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Tie1 is a receptor tyrosine kinase expressed in endothelial cells, where it modulates Angiopoietin/Tie2 signaling. Previous studies have shown that mouse Tie1 mutants exhibit severe cardiovascular defects; however, much remains to be learned about the role of Tie1, especially during cardiac development. To further understand Tie1 function, we generated a zebrafish tie1 mutant line. Homozygous mutant embryos display reduced endothelial and endocardial cell numbers and reduced heart size. Live imaging and ultrastructural analyses at embryonic stages revealed increased cardiac jelly thickness as well as cardiomyocyte defects, including a loss of sarcomere organization and altered cell shape. Transcriptomic profiling of embryonic hearts uncovered the downregulation of tll1, which encodes a Tolloid-like protease, in tie1-/- compared with wild-type siblings. Using mRNA injections into one-cell stage embryos, we found that tll1 overexpression could partially rescue the tie1 mutant cardiac phenotypes including the endocardial and myocardial cell numbers as well as the cardiac jelly thickness. Altogether, our results indicate the importance of a Tie1-Tolloid-like 1 axis in paracrine signaling during cardiac development.Recombinant envelope protein-1 (E1) and E2 of Chikungunya virus (CHIKV) has been shown to elicit neutralizing antibodies and a balanced Th1/Th2 response in mice however with limited protection. Recently reported CHIK virus-like particles showed augmented immunity and protection in adult mice in comparison to E1 and E2, however exacerbated the disease in aged subjects. In order to improve the overall efficacy of protein based vaccines, novel strategies need to be adopted. The discovery of IgM Fc receptor (FcμR) and its role in humoral immune response led us to hypothesise that fusion of an antigen with Fc of IgM may enhance its immunogenicity by polymerizing it and FcμR mediated activation of B and other immune cells. We report in the current study, expression of E2 subunit of CHIKV in fusion with various IgM Fc domains/peptides in E. coli, their in-vitro refolding, characterization and immune response in C57BL/6 mice. Candidates fused with CH3-CH4 Fc fragment produced stable oligomers, whereas the one fused with peptides remained monomeric. The latter elicited a strong humoral and a balanced Th1/Th2 response in mice, whereas the polymeric candidate despite eliciting a strong humoral response, stimulated a biased Th1 response and exhibited higher virus neutralization in Vero cells.Promoter region of the telomerase reverse transcriptase gene (TERTp) constitutes a regulatory element capable to affect TERT expression (TE), telomerase activity (TA) and telomere length (TL). TERTp mutation status, TL, TA and TE were assessed in 27 in vitro cultured human cell lines, including 11 solid tumour, 13 haematological and 3 normal cell lines. C228T and C250T TERTp mutations were detected in 5 solid tumour and none of haematological cell lines (p = 0.0100). As compared to other solid tumour cell lines, those with the presence of somatic mutations were characterized by shorter TL, lower TA and TE. Furthermore, cell lines carrying TERTp mutations showed a linear correlation between TE and TA (R = 0.9708, p = 0.0021). Moreover, haematological cell lines exhibited higher TE compared to solid tumour cell lines (p = 0.0007). TL and TA were correlated in both solid tumour (R = 0.4875, p = 0.0169) and haematological (R = 0.4719, p = 0.0095) cell lines. Androgen Receptor Antagonist Our results based on the in vitro model suggest that oncogenic processes may differ between solid tumours and haematological malignancies with regard to their TERT gene regulation mechanisms.

Polycomb group (PcG) proteins are histone modifiers which control gene expression by assembling into large repressive complexes termed - Polycomb repressive complex (PRC); RING1B, core catalytic subunit of PRC1 that performs H2AK119 monoubiquitination leading to gene repression. The role of PRC1 complex during early neural specification in humans is unclear; we have tried to uncover the role of PRC1 in neuronal differentiation using human pluripotent stem cells as an in vitro model.

We differentiated both human embryonic stem cells (hESCs) and human induced pluripotent stem cells (hiPSCs) towards neural progenitor stage evident from the expression of NESTIN, TUJ1, NCAD, and PAX6. When we checked the total expression of RING1B and BMI1, we saw that they were significantly upregulated in differentiated neural progenitors compared to undifferentiated cells. Further, we used Chromatin Immunoprecipitation coupled with qPCR to determine the localization of RING1B, and the repressive histone modification H2AK119omoters, but the inhibitory H2AK119ub1 modification is also lost.Idiopathic pulmonary fibrosis (IPF) is a fatal fibrosing interstitial lung disease with limited therapeutic options and a median survival of 3 years after diagnosis. Dysregulated epithelial regeneration is key event involved in initiating and sustaining IPF. The type II alveolar epithelial cells (AECIIs) play a crucial role for epithelial regeneration and stabilisation of alveoli. Loss of cell apical-basal polarity contributes to fibrosis. AECII has apical-basal polarity, but it is poorly understood whether AECII apical-basal polarity loss is involved in fibrosis. Bleomycin is a traditional inducer of pulmonary fibrosis. Here firstly we observed that bleomycin induced apical-basal polarity loss in cultured AECIIs. Next, cell polarity proteins lethal (2) giant larvae 1 (Lgl1), PAR-3A, aPKC and PAR-6B were investigated. We found bleomycin induced increases of Lgl1 protein and decreases of PAR-3A protein, and bleomycin-induced PAR-3A depression was mediated by increased-Lgl1. Then Lgl1 siRNA was transfected into AECIIs. Lgl1 siRNA prevented apical-basal polarity loss in bleomycin-treated AECIIs. At last, Lgl1-conditional knockout mice were applied in making animal models. Bleomycin induced pulmonary fibrosis, but this was attenuated in Lgl1-conditional knockout mice. Together, these data indicated that bleomycin mediated AECII apical-basal polarity loss which contributed to experimental pulmonary fibrosis. Inhibition of Lgl1 should be a potential therapeutic strategy for the disease.

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