone cell.
- the ADAS cells can be differentiated in vitro into a desired cell type and the differentiated cell can be administered to a mammal in need thereof.
- the invention also encompasses grafting ADAS cells in combination with other therapeutic procedures to treat diseases of the bone.
- the cells are useful in enhancing fusion of bone following a spinal fusion procedure.
- ADAS cells can be co-grafted with other cells, both genetically modified and non-genetically modified cells which exert beneficial effects on the mammal. Therefore the methods disclosed herein can be combined with other therapeutic procedures as would be understood by one skilled in the art once armed with the teachings provided herein.
- the ADAS cells may be administered with other beneficial drugs or biological molecules (growth factors, trophic factors).
- beneficial drugs or biological molecules growth factors, trophic factors.
- they may be administered together in a single pharmaceutical composition, or in separate pharmaceutical compositions, simultaneously or sequentially with the other agents (either before or after administration of the other agents).
- Bioactive factors which may be co-administered include, but are not limited to, an anti-apoptotic agent (i.e., erythropoietin, thrombopoietin, insulin-like growth factor I and insulin-like growth factor II, hepatocyte growth factor, caspase inhibitors); an anti-inflammatory agent (i.e., p38 MAPK inhibitors, TGF-beta inhibitors, statins, IL-6 and IL-1 inhibitors, and non-steroidal anti-inflammatory drugs); an immunosupressive/immunomodulatory agent; an mTOR inhibitor; an anti-proliferative (i.e., azathioprine, mycophenolate mofetil); a corticosteroid (i.e., prednisolone, hydrocortisone); an anti-thrombogenic agent; and an anti-oxidant.
- an anti-apoptotic agent i.e., erythropoietin, thrombopo
- the invention encompasses administering ADAS cells to a mammal as undifferentiated cells, i.e., as cultured in growth medium.
- ADAS cells may be administered following exposure in culture to conditions that stimulate differentiation toward a desired phenotype, for example, an osteogenic phenotype.
- the cells of the invention may be surgically implanted, injected, delivered (e.g., by way of a catheter or syringe), or otherwise administered directly or indirectly to the site in need of repair or augmentation.
- the cells may be administered by way of a matrix (e.g., a three-dimensional scaffold).
- the cells may be administered with conventional pharmaceutically acceptable carriers.
- Routes of administration of the cells of the invention or components include intramuscular, ophthalmic, parenteral (including intravenous), intraarterial, subcutaneous, oral, and nasal administration.
- Particular routes of parenteral administration include, but are not limited to, intramuscular, subcutaneous, intraperitoneal, intracerebral, intraventricular, intracerebroventricular, intrathecal, intracisternal, intraspinal and/or peri-spinal routes of administration.
- the cells are used in spinal fusion procedures.
- the cells of the invention can be introduced alone or in admixture with a composition useful in the repair of bone wounds and defects.
- a composition useful in the repair of bone wounds and defects include, but are not limited to bone morphogenetic proteins, hydroxyapatite/tricalcium phosphate particles (HA/TCP), gelatin, poly-L-lysine, and collagen.
- the cells of the invention may be combined with demineralized bone matrix (DBM) or other matrices to make the composite osteogenic (bone forming in it own right) as well as osteoinductive.
- DBM demineralized bone matrix
- a bioactive factor can include, but is not limited to bone morphogenetic protein, vascular endothelial growth factor, fibroblast growth factors, and other cytokines that have either osteoconductive and/or osteoinductive capacity.
- angiogenic factors such as VEGF, PDGF or bFGF can be added either alone or in combination with endothelial cells or their precursors.
- ADAS cells to be transplanted may be genetically engineered to express such growth factors, antioxidants, antiapoptotic agents, anti-inflammatory agents, or angiogenic factors.
- ADAS cell-products including but not limited to extracellular matrices secreted by the ADAS cells themselves, cell lysates (e.g., soluble cell fractions) of ADAS cells, and ADAS cell-conditioned medium.
- the invention in terms of administering a composition comprising an ADAS cell, the invention includes a pharmaceutical composition comprising at least one of the following: an ADAS cell, an extracellular matrix produced thereby, a cellular lysate thereof, or an ADAS-conditioned medium.
- the pharmaceutical composition of the invention preferably includes a pharmaceutically acceptable carrier or excipient.
- the pharmaceutical composition is preferably used for treating bone conditions as defined herein.
- compositions of the invention may comprise homogeneous or heterogeneous populations of ADAS cells, extracellular matrix or cell lysate thereof, or conditioned medium thereof in a pharmaceutically acceptable carrier.
