Multipotent stromal cells derived from the infrapatellar fat pad of the knee

Clinical Orthopaedics and Related Research

Volumn 412, Issue , 2003, Pages 196-212

  Wickham, M Quinn ^a   Erickson, Geoffrey R ^a   Gimble, Jeffrey M ^b   Vail, T Parker ^a   Guilak, Farshid ^a  

^a DUKE UNIVERSITY MEDICAL CENTER   (United States)

^b Artecel Sciences Inc ^*  (United States)

Author keywords

[No Author keywords available]

Indexed keywords

COLLAGEN; LEPTIN;

ADIPOCYTE; ADULT; AGED; ARTICLE; BONE MARROW; BONE MINERAL; CARTILAGE CELL; CARTILAGE MATRIX; CELL CULTURE; CELL DIFFERENTIATION; CELL ISOLATION; CELL LINEAGE; CELL SURFACE; CLINICAL ARTICLE; CONNECTIVE TISSUE; CONTROLLED STUDY; FLOW CYTOMETRY; HUMAN; HUMAN CELL; HUMAN TISSUE; HYPOTHESIS; IMMUNOHISTOCHEMISTRY; INFRAPATELLAR FAT BODY; KNEE; MARKER GENE; MESENCHYME CELL; MINERALIZATION; MUSCULOSKELETAL SYSTEM; OSTEOBLAST; PATELLA; PHENOTYPE; PRIORITY JOURNAL; PROTEIN EXPRESSION; STEM CELL; STROMA CELL; TISSUE DISTRIBUTION; TISSUE ENGINEERING;

EID: 0037741365     PISSN: 0009921X     EISSN: 15281132     Source Type: Journal    
DOI: 10.1097/01.blo.0000072467.53786.ca     Document Type: Article

References (72)

