For nearly two decades, China has primarily employed GXN in clinical treatments for angina, heart failure, and chronic kidney disease.
The purpose of this study was to ascertain how GXN influences renal fibrosis in a heart failure mouse model, focusing on its impact on the regulatory SLC7A11/GPX4 axis.
To simulate heart failure coupled with kidney fibrosis, the transverse aortic constriction model was employed. Respectively, 120, 60, and 30 mL/kg doses of GXN were administered by tail vein injection. A positive control, telmisartan, was given orally at a dose of 61 milligrams per kilogram. Cardiac ultrasound assessments of ejection fraction (EF), cardiac output (CO), and left ventricular volume (LV Vol), along with pro-B-type natriuretic peptide (Pro-BNP), serum creatinine (Scr), collagen volume fraction (CVF), and connective tissue growth factor (CTGF), were evaluated and their variations analyzed, offering a comparative view of cardiovascular and renal health. Changes in endogenous kidney metabolites were elucidated through the implementation of metabolomic methodology. Furthermore, the kidney's levels of catalase (CAT), xanthine oxidase (XOD), nitric oxide synthase (NOS), glutathione peroxidase 4 (GPX4), the x(c)(-) cysteine/glutamate antiporter (SLC7A11), and ferritin heavy chain (FTH1) were determined with precision. Ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS) was also used to analyze the chemical makeup of GXN, and network pharmacology was employed to predict possible pathways and the active components of GXN.
For model mice treated with GXN, cardiac function indicators, including EF, CO, and LV Vol, and kidney functional indicators, such as Scr, CVF, and CTGF, showed varying degrees of improvement, accompanied by a reduction in kidney fibrosis. 21 differential metabolites were observed to be participating in pathways like redox regulation, energy metabolism, organic acid metabolism, and nucleotide metabolism. Redox metabolic pathways, such as aspartic acid, homocysteine, glycine, serine, methionine, purine, phenylalanine, and tyrosine metabolism, were identified as being core pathways regulated by GXN. Subsequently, GXN was observed to augment CAT levels, along with a notable upregulation of GPX4, SLC7A11, and FTH1 expression in the kidney. GXN's influence extended to effectively decreasing the levels of XOD and NOS in the kidney, in addition to other effects. Besides this, an initial survey of GXN materials revealed the presence of 35 chemical constituents. Within the network of enzymes/transporters/metabolites impacted by GXN, GPX4 was identified as a core protein. The top 10 active ingredients displaying the strongest renal protective effects within GXN were identified as rosmarinic acid, caffeic acid, ferulic acid, senkyunolide E, protocatechualdehyde, protocatechuic acid, danshensu, L-Ile, vanillic acid, and salvianolic acid A.
Cardiac function in HF mice was demonstrably maintained, and renal fibrosis progression was effectively alleviated by GXN. This effect was mediated through the regulation of redox metabolism, particularly impacting aspartate, glycine, serine, and cystine pathways in the kidney, in conjunction with the SLC7A11/GPX4 axis. The cardio-renal benefits observed with GXN could be attributed to a multitude of components, including rosmarinic acid, caffeic acid, ferulic acid, senkyunolide E, protocatechualdehyde, protocatechuic acid, danshensu, L-Ile, vanillic acid, salvianolic acid A, and similar compounds.
GXN, in HF mice, successfully maintained cardiac function and reduced kidney fibrosis progression. This was mediated through modulation of redox metabolism of aspartate, glycine, serine, and cystine, and the SLC7A11/GPX4 pathway in the kidney. The cardio-renal protection afforded by GXN likely results from the complex interplay of multiple components, including rosmarinic acid, caffeic acid, ferulic acid, senkyunolide E, protocatechualdehyde, protocatechuic acid, danshensu, L-Ile, vanillic acid, salvianolic acid A, and numerous other compounds.
In various Southeast Asian cultures, the medicinal shrub Sauropus androgynus is employed to treat fevers.
The purpose of this research was to isolate antiviral agents from S. androgynus against the Chikungunya virus (CHIKV), a major re-emergent mosquito-borne pathogen, and to determine the mechanisms of their antiviral action.
A hydroalcoholic extract of S. androgynus leaves was tested for anti-CHIKV activity, using a method based on cytopathic effect (CPE) reduction. The extract was subjected to isolation procedures guided by activity, and the resultant pure compound was thoroughly investigated using GC-MS, Co-GC, and Co-HPTLC. The plaque reduction assay, Western blot, and immunofluorescence assays were further used to evaluate the isolated molecule's effect. Molecular dynamics (MD) simulations and in silico docking of CHIKV envelope proteins were used to elucidate the possible mechanism of action.