- Pharmaceutically acceptable carriers for the cells of the invention include organic or inorganic carrier substances suitable which do not deleteriously react with the cells of the invention or compositions or components thereof. To the extent they are biocompatible, suitable pharmaceutically acceptable carriers include water, salt solution (such as Ringer's solution), alcohols, oils, gelatins, and carbohydrates, such as lactose, amylose, or starch, fatty acid esters, hydroxymethylcellulose, and polyvinyl pyrolidine.
- Such preparations can be sterilized, and if desired, mixed with auxiliary agents such as lubricants, preservatives, stabilizers, wetting agents, emulsifiers, salts for influencing osmotic pressure, buffers, and coloring.
- auxiliary agents such as lubricants, preservatives, stabilizers, wetting agents, emulsifiers, salts for influencing osmotic pressure, buffers, and coloring.
- Pharmaceutical carriers suitable for use in the present invention are known in the art and are described, for example, in Pharmaceutical Sciences (17.sup.th Ed., Mack Pub. Co., Easton, Pa.) and WO 96/05309, each of which are incorporated by reference herein.
- the cells of the invention may be administered alone, in a pharmaceutically acceptable carrier, or seeded on or in a matrix as described elsewhere herein, can be used to repair or replace damaged or destroyed bone tissue, to augment existing bone tissue, to introduce new or altered tissue, or to modify artificial prostheses.
- cells When cells are administered in semi-solid or solid devices, surgical implantation into a precise location in the body is typically a suitable means of administration.
- the cells In the case where the cells are administered in the form of a liquid or fluid pharmaceutical composition, the cells may be administered to a more general location (i.e. throughout a diffusely affected area), from which they migrate to a particular location (i.e. by responding to chemical signals).
- compositions comprising ADAS cellular components (e.g., cell lysates or components thereof) or products (e.g., extracellular matrix, trophic and other biological factors produced naturally by ADAS cells or through genetic modification, conditioned medium from ADAS culture).
- these methods may further comprise administering other active agents as disclosed elsewhere herein.
- the ADAS cells may also be applied with additives to enhance, control, or otherwise direct the intended therapeutic effect.
- the cells may be applied with a biocompatible matrix which facilitates in vivo tissue engineering by supporting and/or directing the fate of the implanted cells.
- the cells Prior to the administration of the ADAS cells into a mammal, the cells may be stably or transiently transfected or transduced with a nucleic acid of interest using a plasmid, viral or alternative vector strategy.
- the cells may be administered following genetic manipulation such that they express gene products that intended to promote the therapeutic response(s) provided by the cells.
- ADAS cells of the invention may be used to treat mammals requiring the repair or replacement of bone tissue resulting from disease or trauma or failure of the tissue to develop normally. Treatment may entail the use of the cells of the invention to produce new bone tissue.
- the undifferentiated or osteogenic differentiation-induced cells of the invention may be used to treat bone conditions, including metabolic and non-metabolic bone diseases.
- a bone condition includes, but is not limited, a bone fracture, a bone/spinal deformation, osteosarcoma, myeloma, bone dysplasia, scoliosis, osteoporosis, osteomalacia, rickets, fibrous osteitis, renal bone dystrophy, and Paget's disease of bone.
- degenerated discs may be treated by restoring the damaged tissues within the disc.
- the ADAS cells of the invention may be used to stimulate bone development and thereby restore the intervertebral discs at various stages of degeneration.
- a discectomy surgical procedure can be performed to remove the ruptured disc and to fuse the two vertebrae between the removed disc together.
- Spinal fusion is a process by which two or more of the vertebrae that make up the spinal column are fused together with bone grafts and internal devices (such as rods) that heal into a single solid bone. Spinal fusion can eliminate unnatural motion between the vertebrae and, in turn, reduce pressure on nerve endings.
- spinal fusion can be used to treat, for example, injuries to spinal vertebrae caused by trauma; protrusion and degeneration of the cushioning disc between vertebrae (sometimes called slipped disc or herniated disc); abnormal curvatures (such as scoliosis or kyphosis); and weak or unstable spine caused by infections or tumors.
- the present invention encompasses compositions and methods for improving the success rates of spinal fusion procedures.
- the ADAS cells of the present invention may be used in the place of bone grafts conventionally used in spinal fusion surgeries. Specifically, the ADAS cells may be used to stimulate bone formation between two adjacent vertebrae (within the vertebral body), as well as between adjacent transverse processes (within the intertransverse process spaces on either side of the spine).
- ADAS cells of the present invention have numerous applications in the treatment of spine disorders, including promoting the production of proteoglycan rich matrix in intervertebral disc repair, producing bone for the intervertebral body in intertransverse process spinal fusion, and producing bone for long bone fracture healing.
