TY - JOUR
T1 - A novel renal perivascular mesenchymal cell subset gives rise to fibroblasts distinct from classic myofibroblasts
AU - Minatoguchi, Shun
AU - Saito, Shoji
AU - Furuhashi, Kazuhiro
AU - Sawa, Yuriko
AU - Okazaki, Masaki
AU - Shimamura, Yuko
AU - Kaihan, Ahmad Baseer
AU - Hashimoto, Yusaku
AU - Yasuda, Yoshinari
AU - Hara, Akitoshi
AU - Mizutani, Yasuyuki
AU - Ando, Ryota
AU - Kato, Noritoshi
AU - Ishimoto, Takuji
AU - Tsuboi, Naotake
AU - Esaki, Nobutoshi
AU - Matsuyama, Makoto
AU - Shiraki, Yukihiro
AU - Kobayashi, Hiroki
AU - Asai, Naoya
AU - Enomoto, Atsushi
AU - Maruyama, Shoichi
N1 - Funding Information:
We thank Norihiko Suzuki, Ryoko Sakamoto, Naoko Asano (Nagoya University) for excellent technical assistance and Kaori Ushida (Technical Center, Nagoya University) for support with immunostaining using Ventana Discovery Ultra. This work was supported by a Grant-in-Aid for Scientific Research (B) (17H04186 to S. Maruyama. and 18H02638 to A.E.) and a Grant-in-Aid for Scientific Research (C) (20K08589 to S.S.) commissioned by the Ministry of Education, Culture, Sports, Science and Technology of Japan as well as AMED-CREST (Japan Agency for Medical Research and Development, Core Research for Evolutional Science and Technology; 21gm0810007h0106 and 21gm1210009s0103 to A.E.).
Funding Information:
This work was supported by a Grant-in-Aid for Scientific Research (B) (17H04186 to S. Maruyama. and 18H02638 to A.E.) and a Grant-in-Aid for Scientific Research (C) (20K08589 to S.S.) commissioned by the Ministry of Education, Culture, Sports, Science and Technology of Japan as well as AMED-CREST (Japan Agency for Medical Research and Development, Core Research for Evolutional Science and Technology; 20gm0810007h0105 and 20gm1210009s0102 to A.E.).
Funding Information:
We thank Norihiko Suzuki, Ryoko Sakamoto, Naoko Asano (Nagoya University) for excellent technical assistance and Kaori Ushida (Technical Center, Nagoya University) for support with immunostaining using Ventana Discovery Ultra. This work was supported by a Grant-in-Aid for Scientific Research (B) (17H04186 to S. Maruyama. and 18H02638 to A.E.) and a Grant-in-Aid for Scientific Research (C) (20K08589 to S.S.) commissioned by the Ministry of Education, Culture, Sports, Science and Technology of Japan as well as AMED-CREST (Japan Agency for Medical Research and Development, Core Research for Evolutional Science and Technology; 21gm0810007h0106 and 21gm1210009s0103 to A.E.).
Publisher Copyright:
© 2022, The Author(s).
PY - 2022/12
Y1 - 2022/12
N2 - Perivascular mesenchymal cells (PMCs), which include pericytes, give rise to myofibroblasts that contribute to chronic kidney disease progression. Several PMC markers have been identified; however, PMC heterogeneity and functions are not fully understood. Here, we describe a novel subset of renal PMCs that express Meflin, a glycosylphosphatidylinositol-anchored protein that was recently identified as a marker of fibroblasts essential for cardiac tissue repair. Tracing the lineage of Meflin+ PMCs, which are found in perivascular and periglomerular areas and exhibit renin-producing potential, showed that they detach from the vasculature and proliferate under disease conditions. Although the contribution of Meflin+ PMCs to conventional α-SMA+ myofibroblasts is low, they give rise to fibroblasts with heterogeneous α-SMA expression patterns. Genetic ablation of Meflin+ PMCs in a renal fibrosis mouse model revealed their essential role in collagen production. Consistent with this, human biopsy samples showed that progressive renal diseases exhibit high Meflin expression. Furthermore, Meflin overexpression in kidney fibroblasts promoted bone morphogenetic protein 7 signals and suppressed myofibroblastic differentiation, implicating the roles of Meflin in suppressing tissue fibrosis. These findings demonstrate that Meflin marks a PMC subset that is functionally distinct from classic pericytes and myofibroblasts, highlighting the importance of elucidating PMC heterogeneity.
AB - Perivascular mesenchymal cells (PMCs), which include pericytes, give rise to myofibroblasts that contribute to chronic kidney disease progression. Several PMC markers have been identified; however, PMC heterogeneity and functions are not fully understood. Here, we describe a novel subset of renal PMCs that express Meflin, a glycosylphosphatidylinositol-anchored protein that was recently identified as a marker of fibroblasts essential for cardiac tissue repair. Tracing the lineage of Meflin+ PMCs, which are found in perivascular and periglomerular areas and exhibit renin-producing potential, showed that they detach from the vasculature and proliferate under disease conditions. Although the contribution of Meflin+ PMCs to conventional α-SMA+ myofibroblasts is low, they give rise to fibroblasts with heterogeneous α-SMA expression patterns. Genetic ablation of Meflin+ PMCs in a renal fibrosis mouse model revealed their essential role in collagen production. Consistent with this, human biopsy samples showed that progressive renal diseases exhibit high Meflin expression. Furthermore, Meflin overexpression in kidney fibroblasts promoted bone morphogenetic protein 7 signals and suppressed myofibroblastic differentiation, implicating the roles of Meflin in suppressing tissue fibrosis. These findings demonstrate that Meflin marks a PMC subset that is functionally distinct from classic pericytes and myofibroblasts, highlighting the importance of elucidating PMC heterogeneity.
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U2 - 10.1038/s41598-022-09331-5
DO - 10.1038/s41598-022-09331-5
M3 - Article
C2 - 35354870
AN - SCOPUS:85127243503
SN - 2045-2322
VL - 12
JO - Scientific Reports
JF - Scientific Reports
IS - 1
M1 - 5389
ER -