1. Angele P, Kujat R, Nerlich M, et al: Engineering of osteochondral tissue with bone marrow mesenchymal progenitor cells in a derivatized hyaluronan-gelatin composite sponge. Tissue Eng 5:545-554, 1999.
2. Barry F, Boynton RE, Liu B, Murphy JM: Chondrogenic differentiation of mesenchymal stem cells from bone marrow: Differentiation-dependent gene expression of matrix components. Exp Cell Res 268:189-200, 2001.
3. Barry FP, Boynton RE, Haynesworth S, et al: The monoclonal antibody SH-2, raised against human mesenchymal stem cells, recognizes an epitope on endoglin (CD105). Biochem Biophys Res Commun 265:134-139, 1999.
4. Bianco P, Cossu G: Uno, nessuno e centomila: Searching for the identity of mesodermal progenitors. Exp Cell Res 251:257-263, 1999.
5. Breinan HA, Minas T, Hsu HP, et al: Effect of cultured autologous chondrocytes on repair of chondral defects in a canine model. J Bone Joint Surg 79A:1439-1451, 1997.
6. Brittberg M, Lindahl A, Nilsson A, et al: Treatment of deep cartilage defects in the knee with autologous chondrocyte transplantation. N Engl J Med 331:889-895, 1994.
7. Brittberg M, Nilsson A, Lindahl A, et al: Rabbit articular cartilage defects treated with autologous cultured chondrocytes. Clin Orthop 326:270-283, 1996.
8. Bruder SP, Fink DJ, Caplan AI: Mesenchymal stem cells in bone development, bone repair, and skeletal regeneration therapy. J Cell Biochem 56:283-294, 1994.
9. Bruder SP, Kurth AA, Shea M, et al: Bone regeneration by implantation of purified, culture-expanded human mesenchymal stem cells. J Orthop Res 16:155-162, 1998.
10. Bruder SP, Ricalton NS, Boynton RE, et al: Mesenchymal stem cell surface antigen SB-10 corresponds to activated leukocyte cell adhesion molecule and is involved in osteogenic differentiation. J Bone Miner Res 13:655-663, 1998.
11. Buckwalter JA, Mankin HJ: Articular cartilage: Degeneration and osteoarthritis, repair, regeneration, and transplantation. Instr Course Lect 47:487-504, 1998.
12. Caplan AI: Mesenchymal stem cells. J Orthop Res 9:641-650, 1991.
13. Caplan AI: The mesengenic process. Clin Plast Surg 21:429-435, 1994.
14. Caplan AI, Elyaderani M, Mochizuki Y, et al: Principles of cartilage repair and regeneration. Clin Orthop 342:254-269, 1997.
15. Cassiede P, Dennis JE, Ma F, Caplan AI: Osteochondrogenic potential of marrow mesenchymal progenitor cells exposed to TGF-beta 1 or PDGF-BB as assayed in vivo and in vitro. J Bone Miner Res 11:1264-1273, 1996.
16. Conget PA, Minguell JJ: Phenotypical and functional properties of human bone marrow mesenchymal progenitor cells. J Cell Physiol 181:67-73, 1999.
17. De Bari C, Dell'Accio F, Tylzanowski P, Luyten FP: Multipotent mesenchymal stem cells from adult human synovial membrane. Arthritis Rheum 44:1928-1942, 2001.
18. Diduch DR, Jordan LC, Mierisch CM, Balian G: Marrow stromal cells embedded in alginate for repair of osteochondral defects. Arthroscopy 16:571-577, 2000.
19. D'Ippolito G, Schiller PC, Ricordi C, et al: Age-related osteogenic potential of mesenchymal stromal stem cells from human vertebral bone marrow. J Bone Miner Res 14:1115-1122, 1999.
20. Dorheim MA, Sullivan M, Dandapani V, et al: Osteoblastic gene expression during adipogenesis in hematopoietic supporting murine bone marrow stromal cells. J Cell Physiol 154:317-328, 1993.
21. Erickson G, Gimble J, Franklin D, et al: Chondrogenic potential of adipose tissue-derived stromal cells in vitro and in vivo. Biochem Biophys Res Commun 290:763-769, 2002.
22. Filshie RJ, Zannettino AC, Makrynikola V, et al: MUC18, a member of the immunoglobulin super-family, is expressed on bone marrow fibroblasts and a subset of hematological malignancies. Leukemia 12:414-421, 1998.
23. Friedenstein AJ, Petrakova KV, Kurolesova AI, Frolova GP: Heterotopic of bone marrow: Analysis of precursor cells for osteogenic and hematopoietic tissues. Transplantation 6:230-247, 1968.
24. Fuchs E, Segre JA: Stem cells: A new lease on life. Cell 100: 143-155, 2000.
25. Gillogly SD, Voight M, Blackburn T: Treatment of articular cartilage defects of the knee with autologous chondrocyte implantation. J Orthop Sports Phys Ther 28:241-251, 1998.