- the present invention is based on the discovery that ADAS cells can be used to facilitate bone fusion in a spinal fusion procedure.
- a discectomy surgical procedure can be performed to remove the ruptured disc and to fuse the two vertebrae between the removed disc together. Details regarding typical implementations of methods for fusing vertebrae are disclosed in U.S. Pat. Nos. 6,033,438 and 5,015,247, the contents of which are incorporated in their entireties herein by reference.
- Disc degeneration is commonly treated with a segment fusion, whereby both the anterior and posterior spine elements of the interbody space are fused. It is important to consider the mechanical stresses place on the anterior and posterior elements when considering a fusion technique.
- the anterior motion segment elements (vertebral bodies and disc) bear approximately 80% of the compressive force at that given level in the spine.
- the posterior 1 ⁇ 3 of the vertebral body and disc represent the center point for axial compression in the spine. These mechanics are critical for assessing what type of fusion will have the best clinical outcome for a given pathology.
- the invention provides a spinal fusion procedure in which ADAS cells are used as a source of a bone substitute.
- the invention includes methods for performing one or more spinal fusions in a mammal comprising introducing an effective amount of ADAS cells into one or more suitable interbody spaces in the mammal by injection the cells through a syringe, catheter, or cannula to facilitate single, or multi level spinal fusion.
- the ADAS cells are to set under physiological conditions, i.e., in vivo, over time where the cells differentiate and form bone. The presence of the ADAS cells enhance the fusion of bone in a spinal fusion procedure.
- the invention includes methods for performing one or more spinal fusion on a mammal comprising placing in the posterior portion of at least one suitable interbody space a metallic implant selected from rods and pedicle screws or plates and pedicle screws by attachment thereof to adjacent vertebrae; injecting into the anterior portion of the interbody space an effective amount of ADAS cells; and allowing the ADAS cells to differentiate into a cell that exhibits at least one characteristic of a bone cell and thereby form bone in vivo.
- the invention includes methods for performing spinal fusions by using either an anterior, posterior, or posterolateral approach to the interbody space.
- the posterolateral approach (unilateral or bilateral) reduces surgical morbidity over an anterior approach, but caution is required while working around the cauda equina and exiting nerve roots in the spinal canal.
- Posterior access and visualization of the interbody space is more limited than with the anterior approach, but many spinal surgeons are trained in how to deal with those circumstances.
- the ADAS cells can also comprise an amount of one or more active bioactive agents suitable to promote bone growth, such as a growth factor, a bone morphology protein, or a pharmaceutical carrier therefor.
- active bioactive agents suitable to promote bone growth such as a growth factor, a bone morphology protein, or a pharmaceutical carrier therefor.
- ADAS cells may provide a therapeutic or structural benefit by incorporating themselves or their progeny into newly generated, existing or repaired tissues or tissue components.
- ADAS cells and/or their progeny may incorporate into newly generated bone other structural or functional tissue and thereby cause or contribute to a therapeutic or structural improvement.
- Another mechanism by which the ADAS cells may provide a therapeutic or structural benefit is by expressing and/or secreting molecules, e.g., growth factors, that promote creation, retention, restoration, and/or regeneration of structure or function of a given tissue or tissue component.
- the ADAS cells may also be used in combination with other cells or devices such as synthetic or biologic scaffolds, materials or devices that deliver factors, drugs, chemicals or other agents that modify or enhance the relevant characteristics of the cells as further described herein.
- the ADAS cells can be delivered to the mammal soon after harvesting the adipose tissue from the mammal.
- the cells may be administered immediately after processing of the adipose tissue and obtaining a composition of ADAS cells.
- the timing of delivery will depend upon mammal availability and the processing time required to process the adipose tissue.
- the timing for delivery may be relatively longer if the cells to be re-infused to the mammal are subject to additional modification, purification, stimulation, or other manipulation, as discussed herein.
- the number of cells administered to a mammal may be related to, for example, the cell yield after adipose tissue processing. A portion of the total number of cells may be retained for later use or cyropreserved.
- ADAS cells are osteogenic and contribute to improvement in spinal fusion.
- ADAS cells can be used to treat mammals including, but are not limited to, trauma victims, osteoporotic mammals lacking suitable numbers of osteogenic cells, and mammals with non-union fractures.
- back pain Over 75% of the American population suffers from back pain.
- underlying medical illnesses can contribute to back pain. These include scoliosis, spinal stenosis, degenerative disc disease, infectious processes, tumors, and trauma.
