To investigate the correlation between hepatic lipid accumulation and the metabolic profiles of free fatty acids(FFAs), tricarboxylic acid (TCA) cycle, and ketone body in alcoholic fatty liver disease (AFLD), a chronic plus acute alcohol feeding model (Gao-Binge model) was employed using C57BL/6N mice to simulate different stages of AFLD. Liquid chromatography-tandem mass spectrometry (LC-MS/MS) was employed to measure the levels of FFAs, TCA cycle intermediates, and ketone bodies in mouse liver tissue and plasma, followed by Pearson correlation analysis. The study revealed that both acute and chronic models showed significant increases in total FFAs, saturated FFAs and short-chain FFAs, as well as β-hydroxybutyric acid(HDBT) in plasma and liver, indicating FFA metabolic profile disturbances in the Gao-Binge model. Moreover, in both models, acetic acid (AA), 2-Methylbutyric acid (2-meBA), and HDBT displayed strong positive correlations with hepatic injury markers in plasma and liver samples (for instance, in the acute model plasma data, r = 0.834, 0.699, 0.818, P<0.05), while pyruvic acid (PRA) showed a strong negative correlation (r = −0.66, P<0.05). These findings suggest that FFAs, TCA cycle, and ketone body metabolism are disrupted in the alcoholic liver disease in mice model, and metabolites such as AA, 2-meBA, HDBT and PRA may serve as potential biomarkers for AFLD, which would be helpful in the diagnosis and treatment of this disease.

The occurrence of benign prostate hyperplasia(BPH)was related to disrupted sex steroid hormones,and metformin(Met)had a clinical response to sex steroid hormone-related gynaecological disease.How-ever,whether Met exerts an antiproliferative effect on BPH via sex steroid hormones remains unclear.Here,our clinical study showed that along with prostatic epithelial cell(PEC)proliferation,sex steroid hormones were dysregulated in the serum and prostate of BPH patients.As the major contributor to dysregulated sex steroid hormones,elevated dihydrotestosterone(DHT)had a significant positive rela-tionship with the clinical characteristics of BPH patients.Activation of adenosine 5'-monophosphate(AMP)-activated protein kinase(AMPK)by Met restored dysregulated sex steroid hormone homeostasis and exerted antiproliferative effects against DHT-induced proliferation by inhibiting the formation of androgen receptor(AR)-mediated Yes-associated protein(YAP1)-TEA domain transcription factor(TEAD4)heterodimers.Met's anti-proliferative effects were blocked by AMPK inhibitor or YAP1 over-expression in DHT-cultured BPH-1 cells.Our findings indicated that Met would be a promising clinical therapeutic approach for BPH by inhibiting dysregulated steroid hormone-induced PEC proliferation.

Benign prostatic hyperplasia(BPH)is one of the major chronic complications of type 2 diabetes mellitus(T2DM),and sex steroid hormones are common risk factors for the occurrence of T2DM and BPH.The profiles of sex steroid hormones are simultaneously quantified by LC-MS/MS in the clinical serum of patients,including simple BPH patients,newly diagnosed T2DM patients,T2DM complicated with BPH patients and matched healthy individuals.The G protein-coupled estrogen receptor(GPER)inhibitor G15,GPER knockdown lentivirus,the YAP1 inhibitor verteporfin,YAP1 knockdown/overexpression lentivirus,targeted metabolomics analysis,and Co-IP assays are used to investigate the molecular mechanisms of the disrupted sex steroid hormones homeostasis in the pathological process of T2DM complicated with BPH.The homeostasis of sex steroid hormone is disrupted in the serum of patients,accompanying with the proliferated prostatic epithelial cells(PECs).The sex steroid hormone metabolic profiles of T2DM patients complicated with BPH have the greatest degrees of separation from those of healthy individuals.Elevated 17β-estradiol(E2)is the key contributor to the disrupted sex steroid hormone homeostasis,and is significantly positively related to the clinical characteristics of T2DM patients complicated with BPH.Activating GPER by E2 via Hippo-YAP1 signaling exacerbates high glucose(HG)-induced PECs prolifer-ation through the formation of the YAP1-TEAD4 heterodimer.Knockdown or inhibition of GPER-mediated Hippo-YAP1 signaling suppresses PECs proliferation in HG and E2 co-treated BPH-1 cells.The anti-proliferative effects of verteporfin,an inhibitor of YAP1,are blocked by YAP1 overexpression in HG and E2 co-treated BPH-1 cells.Inactivating E2/GPER/Hippo/YAP1 signaling may be effective at delaying the progression of T2DM complicated with BPH by inhibiting PECs proliferation.

