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t factor for offspring reproductive health.
Previous research in our laboratory found that a biologically active sphingomyelin metabolite, sphingosylphosphorylcholine (SPC), can inhibit myocardial cell apoptosis caused by ischemia with an unknown mechanism. Here, we aimed to study the possible participation of EPAS1 in the protection process of SPC.
The rat cardiomyocytes deprived of serum were used to mimic ischemic-caused apoptosis, then treated with or without SPC. The expression and nuclear shift of EPAS1 were detected by western blot and immunofluorescence, and its function was studied using its siRNA.
Our research shows that SPC inhibited serum starvation caused cardiomyocyte apoptosis, accompanied by the up-regulation and nucleus translocation of EPAS1. EPAS1 levels did not change when its transcript was blocked by Actinomycin D, which prompted us to search for a post-transcription mechanism for its increased expression, and finally found that miR-155-5p, regulated by STAT3, was a new post-transcription regulator to EPAS1. Further investigation found that EPAS1 participated in the protective effect of SPC is mainly achieved by activating the downstream target gene, interleukin-6 (IL-6).
Our results expand our understanding of the biological functions of SPC, and bring a new pathway as a potential therapeutic target to the treatment of cardiovascular diseases caused by myocardial apoptosis.
Our results expand our understanding of the biological functions of SPC, and bring a new pathway as a potential therapeutic target to the treatment of cardiovascular diseases caused by myocardial apoptosis.Oleuropein (Ole) is the main bioactive phenolic compound present in olive leaves, fruits and olive oil. This molecule has been shown to exert beneficial effects on several human pathological conditions. In particular, recent preclinical and observational studies have provided evidence that Ole exhibits chemo-preventive effects on different types of human tumors. Studies undertaken to elucidate the specific mechanisms underlying these effects have shown that this molecule may thwart several key steps of malignant progression, including tumor cell proliferation, survival, angiogenesis, invasion and metastasis, by modulating the expression and activity of several growth factors, cytokines, adhesion molecules and enzymes involved in these processes. MS1943 Histone Methyltransferase inhibitor Interestingly, experimental observations have highlighted the fact that most of these signalling molecules also appear to be actively involved in the homing and growth of disseminating cancer cells in bones and, ultimately, in the development of metastatic bone diseases. These findings, and the experimental and clinical data reporting the preventive activity of Ole on various pathological conditions associated with a bone loss, are indicative of a potential therapeutic role of this molecule in the prevention and treatment of cancer-related bone diseases. This paper provides a current overview regarding the molecular mechanisms and the experimental findings underpinning a possible clinical role of Ole in the prevention and development of cancer-related bone diseases.
Maternal nicotine exposure during pregnancy and lactation is associated with obesity in offspring. Brown adipose tissue (BAT) is correlated with energy metabolism and obesity. In this study, we explored the mechanism of maternal nicotine exposure on BAT changes in male offspring.
Pregnant rats were randomly assigned to nicotine (1.0mg/kg twice per day, subcutaneous administration) or control groups. In vitro, C3H10T1/2 cells were induced to differentiate into mature brown adipocytes, and 0-50μM nicotine was given to C3H10T1/2 cells during the differentiation process.
Nicotine-exposed males had white-like adipocytes and abnormal mitochondria structure in iBAT at 26weeks. The expression of mitochondrial genes, UCP1 and AMPK-SIRT1-PGC-1α pathway were downregulated in the nicotine group at 26weeks rather than 4weeks. In vitro, 50μM nicotine decreased the expression of mitochondrial genes, UCP1 and AMPK-SIRT1-PGC-1α pathway in brown adipocytes.
Maternal nicotine exposure showed the "programming" effect on the decreased brown-like phenotype in BAT of adult male offspring via downregulating AMPK-SIRT1-PGC-1α pathway. This impairment of BAT may be a potential mechanism of nicotine-induced obesity in male offspring.
Maternal nicotine exposure showed the "programming" effect on the decreased brown-like phenotype in BAT of adult male offspring via downregulating AMPK-SIRT1-PGC-1α pathway. This impairment of BAT may be a potential mechanism of nicotine-induced obesity in male offspring.
The study focused on the expression and role of a recent potential cancer therapeutic target protein, MutT Homolog1 (MTH1). MTH1 gets activated in an increased reactive oxygen species (ROS) environment and removes the oxidized nucleotides from the cell. The study aimed to check the role of MTH1 in DNA damage and apoptosis, migration and angiogenesis and also to examine its regulation in glioma.
The experiments were carried out in human glioma tissue samples and brain tissues of epilepsy patients (non-tumor control). We used two human glioblastomas cell lines, U87MG and U251MG cells. In order to study the role of MTH1 in glioma and to analyze the relation of MTH1 with Hif1α, we have used MTH1 siRNA and Hif1α siRNA respectively.
We found an increased expression of MTH1 in glioma tissues compared to the non-tumor brain tissues. Correlation analysis revealed that those samples showing reduced expression of MTH1 also had high levels of DNA damage and apoptotic markers, while diminished expression of angiogenesis regulators and levels of migration. MTH1 knockdown in vitro by siRNA in tumor cell lines corroborates the above observation. This justifies the emergence of MTH1 inhibitors as potential first-in-class drugs. Mechanistically, our observations suggest that Hif1α may modulate MTH1 expression.
We found elevated MTH1 expression in glioma irrespective of their grades, while its inhibition affects multiple tumor progression pathways, and that targeting Hif1α could simulate the same.
We found elevated MTH1 expression in glioma irrespective of their grades, while its inhibition affects multiple tumor progression pathways, and that targeting Hif1α could simulate the same.
Homepage: https://www.selleckchem.com/products/ms1943.html
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