26. Gimble JM, Robinson CE, Wu X, Kelly KA: The function of adipocytes in the bone marrow stroma: An update. Bone 19:421-428, 1996.
27. Grande DA, Pitman MI, Peterson L, et al: The repair of experimentally produced defects in rabbit articular cartilage by autologous chondrocyte transplantation. J Orthop Res 7:208-218, 1989.
28. Gronthos S, Franklin DM, Leddy HA, et al: Surface protein characterization of human adipose tissue-derived stromal cells. J Cell Physiol 189:54-63, 2001.
29. Gronthos S, Zannettino AC, Graves SE, et al: Differential cell surface expression of the STRO-1 and alkaline phosphatase antigens on discrete developmental stages in primary cultures of human bone cells. J Bone Miner Res 14:47-56, 1999.
30. Halvorsen Y, Franklin D, Bond A, et al: Extracellular matrix mineralization and osteoblast gene ex pression by human adipose tissue-derived stromal cells. Tissue Eng 7:729-741, 2001.
31. Halvorsen YC, Wilkison WO, Gimble JM: Adipose-derived stromal cells: Their utility and potential in bone formation. Int J Obes Relat Metab Disord 24(Suppl):41-44, 2000.
32. Halvorsen YD, Bond A, Sen A, et al: Thiazolidinediones and glucocorticoids synergistically induce differentiation of human adipose tissue stromal cells: Biochemical, cellular, and molecular analysis. Metab Clin Exp 50:407-413, 2001.
33. Haynesworth SE, Baber MA, Caplan AI: Cell surface antigens on human marrow-derived mesenchymal cells are detected by monoclonal antibodies. Bone 13:69-80, 1992.
34. Horwitz EM, Prockop DJ, Fitzpatrick LA, et al: Transplantability and therapeutic effects of bone marrow-derived mesenchymal cells in children with osteogenesis imperfecta. Nat Med 5:309-313, 1999.
35. Hughes SS, Cammarata A, Steinmann SP, Pellegrini Jr VD: Effect of standard total knee arthroplasty surgical dissection on human patellar blood flow in vivo: An investigation using laser Doppler flowmetry. J South Orthop Assoc 7: 198-204, 1998.
36. Im GI, Kim DY, Shin JH, et al: Repair of cartilage defect in the rabbit with cultured mesenchymal stem cells from bone marrow. J Bone Joint Surg 83B:289-294, 2001.
37. Iwasaki M, Nakata K, Nakahara H, et al: Transforming growth factor-beta 1 stimulates chondrogenesis and inhibits osteogenesis in high density culture of periosteum-derived cells. Endocrinology 132:1603-1608, 1993.
38. Jaiswal N, Haynesworth SE, Caplan AI, Bruder SP: Osteogenic differentiation of purified, culture-expanded human mesenchymal stem cells in vitro. J Cell Biochem 64:295-312, 1997.
39. Johnson LL: Arthroscopic abrasion arthroplasty historical and pathologic perspective: Present status. Arthroscopy 2:54-69, 1986.
40. Johnstone B, Hering TM, Caplan AI, et al: In vitro chondrogenesis of bone marrow-derived mesenchymal progenitor cells. Exp Cell Res 238:265-272, 1998.
41. Kayler DE, Lyttle D: Surgical interruption of patellar blood supply by total knee arthroplasty. Clin Orthop 229:221-227, 1988.
42. Kuznetsov SA, Krebsbach PH, Satomura K, et al: Single-colony derived strains of human marrow stromal fibroblasts form bone after transplantation in vivo. J Bone Miner Res 12:1335-1347, 1997.
43. Lee CR, Grodzinsky AJ, Hsu HP, et al: Effects of harvest and selected cartilage repair procedures on the physical and biochemical properties of articular cartilage in the canine knee. J Orthop Res 18:790-799, 2000.
44. Murakami S, Muneta T, Ezura Y, et al: Quantitative analysis of synovial fibrosis in the infrapatellar fat pad before and after anterior cruciate ligament reconstruction. Am J Sports Med 25:29-34, 1997.
45. Murakami S, Muneta T, Furuya K, et al: Immuno-histologic analysis of synovium in infrapatellar fat pad after anterior cruciate ligament injury. Am J Sports Med 23:763-768, 1995.
46. Nakahara H, Bruder SP, Goldberg VM, Caplan AI: In vivo osteochondrogenic potential of cultured cells derived from the periosteum. Clin Orthop 259:223-232, 1990.
47. Nakahara H, Bruder SP, Haynesworth SE, et al: Bone and cartilage formation in diffusion chambers by subcultured cells derived from the periosteum. Bone 11:181-188, 1990.
