Dendritic cells (DC) can classified into two subsets, namely conventional dendritic cells (cDC) and plasmacytoid dendritic cells (pDC), both of which play important roles in bridging the innate and adaptive immunity. Although the functions of DCs are critical for immunomodulation, the regulatory mechanisms of DC developmental process still unclear. Here, we performed a powerful screening strategy and identified Mef2c as a transcription factor which regulates DC development. Through shRNA-mediated knockdown of target genes in immortalized hematopoietic stem and progenitor (iHSPC) cell line, we have screen 14 transcription factors that are preferentially expressed in pDC versus cDC, we identified two transcription factors Mef2c and Tcf12, which significantly affected pDCs generation in feeder free culture system. Knockdown of Mef2c and Tcf12 in iHSPC cell line decrease pDC generation in MS-5 feeder system. Mechanistically, expression of Tcf4 (encodes E-2.2), a master regulation of pDC development, was reduced in iHSPC stably express shMef2c and shTcf12. Reporter assay also showed the Tcf4 reporter activity was up-regulated by overexpression of Mef2c. We analyzed the DC populations from Mef2cf/f Tie2-Cre mice and proved that Mef2c deficiency indeed alter DCs generation, it reduce pDCs generation from bone marrow, spleen to lymph node. Also, in vitro deletion of Mef2c in primary bone marrow cell decreased pDCs frequency compared to control which show coherence to ex vivo results. Moreover, Mef2c also positively regulate Flt3 receptor expression. Mef2c knockdown decreased Flt3 expression in iHSPC. These results suggest Mef2c may regulate pDC development through control the expression of Tcf4.