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Repression of SMAD3 by STAT3 and c-Ski induces conventional dendritic cell differentiation.

Jeong-Hwan YoonEunjin BaeYasuo NagafuchiKatsuko SudoJin Soo HanSeok Hee ParkSusumu NakaeTadashi YamashitaJi Hyeon JuIsao MatsumotoTakayuki SumidaKeiji MiyazawaMitsuyasu KatoMasahiko KurodaIn-Kyu LeeKeishi FujioMizuko Mamura
Published in: Life science alliance (2024)
A pleiotropic immunoregulatory cytokine, TGF-β, signals via the receptor-regulated SMADs: SMAD2 and SMAD3, which are constitutively expressed in normal cells. Here, we show that selective repression of SMAD3 induces cDC differentiation from the CD115 + common DC progenitor (CDP). SMAD3 was expressed in haematopoietic cells including the macrophage DC progenitor. However, SMAD3 was specifically down-regulated in CD115 + CDPs, SiglecH - pre-DCs, and cDCs, whereas SMAD2 remained constitutive. SMAD3-deficient mice showed a significant increase in cDCs, SiglecH - pre-DCs, and CD115 + CDPs compared with the littermate control. SMAD3 repressed the mRNA expression of FLT3 and the cDC-related genes: IRF4 and ID2. We found that one of the SMAD transcriptional corepressors, c-SKI, cooperated with phosphorylated STAT3 at Y705 and S727 to repress the transcription of SMAD3 to induce cDC differentiation. These data indicate that STAT3 and c-Ski induce cDC differentiation by repressing SMAD3: the repressor of the cDC-related genes during the developmental stage between the macrophage DC progenitor and CD115 + CDP.
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