- the back pain is so severe that they are forced to go onto lifetime disability; an additional 1% of the population is incapacitated by back pain for a limited time period.
- the majority of the mammals with back pain are treated with conservative therapies; however, when modalities such as bed rest and medication fail, physicians often recommend spinal fusion surgery. The goal of this operation is to form ectopic bone between two or more adjacent vertebra, “fusing” them together into a solid structure.
- Immobilization of the vertebral joint reduces the pressure on nerve roots leaving the spinal cord and the resulting painful sensation.
- Surgeons use a poster lateral approach to the lumbar spine, introducing a bone graft or osteoinductive material with a mechanical support between two vertebral bodies to form ectopic bone ( FIG. 1 ).
- the “ideal” graft material for a spinal fusion would provide the following properties: mechanical support (material stabilizes the spine/surgical site during the recovery period); osteoconductive (material facilitates the ingrowth and integration of adjacent bone upon itself); osteoinductive (material recruits and stimulates the formation and growth of bone from cells that may not naturally do so); and osteogenic (material contains cells that themselves are capable of forming new bone).
- the “gold standard” for spinal fusion repair is autologous bone, usually harvested from the iliac crest of the individual. Surgeons transplant the mammal's own bone to the site of need. Nevertheless, this is far from a perfect solution. In 30% of mammals, the donor site becomes infected, bruised, fractured, or painful following the surgery. Indeed, when a mammal requires autograft bone for multiple spinal fusions, the iliac crest may not provide sufficient material. The underlying health of the mammal further influences the outcome of spinal fusion surgery.
- Allograft bone from cadavers can be sterilized, stored, and used in the operating room as needed. These materials can be pre-shaped for specific use or powdered, allowing them to be applied as a paste at the surgical site; however, allografts can cause inflammation, elicit an immune response, and have been an infectious source in a limited number of cases (Whang et al., 2003, Spine J. 3:155-65). Because allograft bone is sterilized, it no longer contains viable native bone forming cells (osteoblasts, osteocytes) and lacks osteogenic properties.
- osteoinductive growth factors such as bone morphogenetic proteins (BMP) are available commercially (InfuseTM from Sofamor/Medtronics), they require the presence of osteogenic cells within the spinal fusion site to promote new bone formation (Whang et al., 2003, Spine J. 3:155-65).
- BMP bone morphogenetic proteins
- rat poster lateral spinal fusion model has been employed successfully to demonstrate the osteoinductive effect of bone morphogenetic protein 7 when presented in a collagen scaffold (Salamon et al., 2003, J. Spinal Disord. Tech. 16:90-5).
- ADAS cells are prepared according to published methodologies (Aust et al., 2004, Cytotherapy 6:7-14; Halvorsen et al., 2001, Metabolism 50:407-413; Sen et al., 2001, Journal of Cellular Biochemistry 81:312-319).
- adipose tissue is minced, washed, and suspended in an equal volume of phosphate buffered saline containing 1% bovine serum albumin and 0.1% collagenase type I (Worthington Biochemical, Lakewood N.J.). Following a 60-minute digestion at 37° C.
- stromal vascular cells are plated at a density of 0.1 grams of tissue digest per cm 2 in “Stromal Media” (DMEM/F-12 Ham's Media supplemented with 10% fetal bovine serum (Hyclone, Logan Utah) and 1% antibiotic/antimycotic. The cells are incubated for 3 to 6 days in a humidified 5% CO 2 incubator until they reach 75% confluency. This yields approximately 25-30 ⁇ 10 4 cells/cm 2 .
- ADAS cells are harvested by digestion with trypsin/EDTA and passaged at a plating density of 5 ⁇ 10 3 cells/cm 2 .
- Cells are expanded for up to 2 passages to obtain >60 million cells (Table 1).
- Cells are evaluated in vitro for their osteogenic and adipogenic capacity using standard assays over a 1 to 3 week inductive period as described in (Halvorsen et al., 2001, Tissue Eng. 7:729-41; Hicok et al., 2004, Tissue Engineering 10:371-380). Cells can be cryopreserved in liquid nitrogen prior to use.
