Myersnikolajsen7809
Smad3 phosphorylation is implicated in hepatic fibro-carcinogenesis. Moreover, Smad3 phospho-isoform pSmad3L and pSmad3C are reversible and antagonistic, and the balance could shift from carcinogenesis to tumor-suppression. pSmad3C has recently assigned to perform a preventative effect against primary liver injury. Salvianolic acid B (Sal B), a component derived from Salvia miltiorrhiza, is empirically used for hepatic diseases. Our prior study clarified that Sal B could delay hepatic fibrosis-carcinoma progression by converting pSmad3L/3C in mice. However, the roles of Smad3 phospho-isoform conversion and antagonism in the anti-hepatocarcinogenic effects of Sal B in pSmad3C- or/and pSmad3L-mutated mice/cells remain vague. Currently, corresponding doses/concentrations of Sal B was co-administrated to pSmad3C+/- mutational mice/plasmids-transfected HepG2 cells. Notably, in vivo functional studies revealed that pSmad3C mutation attenuates Sal B-induced ameliorative effects on histopathological characteristics and decreased serological biomarkers, and potential mechanism involves attenuation of increases in pSmad3C/p21 and decreases in pSmad3L/PAI-1/c-Myc expression. Expectedly, in vitro results showed that up-regulating pSmad3C enhances the inhibitory effects on proliferation, migration and contributes to apoptosis accompanied by a shift of pSmad3L/PAI-1/c-Myc oncogenic to pSmad3C/p21 tumour-suppressive signalling; however, opposite effects occur when upregulated pSmad3L. This study is the first to identify pSmad3C as a key target by which Sal B prevents hepatocarcinogenesis.Microcystin-LR (MC-LR) is an emerging water pollutant produced by blooming cyanobacteria. It could be absorbed into human body via contaminated food and drinking water causing severe reproductive toxicity. Previous studies showed that MC-LR could regulate autophagy by inducing endoplasmic reticulum (ER) stress thereby causing female reproductive toxicity. However, the molecular mechanisms of MC-LR-induced autophagy remain to be elucidated. It is known that IRE1 and CaMKKβ pathways are two important pathways involved in autophagy induced by ER stress. Hence, this study investigated the roles of both pathways in MC-LR-induced autophagy in mouse ovarian cells. Gefitinib The results showed that MC-LR significantly up-regulated the expression of autophagy marker proteins LC3Ⅱ and BECLIN1 and down-regulated the expression of P62 in vivo and in vitro. MC-LR-caused increase of autophagosomes could be observed in KK-1 cells by MDC staining. MC-LR induced the formation of autolysosomes as indicated by the overlap of LAMP1 and LC3. Meanwhile, MC-LR significantly activated the proteins in IRE1 pathway (IRE1, XBP1 and JNK) and in CaMKKβ pathway (CaMKKβ, AMPK, mTOR). Furthermore, MC-LR caused weight loss and ovarian histopathological damage in mice. In contrast, after the expression and function of IRE1 and CaMKKβ were inhibited with siRNA in vitro and by inhibitors (4μ8C and STO-609, respectively) in vivo, the up-regulation of LC3Ⅱ and BECLIN1 and the degradation of P62 induced by MC-LR were significantly suppressed. MC-LR-induced autophagosomes in KK-1 cells and autolysosomes in mouse ovarian cells were also decreased. Moreover, the knockdown of IRE1 and CaMKKβ relieved MC-LR-induced histopathological injury to mouse ovaries. These results indicated that MC-LR induced ovarian cell autophagy and ovarian injury via IRE1 and CaMKKβ pathways. This study is the first study revealing the molecular mechanisms of MC-LR-induced autophagy of ovarian cells and providing new insights into the female reproductive toxicity of MC-LR.Race-based hair discrimination continues to disadvantage people of color who have been sent home from school or dismissed from their jobs on the premise that certain hairstyles, such as dreadlocks and knots, do not meet standards of professionalism. The Create a Respectful and Open World for Natural Hair (CROWN) Act, which was recently passed by several states and the House of Representatives, prohibits such discrimination based on a person's hair texture or hairstyle associated with race. Dermatologists serve a vital role in advocating for the skin and hair needs of all patients, spanning from the personal or clinical encounters level to population-level policy legislation. The act represents a critical opportunity for dermatologists to coalesce and support this important piece of legislation that defends skin of color and the fundamental human right to nondiscrimination.
Androgenetic alopecia (AGA), a common alopecia, is often accompanied by abnormal expression of multiple miRNAs. This study aims to investigate abnormally expressed miRNAs in patients with AGA and their specific molecular mechanism.
miRNA microarray profiling and qRT-PCR validation were used to screen and verify abnormally expressed miRNAs in patients with AGA. Human hair follicles (HFs) were treated with different concentrations of dihydrotestosterone (DHT, 10
, 10
, 10
and 10
mol/L) for 10days. The effects of DHT on HF growth, proliferation, and miRNA expression in cultured HFs were investigated using immunofluorescence staining and qRT-PCR. Moreover, human dermal papilla cells (HDPCs) were treated/transfected with a Wnt/β-catenin pathway activator and/or miR-133b mimic, and then the CCK-8 assay was used to evaluate HDPC proliferation. qRT-PCR and Western blotting were used to measure the expression of Versican, ALP and β-catenin RESULTS miRNA microarray profiling identified 43 miRNAs that were signve specific miRNA expression profiles and that the abnormal expression of miR-133b may inactivate the Wnt/β-catenin pathway and ultimately regulate hair growth.
0.05), but the expression of Versican and ALP was suppressed in the cotreatment group (P less then 0.05) CONCLUSION Our data indicated that patients with androgenic alopecia have specific miRNA expression profiles and that the abnormal expression of miR-133b may inactivate the Wnt/β-catenin pathway and ultimately regulate hair growth.Cytosine arabinoside (Ara-C), an anticancer drug, is known to inhibit DNA replication in mitotic cells. Ara-C is also considered to induce DNA damage, leading to neuronal cell death. To identify the mechanism by which Ara-C kills neurons, we assessed the levels of phosphorylated histone H2AX (γ-H2AX), a marker for DNA double-strand breaks (DSBs), in hippocampal neurons cultured for 48 h with Ara-C. There was a time-dependent increase in the percentage of cells accumulating γ-H2AX, but TUNEL staining did not indicate the formation of DSBs. The nuclear spread of γ-H2AX remained after Ara-C was withdrawn. These features of Ara-C-induced γ-H2AX formation were quite distinct from those observed in proliferating pheochromocytoma cells. Furthermore, Ara-C-induced γ-H2AX formation appeared to utilize cyclin-dependent kinase 7, but not ataxia telangiectasia mutated (ATM) or ATM and Rad3 related, which are well-known kinases in γ-H2AX formation. Taken together, our findings indicated that Ara-C stimulated γ-H2AX formation in neurons without DSB formation and utilization of canonical kinases, leading to neuronal cell death.