Through activity-guided isolation, ethyl palmitate, a fatty acid ester, was identified as the active component responsible for the promising anti-CHIKV activity found in the hydroalcoholic extract of *S. androgynus*. At a concentration of 1 gram per milliliter, EP induced a complete suppression of CPE, resulting in a substantial three-log reduction.
Following a 48-hour infection period, CHIKV replication was diminished in Vero cells. The exceptional potency of EP was clearly evident, exhibiting an EC value.
Characterized by a concentration of 0.00019 g/mL (0.00068 M) and an exceptionally high selectivity index, this material is highly sought after. Substantial reductions in viral protein expression were observed following EP treatment, and experiments regarding the time of treatment administration revealed its impact during the viral entry phase. During viral entry, a strong association of EP with the E1 homotrimer of the viral envelope, preventing fusion, was observed as a possible antiviral mechanism.
The antiviral compound EP, found within S. androgynus, effectively combats CHIKV. Ethnomedical systems commonly employ this plant for managing febrile illnesses, possibly resulting from viral infections. Our results encourage a deeper exploration of the interaction between fatty acids and their derivatives and viral diseases.
EP, a potent antiviral principle, is observed in S. androgynus to be effective against the CHIKV virus. This plant's use in treating febrile infections, potentially viral in origin, is supported by a range of ethnomedical practices. To better understand the role of fatty acids and their derivatives in viral diseases, more research is needed, according to our findings.
Pain and inflammation are frequently the primary indicators of almost any human disease. Morinda lucida's herbal extracts are employed in traditional medicine for the management of pain and inflammation. Nevertheless, the pain-relieving and anti-inflammatory properties of certain chemical components within the plant remain undisclosed.
The study intends to evaluate the analgesic and anti-inflammatory effects of iridoids from Morinda lucida, along with exploring possible mechanisms involved in these activities.
The compounds were isolated by column chromatography and further characterized using both NMR spectroscopy and LC-MS techniques. The efficacy of the compound in reducing inflammation was determined by observing carrageenan-induced paw edema. The hot plate and acetic acid-induced writhing assays were used to measure analgesic activity. Using pharmacological blockers, antioxidant enzyme assays, lipid peroxidation measurements, and docking calculations, mechanistic studies were undertaken.
At oral administration of 2 mg/kg, the iridoid ML2-2 showed an inverse dose-dependent anti-inflammatory effect, achieving a maximum of 4262%. ML2-3 exhibited a dose-dependent anti-inflammatory effect, reaching a maximum of 6452% at a 10mg/kg oral dose. At a dosage of 10mg/kg orally, diclofenac sodium demonstrated an anti-inflammatory activity of 5860%. Consequently, the analgesic actions of ML2-2 and ML2-3 (P<0.001) were 4444584% and 54181901%, respectively. In the hot plate assay, the oral administration of 10mg per kilogram, and in the writhing assay, the corresponding results were 6488% and 6744%, respectively. The effect of ML2-2 was a pronounced elevation of catalase activity. The SOD and catalase activity levels in ML2-3 were considerably increased. read more Docking studies revealed that both iridoids formed stable crystal complexes with delta and kappa opioid receptors, along with the COX-2 enzyme, exhibiting remarkably low free binding energies (G) ranging from -112 to -140 kcal/mol. Undeniably, they did not bind to the mu opioid receptor in any way. The minimum RMSD value across the majority of the positions was determined to be 2. Through various intermolecular forces, several amino acids played a role in the interactions.
The substantial analgesic and anti-inflammatory potential of ML2-2 and ML2-3 is realized through their dual action as delta and kappa opioid receptor agonists, along with amplified antioxidant activity and the inhibition of COX-2.
The substantial analgesic and anti-inflammatory capabilities of ML2-2 and ML2-3 are a consequence of their action as agonists for both delta and kappa opioid receptors, elevated antioxidant activity, and the inhibition of COX-2.
With a neuroendocrine phenotype and aggressive clinical behavior, the rare skin cancer, Merkel cell carcinoma (MCC), is noted. Sun-exposed skin is often where this begins, and its prevalence has gone up constantly over the last three decades. read more Merkel cell carcinoma (MCC) frequently involves both Merkel cell polyomavirus (MCPyV) infection and ultraviolet (UV) radiation, leading to varying molecular profiles in virus-associated and virus-unassociated cancers. read more While surgical intervention remains the primary strategy for localized tumor management, even when combined with adjuvant radiotherapy, a substantial number of MCC patients still aren't completely cured. Chemotherapy's strong association with a high objective response rate is, however, tempered by its relatively short-lived effectiveness, approximately three months at most.
Acute appendicitis: Clinical anatomy with the brand new palpation sign.
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