48. Nakahara H, Dennis JE, Bruder SP, et al: In vitro differentiation of bone and hypertrophic cartilage from periosteal-derived cells. Exp Cell Res 195:492-503, 1991.
49. Nishida S, Endo N, Yamagiwa H, et al: Number of osteoprogenitor cells in human bone marrow markedly decreases after skeletal maturation. J Bone Miner Metab 17:171-177, 1999.
50. Nuttall ME, Gimble JM: Is there a therapeutic opportunity to either prevent or treat osteopenic disorders by inhibiting marrow adipogenesis? Bone 27:177-184, 2000.
51. Nuttall ME, Patton AJ, Olivera DL, et al: Human trabecular bone cells are able to express both osteoblastic and adipocytic phenotype: Implications for osteopenic disorders. J Bone Miner Res 13:371-382, 1998.
52. Oreffo RO, Triffitt JT: Future potentials for using osteogenic stem cells and biomaterials in orthopedics. Bone 25:5S-9S, 1999.
53. Owen M: Marrow stromal stem cells. J Cell Sci 10(Suppl):63-76, 1988.
54. Park SR, Oreffo RO, Triffitt JT: Interconversion potential of cloned human marrow adipocytes in vitro. Bone 24:549-554, 1999.
55. Pittenger MF, Mackay AM, Beck SC, et al: Multilineage potential of adult human mesenchymal stem cells. Science 284:143-147, 1999.
56. Pittenger MF, Mosca JD, McIntosh KR: Human mesenchymal stem cells: Progenitor cells for cartilage, bone, fat and stroma. Curr Top Microbiol Immunol 251:3-11, 2000.
57. Rahfoth B, Weisser J, Sternkopf F, et al: Transplantation of allograft chondrocytes embedded in agarose gel into cartilage defects of rabbits. Osteoarthritis Cartilage 6:50-65, 1998.
58. Richmond JC, al Assal M: Arthroscopic management of arthrofibrosis of the knee, including infrapatellar contraction syndrome. Arthroscopy 7:144-147, 1991.
59. Ries MD, Badalamente M: Arthrofibrosis after total knee arthroplasty. Clin Orthop 380:177-183, 2000.
60. Saladin R, Fajas L, Dana S, et al: Differential regulation of peroxisome proliferator activated receptor gamma1 (PPARgamma1) and PPARgamma2 messenger RNA expression in the early stages of adipogenesis. Cell Growth Differ 10:43-48, 1999.
61. Sen A, Lea-Currie YR, Sujkowska D, et al: Adipogenic potential of human adipose derived stromal cells from multiple donors is heterogeneous. J Cell Biochem 81: 312-319, 2001.
62. Sledge SL: Microfracture techniques in the treatment of osteochondral injuries. Clin Sports Med 20:365-377, 2001.
63. Steadman JR, Rodkey WG, Rodrigo JJ: Microfracture: Surgical technique and rehabilitation to treat chondral defects. Clin Orthop 391(Suppl):S362-S369, 2001.
64. Vescovi AL, Galli R, Gritti A: The neural stem cells and their transdifferentiation capacity. Biomed Pharmacother 55:201-205, 2001.
65. Wakitani S, Goto T, Pineda SJ, et al: Mesenchymal cell-based repair of large, full-thickness defects of articular cartilage. J Bone Joint Surg 76A:579-592, 1994.
66. Wakitani S, Goto T, Young RG, et al: Repair of large full-thickness articular cartilage defects with allograft articular chondrocytes embedded in a collagen gel. Tissue Eng 4:429-444, 1998.
67. Walsh CJ, Goodman D, Caplan AI, Goldberg VM: Meniscus regeneration in a rabbit partial meniscectomy model. Tissue Eng 5:327-337, 1999.
68. Yoo JU, Barthel TS, Nishimura K, et al: The chondrogenic potential of human bone-marrow-derived mesenchymal progenitor cells. J Bone Joint Surg 80A:1745-1757, 1998.
69. Young HE, Mancini ML, Wright RP, et al: Mesenchymal stem cells reside within the connective tissues of many organs. Dev Dyn 202:137-144, 1995.
70. Young HE, Steele TA, Bray RA, et al: Human reserve pluripotent mesenchymal stem cells are present in the connective tissues of skeletal muscle and dermis derived from fetal, adult, and geriatric donors. Anat Rec 264:51-62, 2001.
71. Young RG, Butler DL, Weber W, et al: Use of mesenchymal stem cells in a collagen matrix for Achilles tendon repair. J Orthop Res 16:406-413, 1998.
72. Zuk PA, Zhu M, Mizuno H, et al: Multilineage cells from human adipose tissue: Implications for cell-based therapies. Tissue Eng 7:211-228, 2001.