Project description:We used RNA-Seq to analyse the interactions between Bmp4 and Wnt at a genome-wide level in EpiSCs treated for 48 hrs with Bmp4 and/or Wnt3a in the presence of Activin and bFGF.

Project description:We used RNA-Seq to analyse the interactions between Bmp4 and Wnt at a genome-wide level in EpiSCs treated for 48 hrs with Bmp4 and/or Wnt3a in the presence of Activin and bFGF. Control EpiSC were cultured in the presence of IWP2 for 48h. Cells were cultured with BMP4 with or without IWP2; Wnt3a and Wnt3a with BMP4 for 48h.

Project description:Adult neural stem cells (NSCs) must tightly regulate quiescence and proliferation. Single cell analysis has suggested a continuum of cell states as NSCs exit quiescence. Here we capture and characterize in vitro primed quiescent NSCs and identify LRIG1 as an important regulator. We show that BMP-4 signaling induces a dormant non-cycling quiescent state (d-qNSCs), whereas combined BMP-4/FGF-2 signalling induces a distinct primed quiescent state poised for cell cycle re-entry. Primed quiescent NSCs (p-qNSCs) are defined by high levels of LRIG1 and CD9, as well as an interferon response signature, and can efficiently engraft into the adult subventricular zone (SVZ) niche. Genetic disruption of Lrig1 in vivo within the SVZ NSCs leads an enhanced proliferation. Mechanistically, LRIG1 primes quiescent NSCs for cell cycle re-entry and EGFR responsiveness by enabling EGFR protein levels to increase but limiting signaling activation. LRIG1 is therefore an important functional regulator of NSC exit from quiescence.

Project description:MIXL1-GFP reporter lines were differentiated as Spin EBs in APEL medium supplemented with Wnt3a alone, BMP4 alone or Wnt3a/BMP4 in combination. EBs induced in the absence of growth factors were used as control. EBs induced with BMP4 or Wnt3a/BMP4 were FACS sorted based on E-CADHERIN and GFP expression. Unsorted EBs and sorted fractions were subjected to Illumina microarray processing.

Project description:Gene expression in quiescent NSCs (qNSCs) after bafilomycin A (BafA) treatment

Project description:In order to observe palovarotene modulates BMP4-induced transcriptome,2H11 cells treated with BMP4 or BMP4 plus palovarotene for 48 hours were subjected to RNAseq analyses

Project description:bFGF regulated stemness maintenance and cell differentiation in stem cells isolated from human exfoliated deciduous teeth (SHEDs). In addition, WNT3A is also shown to regulate osteogenic differentiation in mesenchymal stem cells. Here, transcriptome analysis of bFGF and WNT3A treated SHEDs was evaluated using a high throughput RNA sequencing technique. Results demonstrated that bFGF regulated genes related to cell cycle control and cell proliferation in SHEDs.

Project description:Endoglin is a membrane glycoprotein primarily expressed by the vascular endothelium and involved in cardiovascular diseases. Upon the proteolytic processing of the membrane-bound protein, a circulating form of endoglin (soluble endoglin, sEng) can be released, and high levels of sEng have been observed in several endothelial-related pathological conditions, where it appears to contribute to endothelial dysfunction. Preeclampsia is a multisystem disorder of high prevalence in pregnant women characterized by the onset of high blood pressure and often associated with increased levels of sEng. Although a pathogenic role for sEng involving hypertension has been reported in several animal models of preeclampsia, the exact molecular mechanisms implicated remain to be identified. To search for sEng-induced mediators, we have analyzed the protein secretome of human endothelial cells in the presence of sEng. We find that sEng induces the expression of BMP4 in endothelial cells, as evidenced by their proteomic signature, gene transcript levels and BMP4 promoter activity. A mouse model of preeclampsia with high sEng plasma levels (sEng+) showed increased levels of BMP4 transcripts in lungs and increased circulating BMP4, compared to those of control animals. In addition, after crossing female wild type with male sEng+ mice, hypertension appears 18 days after mating, precisely coinciding with the appearance of high plasma levels of BMP4. Also, serum levels of sEng and BMP4 are positively correlated in pregnant women with and without preeclampsia. Interestingly, sEng-induced arterial pressure elevation in sEng+ mice was abolished in the presence of the BMP4 inhibitor noggin, suggesting that BMP4 is a downstream mediator of sEng. These results provide a better understanding on the role of sEng in the pathobiology of preeclampsia and other cardiovascular diseases, where sEng levels are increased.

Project description:Bone morphogenetic protein (BMP) signaling is known to support differentiation of human embryonic stem cells (hESCs) into mesoderm and extraembryonic lineages, whereas other signaling pathways can largely influence this lineage specification. Here, we set out to reinvestigate the influence of ACTIVIN/NODAL and fibroblast growth factor (FGF) pathways on the lineage choices made by hESCs during BMP4-driven differentiation. We show that BMP activation, coupled with inhibition of both ACTIVIN/NODAL and FGF signaling, induces differentiation of hESCs, specifically to M-NM-2hCG hormone-secreting multinucleated syncytiotrophoblast and does not support induction of embryonic and extraembryonic lineages, extravillous trophoblast, and primitive endoderm. It has been previously reported that FGF2 can switch BMP4-induced hESC differentiation outcome to mesendoderm. Here, we show that FGF inhibition alone, or in combination with either ACTIVIN/NODAL inhibition or BMP activation, supports hESC differentiation to hCG-secreting syncytiotrophoblast. We show that the inhibition of the FGF pathway acts as a key in directing BMP4-mediated hESC differentiation to syncytiotrophoblast. Human embryonic Stem Cells (hESCs) were treated under defined conditions (N2B27) with BMP4 (B), SB431542 (SB) (ACTIVIN/NODAL inhibitor), SU5402 (SU) (FGFR1 inhibitor), FGF2 (F) either alone or in various combinations as mentioned, followed by isolation of total RNA.

Project description:Dormancy of disseminated tumor cells in secondary organs leads to late breast cancer-related deaths after relapse. The bone marrow is one of the primary breast cancer metastatic sites and is associated with poor prognosis. Here, we investigated the role of major factors of the bone marrow, BMP4 and TGF?2, in regulating cancer cell dormancy. Unexpectedly, we observed that TGF?2 and BMP4 have a synergistic effect that induces dormancy in both normal and transformed mammary stem cells. Several assays (3D matrigel, FUCCI Cell Cycle Indicator) showed that co-exposure to TGF?2 and BMP4 had a stronger anti-proliferative effect than each ligand alone. In addition, transformed cells fully retained this synergistic effect while they became less sensitive to individual cytokines. Surprisingly, single-cell RNAseq analysis revealed the heterogeneity of the G0 compartment at the transcriptomic level. We identified a unique deep dormant cluster under TGF?2 and BMP4 co-exposure characterized by a blended signature from treatments by TGF?2 or BMP4 alone. These findings reveal that disseminated breast cancer cells in the bone marrow are placed in a deep dormant stage by the synergistic effect of TGF?2 and BMP4 that neither factor can achieve alone. Lastly, our data suggest that the local BMP4 levels decrease with tissue aging and can therefore contribute to dormant cell awakening. By providing a better understanding of BMP4/TGF?2 signaling, our results open opportunities to prevent cancer relapse.