- the cells are labeled during the initial passage with a retroviral vector carrying the LacZ gene expressing ⁇ -galactosidase to provide a trackable marker. Stable integration of retroviral vectors reduces the risk that the marker will be lost during the time of implantation. This method has been used routinely to track implanted cells. TABLE 1 Estimated ADAS Cell Yield and Expansion Passage Initial Passage Second Passage ADAS Cells/gm 2.5 ⁇ 10 5 1.25 ⁇ 10 6 ADAS Cells/Adipose 18.75 ⁇ 10 6 93.75 ⁇ 10 6 tissue from 25 rats ( ⁇ 75 gm)
- ADAS cells display an osteogenic phenotype in vitro when cultured in the presence of ascorbate, ⁇ -glycerophosphate, dexamethasone, and 1,25 dihydroxyvitamin D 3 (Halvorsen et al., 2001, Tissue Eng. 7:729-41). Under these conditions, the ADAS cells mineralize their extracellular matrix as demonstrated by positive staining with either Alizarin Red or von Kossa for calcium phosphate deposition ( FIG. 3 ).
- ADAS cell osteogenesis over a 10-day period was accompanied by an increase in alkaline phosphatase activity.
- osteogenic cells (mineralized) displayed a 3-fold higher level of alkaline phosphatase relative to cells maintained under control conditions ( FIG. 4 ).
- the ADAS cells expressed a number of gene markers consistent with an osteoblast phenotype, including osteocalcin, osteopontin, bone morphogenetic proteins (BMP) 2 and 4, and the BMP receptors IA, IB, and II.
- BMP bone morphogenetic proteins
- ADAS cells have the potential to differentiate along multiple lineage pathways. In response to specific cocktails of chemicals and growth factors, ADAS cells can differentiate into chondrocytes, osteoblasts, adipocytes, and neuronal- and glial-like cells in vitro ( FIG. 2 ).
- ADAS Cells are Osteogenic In Vivo
- ADAS cells were transplanted into immunodeficient SCID mice.
- the ADAS cells were loaded onto three cm 3 cubes of hydroxyapatite/tricalcium phosphate (HA/TCP) scaffold and implanted subcutaneously. After a 6-week period, the implants were harvested, fixed, decalcified, and stained with Hematoxylin/Eosin or with human nuclear antigen specific antibodies ( FIG. 5 ). Based on H&E staining, it was observed that new bone formed adjacent to the hydroxyapatite/tricalcium phosphate scaffold in the presence of the human ADAS cells. The human cells were identified within the bone based on immunofluorescent analysis with the human antigen specific antibody. In the presence of the scaffold alone (no cells), new bone did not form and no human cells were detected. These studies demonstrate that ADAS cells are capable of osteogenesis in vivo.
- ADAS Cells can be Transplanted Allogeneically
- ADAS cells fail to elicit a proliferative response from allogeneic lymphocytes in a mixed lymphocyte reaction. Without wishing to be bound by any particular theory, it is believed that ADAS cells release a factor that inhibits the lymphocyte's immune response to allogeneic antigens. The presence of ADAS cells prolonged skin graft survival in the baboon model, and therefore indicates that adult stem cells can be transplanted allogeneically for tissue engineering applications.
- a critical sized segmental defect in the femoral diaphysis of dogs can be created.
- the defects can be repaired with hydroxyapatite/tricalcium phosphate scaffolds alone or in combination with either autologous or allogeneic ADAS cells; the allogeneic cells are mismatched for both the HLA-1 and HLA-2 antigens (Table 2).
- the transplant recipients do not receive any immunosuppressive therapy.
- the animals are sacrificed 16 week later, and the degree of bone repair observed in the presence of ADAS cells can be compared with transplant of scaffold alone (no ADAS cells).
- Cohort A receives no treatment.
- Cohort B receives the implantation of hydroxyapatite/tricalcium phosphate (40 mg) alone into the fusion bed.
- Cohort C receives implantation of hydroxyapatite/tricalcium phosphate (40 mg) in combination with 2 ⁇ 10 6 ADAS cells derived from the subcutaneous adipose tissue of Fischer rats (syngeneic cells) into the fusion bed. Following the placement of the implant, the deep fascia and skin incisions are closed. Animals receiving buprenorphine hydrochloride (0.1 mg/kg) for post-operative analgesia are monitored for recovery of mobility and function for up to 24 hours following the procedure. Groups of 16 animals from each Cohort are sacrificed by CO 2 asphyxiation 6 and 12 weeks after the surgical procedure. At that time, serum specimens and the lumbar spine are collected for analysis.
- Radiographic analysis serve to detect ectopic bone formation and callus formation in the lumbar spine at the surgical site.
- Micro computerized tomography are performed on the dissected specimens following sacrifice. The structure and volume of new bone formation can be determined using methods known in the art (Mankani et al., 2004, Radiology 230:369-76).
- the L3-L5 lumbar spine are dissected from the animals.
- the specimens are palpated for extension and flexion at L3-4 and L4-5.
