Generation of hyaline cartilaginous tissue from mouse adult dermal fibroblast culture by defined factors
Kunihiko Hiramatsu, … , Hideki Yoshikawa, Noriyuki Tsumaki
Kunihiko Hiramatsu, … , Hideki Yoshikawa, Noriyuki Tsumaki
Published January 10, 2011
Citation Information: J Clin Invest. 2011;121(2):640-657. https://doi.org/10.1172/JCI44605.
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Generation of hyaline cartilaginous tissue from mouse adult dermal fibroblast culture by defined factors

Abstract

Repair of cartilage injury with hyaline cartilage continues to be a challenging clinical problem. Because of the limited number of chondrocytes in vivo, coupled with in vitro de-differentiation of chondrocytes into fibrochondrocytes, which secrete type I collagen and have an altered matrix architecture and mechanical function, there is a need for a novel cell source that produces hyaline cartilage. The generation of induced pluripotent stem (iPS) cells has provided a tool for reprogramming dermal fibroblasts to an undifferentiated state by ectopic expression of reprogramming factors. Here, we show that retroviral expression of two reprogramming factors (c-Myc and Klf4) and one chondrogenic factor (SOX9) induces polygonal chondrogenic cells directly from adult dermal fibroblast cultures. Induced cells expressed marker genes for chondrocytes but not fibroblasts, i.e., the promoters of type I collagen genes were extensively methylated. Although some induced cell lines formed tumors when subcutaneously injected into nude mice, other induced cell lines generated stable homogenous hyaline cartilage–like tissue. Further, the doxycycline-inducible induction system demonstrated that induced cells are able to respond to chondrogenic medium by expressing endogenous Sox9 and maintain chondrogenic potential after substantial reduction of transgene expression. Thus, this approach could lead to the preparation of hyaline cartilage directly from skin, without generating iPS cells.

Authors

Kunihiko Hiramatsu, Satoru Sasagawa, Hidetatsu Outani, Kanako Nakagawa, Hideki Yoshikawa, Noriyuki Tsumaki

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Figure 2

Effects of combinations of reprogramming factors and SOX9 on formation of G418-resistant colonies from 1.7 × 105Col11a2geo transgenic reporter cells.

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Effects of combinations of reprogramming factors and SOX9 on formation o...
(A) Effects of removal of 1 reprogramming factor from 4 factors plus SOX9 on the formation of G418-resistant colonies from Col11a2geo transgenic reporter MDFs. For metachromatic toluidine blue staining, **P< 0.01 compared with 4R + SOX9. (B) Morphology of cells induced by removal of c-Myc, Klf4, or Oct3/4 from 4 reprogramming factors plus SOX9 from βgeo MDFs and morphology of MDFs. Scale bars: 100 μm. (C) Effects of c-Myc and/or Klf4 plus SOX9 on the formation of G418-resistant colonies from βgeo MDFs. For metachromatic toluidine blue staining, **P< 0.01 compared with c-Myc + Klf4 + SOX9. The number of colonies composed of polygon-shaped cells is indicated by gray bars. (D) Morphology of cells induced by c-Myc, Klf4, and SOX9, c-Myc and SOX9, and Klf4 and SOX9 from βgeo MDFs. Scale bars: 100 μm. (E) Effects of c-Myc, Klf4, and SOX9 on the formation of G418-resistant colonies from ADSCs prepared from Col11a2geo transgenic mice. For metachromatic toluidine blue staining, *P< 0.05. (F) Effects of various combinations of reprogramming factors and SOX9 on the formation of G418-resistant colonies from Col11a2geo transgenic MEFs. For metachromatic toluidine blue staining, *P< 0.05 and **P< 0.01 compared with c-Myc + Klf4 + SOX9. Black bars indicate the number of all colonies, and white bars indicate the number of colonies stained with toluidine blue. Error bars indicate mean ± SD (n= 3). MOI for each vector in A and F was: pMXs-EGFP, 41; pMXs-c-Myc, 5; pMXs-Klf4, 11; pMXs-Oct3/4, 24; pMXs-Sox2, 16; pMXs-SOX9, 7. MOI for each vector in C and D was: pMXs-EGFP, 61; pMXs-c-Myc, 7; pMXs-Klf4, 16; pMXs-SOX9, 11.