Total glucosides of Rhizoma Smilacis Glabrae (RSG) are selective immunosuppressants that exhibit primary efficacy in the treatment of rheumatoid arthritis through targeted inhibition of activated T cells. In this study, we aimed to investigate the potential application of RSG in the treatment of psoriasis and elucidate its mechanism of action and material basis. Our findings revealed significant improvements upon administration of RSG in an imiquimod (IMQ)-induced psoriasis model. These improvements were characterized by a remarkable increase in the number of tail scales in mice and a substantial amelioration of skin erythema, ulceration, and flaking. By transcriptome sequencing and T-cell flow sorting assay, we identified notable effects of RSG on the modulation of various cellular processes. Specifically, RSG prominently down-regulated the Th17/Treg ratio in damaged skin tissues and reduced the proportion of G₂ phase cells. Furthermore, RSG exhibited a stimulatory effect on the proliferation and differentiation of epithelial cells. Of particular interest, we discovered that β-sitosterol, sitostenone, stigmasterol, smiglanin, and cinchonain Ib displayed potent inhibitory effects on the IL-17-mediated inflammatory response in HaCaT cells. In summary, our study highlights the therapeutic potential of RSG in the treatment of psoriasis, attributed to its ability to regulate the Th17/Treg balance. These findings contribute to the development of new indications for RSG and provide a solid theoretical foundation for further exploration in this field.
Animals ; Mice ; T-Lymphocytes, Regulatory ; Psoriasis/drug therapy* ; Arthritis, Rheumatoid ; Biological Assay ; Glucosides/pharmacology*

ObjectiveTo establish a more accurate and sensitive liquid chromatography-ultraviolet (LC-UV) method for the determination of uric acid in rat serum, and compare the results with those of commercial kits, providing a new method for the accurate determination of uric acid in the rat hyperuricemia model induced by potassium oxonate.Methods A hyperuricemia model was established by intraperitoneal injection of potassium oxonate (300 mg/kg) into SPF-grade male SD rats, and the control group was administered an equal amount of 0.5% sodium carboxymethylcellulose solution. Blood samples were collected from the posterior orbital venous plexus and centrifuged to obtain serum samples. After precipitation with 0.1% trifluoroacetic acid-acetonitrile (containing the internal standard 3,4-dihydroxybenzylamine hydrobromide), the supernatant was injected for analysis. Uric acid was separated on a Waters XBridge HILIC column (150 mm×4.6 mm, 3.5 μm) using acetonitrile (containing 0.5% formic acid and 2 mmol/mL ammonium formate) as the organic phase and methanol solution (methanol∶water=1∶1, containing 0.5% formic acid with 2 mmol/L ammonium formate) as the aqueous phase for isocratic elution and detection at 290 nm. Serum samples treated with activated carbon were used as substitute matrices for the methodological verification. Serum uric acid levels in rats with potassium oxonate-induced hyperuricemia were measured using the established LC-UV method and commercially available kits (uricase and phosphotungstic acid methods), and the accuracies of the three methods were compared.Results Serum uric acid showed a good linear relationship (R>0.999) at mass concentration of 10–200 μg/mL in rats, the lower limit of quantification was 10 μg/mL, the accuracy ranged from -2.17% to 2.21%, the intra-batch precision ranged from 0.52% to 1.95%, the inter-batch precision ranged from 3.04% to 4.90%, and the extraction recovery ranged from 83.12% to 89.91%. In the rat model, the results obtained using the commercially available phosphotungstic acid method kit were significantly higher than those of the LC-UV method, and those obtained using the commercially available uricase method kit were significantly lower than those of the LC-UV method, but the LC-UV method showed the best recovery of the spiked sample (95.90%–99.96%).ConclusionThe LC-UV method developed in this study can determine the concentration of uric acid in rat serum with higher accuracy than commercially available kits and is recommended for the determination of serum uric acid in the rat model of hyperuricemia induced by potassium oxonate.

Cholesterol is an important lipid component in the body, which not only participates in the formation of cell membranes, but also is the raw material for the synthesis of bile acids and steroid hormones. Low density lipoprotein receptor (LDLR) is involved in cholesterol metabolism and plays an important role in maintaining the cholesterol homeostasis of organism cells. The expression of LDLR is precisely regulated by transcription, post-transcription and post-translation, and the imbalance of ldlr expression will lead to the occurrence and development of many diseases. In this paper, the molecular regulation mechanism of LDLR, the damage of target organs caused by the imbalance of LDLR expression and the research and development progress of drugs targeting LDLR are reviewed, which provides theoretical basis for further understanding of the progress of diseases related to lipid metabolism disorder and new insights for developing drugs targeting LDLR with more effective and less side effects.