- the specimens are graded for the presence or absence of any motion. Those specimens with motion in any direction receive a score of “0” while those without motion in any dimension are considered “fused” with a score of “1” (Cui et al., 2001, Spine 26:2305-10; Grauer et al., 2004, Spine J. 4:281-6).
- the specimen is paraffin embedded, sectioned transversely (5 ⁇ m), and stained with hematoxylin and eosin.
- Ten sections from each specimen are analyzed using the Medivue (Nikon) software to quantify the mean percentage ( ⁇ standard deviation) of each implant occupied by ectopic bone.
- ADAS cells are successful for spinal fusion if the following outcomes are achieved: 1) minimal evidence of fusion (manual manipulation fusion score of 0 in 90% of animals, no radiographic evidence of ectopic bone, and less than 5% of the area of the surgical site occupied by bone matrix in 10 sections per specimen based on histology and CT analysis) in Cohort A (no treatment) at the 6 and 12 week time points is observed; 2) detection of the HA/TCP scaffold in histological analysis of animals in Cohorts B and C at the 6 and 12 week time points; 3) minimal evidence of fusion (manual manipulation fusion score of 0 in 90% of animals, no radiographic evidence of ectopic bone, and less than 5% of the area of the surgical site occupied by bone matrix in 10 sections per specimen based on histology and CT analysis) in Cohort B (HA/TCP alone) at the 6 and 12 week time points; 4) detection of transplanted ADAS cells in Cohorts C for 6 weeks following
- Fischer and ACI inbred rat strains are selected for the following experiments based on previous studies in the literature (Akahane et al., 1999, J. Bone Miner Res. 14:561-8; Yoshikawa et al., 2000, J. Bone Miner Res. 15:1147-57). These animals display a histocompatibility antigen mismatch and reject osteogenic tissue transplants unless given immunosuppressive therapy (Akahane et al., 1999, J. Bone Miner Res. 14:561-8; Yoshikawa et al., 2000, J. Bone Miner Res. 15:1147-57).
- Isolated allogeneic ADAS cells from ACI rats are used for implantation into Fischer rat lumbar spinal fusion.
- the experiments herein can be conducted in parallel with the experiments relating to syngeneic autologous ADAS cells, thereby allowing for comparative analysis.
- the absence or presence of an immune response to the allogeneic ADAS cells can be assessed based on one-way mixed lymphocyte reactions and flow cytometric analysis of serum samples obtained from the Cohorts.
- the number of cells obtained with each passage follows the estimates outlined in Table 1.
- the ADAS cells from the ACI rats are subjected to the same in vitro analyses as those employed for the Fischer rat ADAS cells.
- the surgical and follow up procedures i.e. radiographic follow-up, manual palpation of spinal fusion
- the HA/TCP implants can contain about 2 ⁇ 10 6 cells in a 100 ⁇ l volume.
- the lumbar spine specimens are fixed in formalin for 48 hours, decalcified in 0.25 M ethylenediaminetetraacetic acid in phosphate buffered saline for 2 weeks at 4° C., and incubated for 16 hours in a solution of X-gal (1 mg/ml) at 37° C.
- the specimen are paraffin embedded, sectioned transversely (5 ⁇ m), and stained with hematoxylin and eosin.
- Ten sections from each specimen are analyzed using the Medivue (Nikon) software to quantify the mean percentage ( ⁇ standard deviation) of each implant occupied by ectopic bone. Sections are evaluated for the presence or absence of infiltrating lymphocytes.
- an antibody against the pan-hematopoietic antibody can be used to immunohistochemical staining the cells to identify any immune cells within or around the implants.
- the number of infiltrating lymphocytes can be determined in 10 sections per specimen and quantified using the Medivue software program.
- ADAS cells from ACI rats are quickly thawed from liquid nitrogen storage and placed in culture for 5 days to facilitate maximum viability and surface antigen expression. The cells are harvested by trypsinization, washed in staining buffer (1 ⁇ DPBS, 5% FBS, 0.5% BSA, 0.1% Sodium Azide), and resuspended at 5 ⁇ 10 6 cells/ml. 90 ⁇ l of cells (5 ⁇ 10 5 cells) are aliquotted into 2 ml Eppendorf tubes. 10 ⁇ l of undiluted rat serum, or serum diluted 1:10 in staining buffer, is added to each tube to give effective dilutions of serum that are 1:10 and 1:100.
- staining buffer 1 ⁇ DPBS, 5% FBS, 0.5% BSA, 0.1% Sodium Azide
- Control tubes receive ACI ADAS cells with secondary antibody only (negative control), or with a positive control Fischer anti-ACI rat serum that is produce by repeated immunization of Fischer rats with ACI ADAS cells. The suspensions are incubated in the dark on ice for 15 minutes and washed twice with wash buffer as discussed elsewhere herein.
