Abstract:We studied the effects of alfalfa saponin extract (ASE) on low density lipoprotein receptor (Ldlr), liver X receptor α (LXRα), and farnesoid X receptor (FXR) in normal and hyperlipidemic Buffalo rat liver (BRL) cells. Normal and hyperlipidemic BRL cells were divided into eight groups: normal, or normal cells treated with 50, 100, and 150 mg/L ASE, hyperlipidemic, or hyperlipidemic cells treated with 50, 100, and 150 mg/L ASE. After treatment for 24 h, Ldlr, LXRα, and FXR mRNA expression levels were measured by quantitative real-time polymerase chain reaction (qRT-PCR). Data showed that mRNA expression of Ldlr in normal BRL cells was significantly up-regulated by ASE treatment and mRNA expressions of LXRα and FXR were significantly down-regulated both in normal and hyperlipidemic BRL cells after ASE treatment. Thus, ASE might ameliorate hepatic steatosis by regulating genes involved in cholesterol metabolism, including up-regulation of Ldlr as well as down-regulation of LXRα and FXR.
Our finding suggested that a de novo nonsense mutation in ANK1 may be causative to HS which plays an important role in supplementing the mutational spectrum of the ANK1 and explaining the mechanism of HS. Our study also indicated that WES can be an effective and accurate diagnostic tool in the discovery of causative mutations in genetic heterogeneous Mendelian disorders.
Background: Thyroid dysgenesis (TD) is the main cause of congenital hypothyroidism (CH). As variants of the transcription factor Gli-similar 3 (GLIS3) have been associated with CH and GLIS3 is one of candidate genes of TD, we screened and characterized GLIS3 mutations in Chinese patients with CH and TD.Methods: To detect mutations, we sequenced all GLIS3 exons in the peripheral blood genomic DNA isolated from 50 patients with TD and 100 healthy individuals. Wild-type and mutant expression vectors of Glis3 were constructed. Quantitative real-time PCR, western blotting, and double luciferase assay were performed to investigation the effect of the mutations on GLIS3 protein function and transcriptional activation.Results: Two novel heterozygous missense mutations, c.2710G>A (p.G904R) and c.2507C>A (p.P836Q), were detected in two unrelated patients. Functional studies revealed that p.G904R expression was 59.95% lower and p.P836Q was 31.23% lower than wild-type GLIS3 mRNA expression. The p.G904R mutation also resulted in lower GLIS3 protein expression compared with that encoded by wild-type GLIS3. Additionally, the luciferase reporter assay revealed that p.G904R mediated impaired transcriptional activation compared with the wild-type protein (p < 0.05) but did not have a dominant-negative effect on the wild-type protein.Conclusions: We for the first time screened and characterized the function of GLIS3 mutations in Chinese individuals with CH and TD. Our study not only broadens the GLIS3 mutation spectrum, but also provides further evidence that GLIS3 defects cause TD.
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