Duchene muscular dystrophy (DMD) is a serious progressive muscular dystrophy.Reports in recent years about abnormal lipid in DMD patients have increased, yet little attention has been paid to liver lipid.This study aimed to explore the effect of dystrophin gene defect on liver lipid synthesis.7-week-old mdx male mice were used as DMD model.The conditions of liver function, liver lipid accumulation and liver lipid synthesis were determined through liver tissue morphological examination, blood biochemical examination, and detection of hepatic gene and protein expression.The results showed that lipid droplets in liver of mdx mice increased significantly.The contents of total cholesterol and triglyceride in liver, aspartate aminotransferase and alanine aminotransferase in serum increased.The gene and protein expression of hepatic lipid synthesis-related enzymes such as fatty acid synthase, acetyl CoA carboxylase, and sterol regulatory element binding protein 1-c were up-regulated.These results showed accumulation of liver lipid in 7-week-old mdx male mice.

Estrogen receptors are steroid receptors, widely distributed in skeletal muscle, liver and other tissues.Currently, there are 5 known estrogen receptors.Different estrogen receptors are distributed in different places and have different functions.By mediating different estrogen receptors, estrogen plays an important role in anti-inflammation, promoting proliferation and inhibiting muscle atrophy.Skeletal muscle is the main tissue in the human body, accounting for about 40% of body weight.Skeletal muscle not only plays the role of exercise and support, but also plays an important role in maintaining the body′s metabolism.In recent years, estrogen receptors have received extensive attention in skeletal muscle diseases.Estrogen receptors are considered as potential targets for the treatment of skeletal muscle diseases such as Duchenne muscular dystrophy(DMD)and myotubular myopathy(MTM). This article reviews the research progress of estrogen receptors in skeletal muscle diseases.

To investigate the ameliorative effect of psoralen (PSO) on carbon tetrachloride (CCl4)-induced acute liver injury in mice and its potential mechanism, female C57BL/6J mice aged 6-8 weeks were continuously administrated with psoralen or positive control drug diallyl sulfide (DAS) intragastrically for 4 days.On day 4, except that the control group were treated with vehicle control, other groups were all given carbon tetrachloride intraperitoneally to establish a carbon tetrachloride acute liver injury model.Serum biochemical indicators alanine aminotransferase (ALT) and aspartate aminotransferase (AST) levels were detected; liver pathological changes were observed by HE staining; cytochrome P450 2E1 (CYP2E1) protein levels were detected by Western blot; the protein level of CYP2E1 were detected by immunohistochemistry (IHC) staining; and the gene levels of CYP2E1, tumor necrosis factor-α (TNF-α) and interleukin-6 (IL-6) were detected by RT-PCR.Compared with the model group, psoralen could improve the inflammatory cell infiltration and hepatocyte necrosis caused by carbon tetrachloride, significantly reducing the serum ALT and AST levels, down-regulating the inflammatory factors TNF-α and IL-6 levels, and inhibiting CYP2E1 protein expression.The results show that psoralen can ameliorate the acute liver injury induced by carbon tetrachloride in mice, with the possible mechanism inhibiting the protein expression of CYP2E1.

Previously, we proposed a new perspective of triptolide (TP)-associated hepatotoxicity: liver hypersensitivity upon lipopolysaccharide (LPS) stimulation. However, the mechanisms for TP/LPS-induced hepatotoxicity remained elusive. The present study aimed to clarify the role of LPS in TP/LPS-induced hepatotoxicity and the mechanism by which TP induces liver hypersensitivity upon LPS stimulation. TNF- inhibitor, etanercept, was injected intraperitoneally into mice to investigate whether induction of TNF- by LPS participated in the liver injury induced by TP/LPS co-treatment. Mice and hepatocytes pretreated with TP were stimulated with recombinant TNF- to assess the function of TNF- in TP/LPS co-treatment. Additionally, time-dependent NF-B activation and NF-B-mediated pro-survival signals were measured and . Finally, overexpression of cellular FLICE-inhibitory protein (FLIP), the most potent NF-B-mediated pro-survival protein, was measured and to assess its function in TP/LPS-induced hepatotoxicity. Etanercept counteracted the toxic reactions induced by TP/LPS. TP-treatment sensitized mice and hepatocytes to TNF-, revealing the role of TNF- in TP/LPS-induced hepatotoxicity. Mechanistic studies revealed that TP inhibited NF-B dependent pro-survival signals, especially FLIP, induced by LPS/TNF-. Moreover, overexpression of FLIP alleviated TP/LPS-induced hepatotoxicity and TP/TNF--induced apoptosis . Mice and hepatocytes treated with TP were sensitive to TNF-, which was released from LPS-stimulated immune cells. These and other results show that the TP-induced inhibition of NF-B-dependent transcriptional activity and FLIP production are responsible for liver hypersensitivity.