- the cells are then fixed in 200 ⁇ l of 1% paraformaldehyde and allowed to incubate on ice, in fixative for at least 15 minutes prior to acquisition. 20,000 events are acquired for flow cytometry analysis. Results are expressed as the percentage of ACI cells stained with the secondary antibody based on increased mean fluorescent intensity relative to the secondary antibody alone negative control.
- MLR One-Way Mixed Lymphocyte Reaction
- This assay is based on the following rationale: if T cells are primed in vivo to ACI alloantigens, they will respond to restimulation in vitro at a faster kinetic rate. Recipient rat T cell activation to allogeneic ACI strain ADAS cells can be evaluated by the MLR assay. MLR assays are performed on individual rats using pooled mesenteric plus cervical LN cells as responder cells. Eight animals per group from 3 groups: No Treatment (Cohort A); scaffold only (Cohort B); scaffold+allogeneic cells (Cohort D) are assessed (Table 5).
- the assay is set up by culturing the responder cells in medium, with irradiated (5000R) syngeneic Fischer spleen stimulator cells, or with irradiated allogeneic ACI spleen stimulator cells.
- the T cell proliferation in response to medium or to syngeneic spleen cells represents background responses; the syngeneic response is typically subtracted from the response to allogeneic cells to assess true proliferation.
- assays are set up with irradiated allogeneic ACI (positive) and syngeneic Fischer (negative) lymphocytes; their expression of both allogeneic versus syngeneic HLA 1 and 2 antigens insure either a robust proliferative response by the responder, Fischer derived lymphocytes, or no response.
- the MLR assay are performed in 96 well plates using triplicate wells per treatment. Responder cells are plated at 4 ⁇ 10 5 cells/well and spleen cell stimulators are plated at 1 ⁇ 10 5 cells/well.
- the culture medium used is Iscove's Modified Dulbecco's Medium plus 10% FBS (Hyclone) supplemented with non-essential amino acids, sodium pyruvate, 2-mercaptoethanol, and antibiotics/antimycotics.
- Replicate culture plates are prepared for harvesting on days 3 and 7 of culture. Cultures are pulsed on days 2 or 6 with 3 H-thymidine (1 ⁇ Ci/well) and the cells are harvested approximately 16 hours later for scintillation counting. Results are reported as counts per minute (cpm) which reflect the degree of T cell proliferation in the culture wells.
- allogeneic ADAS cells are successful for spinal fusion if the following outcomes are achieved: minimal evidence of fusion (manual manipulation fusion score of 0 in 90% of animals, no radiographic evidence of ectopic bone, and less than 5% of the area of the surgical site occupied by bone matrix in 10 sections per specimen based on histology and CT analysis) in Cohort A (no treatment) at the 6 and 12 week time points; detection of HA/TCP scaffold in histologic analysis of all animals in Cohorts B and D at 6 and 12 week time points; minimal evidence of fusion (manual manipulation fusion score of 0 in 90% of animals, no radiographic evidence of ectopic bone, and less than 5% of the area of the surgical site occupied by bone matrix in 10 sections per specimen based on histology and radiographic analysis) in Cohort B (HA/TCP alone) at the 6 and 12 week time points; minimal evidence of fusion (manual manipulation fusion score of 0 in 90% of animals, no radio
- the disclosure presented herein provides data allowing for the determination of whether allogeneic (HLA mismatched) and syngeneic (HLA compatible) ADAS cells display equal function in achieving a spinal fusion.
- the experimental design is summarized in Table 6. Without wishing to be bound by any particular theory, it is believed that the two cell populations are equivalent, based on the previous studies that achieved a successful repair of a critical sized bone defect in dogs using allogeneic MSCs (Arinzeh et al., 2003, J. Bone Joint Surg. Am. 85-A:1927-35). The comparison of syngeneic and allogeneic ADAS cells provides significant medical and commercial implications.
- the disclosure presented herein provides for the use of allogeneic ADAS cells for tissue regeneration therapy.
- allogeneic ADAS cells are comparable to syngeneic ADAS cells for success in spinal fusion if all the parameters in Table 6 do not show a statistically significant difference between the allogeneic and syngeneic ADAS cell Cohorts (p>0.05, preferably p>0.30).
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Priority Applications (17)
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US11/194,270 US20070027543A1 (en) | 2005-08-01 | 2005-08-01 | Use of adipose tissue-derived stromal cells in spinal fusion |
EP06800328A EP1915109A4 (en) | 2005-08-01 | 2006-07-26 | STROMA CELLS DERIVED FROM ADIPOSE TISSUE USED FOR VERTEBRAL FUSION |
CA002617628A CA2617628A1 (en) | 2005-08-01 | 2006-07-26 | Use of adipose tissue-derived stromal cells in spinal fusion |
BRPI0614534-5A BRPI0614534A2 (pt) | 2005-08-01 | 2006-07-26 | uso de células estromais derivadas de tecido adiposo em fusão espinal |
PCT/US2006/028886 WO2007016112A2 (en) | 2005-08-01 | 2006-07-26 | Use of adipose tissue-derived stromal cells in spinal fusion |
JP2008525020A JP2009507527A (ja) | 2005-08-01 | 2006-07-26 | 脊椎固定術における脂肪組織由来のストローマ細胞の使用 |
AU2006275918A AU2006275918A1 (en) | 2005-08-01 | 2006-07-26 | Use of adipose tissue-derived stromal cells in spinal fusion |
RU2008107978/14A RU2008107978A (ru) | 2005-08-01 | 2006-07-26 | Применение стромальных клеток, полученных из жировых тканей, при артродезе позвонков |
CNA2006800366064A CN101500514A (zh) | 2005-08-01 | 2006-07-26 | 脂肪组织衍生的基质细胞在脊柱融合术中的应用 |
KR1020087005286A KR20080043809A (ko) | 2005-08-01 | 2006-07-26 | 척추 유합에서의 지방 조직-유래 스트로마 세포의 사용 |
TW095127566A TW200740998A (en) | 2005-08-01 | 2006-07-27 | Use of adipose tissue-derived stromal cells in spinal fusion |
PCT/US2006/030078 WO2007016621A2 (en) | 2005-08-01 | 2006-08-01 | Use of adipose tissue-derived stromal cells in spinal fusion |
IL189179A IL189179A0 (en) | 2005-08-01 | 2008-02-03 | A pharmaceutical composition containing adipose tissue-derived stromal cells |
CR9774A CR9774A (es) | 2005-08-01 | 2008-02-29 | Uso de celulas estromaticas derivadas de tejido adiposo en fusion espinal |
US12/791,537 US8313743B2 (en) | 2005-08-01 | 2010-06-01 | Use of adipose tissue-derived stromal cells in spinal fusion |
US13/660,318 US20130108595A1 (en) | 2005-08-01 | 2012-10-25 | Use of Adipose Tissue-Derived Stromal Cells in Spinal Fusion |
JP2012241874A JP2013048917A (ja) | 2005-08-01 | 2012-11-01 | 脊椎固定術における脂肪組織由来のストローマ細胞の使用 |
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US11/194,270 US20070027543A1 (en) | 2005-08-01 | 2005-08-01 | Use of adipose tissue-derived stromal cells in spinal fusion |
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US13/660,318 Abandoned US20130108595A1 (en) | 2005-08-01 | 2012-10-25 | Use of Adipose Tissue-Derived Stromal Cells in Spinal Fusion |
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US13/660,318 Abandoned US20130108595A1 (en) | 2005-08-01 | 2012-10-25 | Use of Adipose Tissue-Derived Stromal Cells in Spinal Fusion |
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EP (1) | EP1915109A4 (zh) |
JP (2) | JP2009507527A (zh) |
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CN (1) | CN101500514A (zh) |
AU (1) | AU2006275918A1 (zh) |
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CA (1) | CA2617628A1 (zh) |
CR (1) | CR9774A (zh) |
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Also Published As
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IL189179A0 (en) | 2008-06-05 |
BRPI0614534A2 (pt) | 2011-04-05 |
JP2009507527A (ja) | 2009-02-26 |
US20110076330A1 (en) | 2011-03-31 |
WO2007016621A2 (en) | 2007-02-08 |
RU2008107978A (ru) | 2009-09-10 |
KR20080043809A (ko) | 2008-05-19 |
JP2013048917A (ja) | 2013-03-14 |
TW200740998A (en) | 2007-11-01 |
EP1915109A2 (en) | 2008-04-30 |
WO2007016112A3 (en) | 2009-04-23 |
EP1915109A4 (en) | 2011-05-18 |
US20130108595A1 (en) | 2013-05-02 |
WO2007016621A3 (en) | 2009-04-23 |
CA2617628A1 (en) | 2007-02-08 |
US8313743B2 (en) | 2012-11-20 |
AU2006275918A1 (en) | 2007-02-08 |
CR9774A (es) | 2009-09-09 |
WO2007016112A2 (en) | 2007-02-08 |
CN101500514A (zh) | 2009-08-05 |
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