Differential effect of aqueous Desmodium gangeticum root extract mediated TiO

Objective To study the renal toxic effect of titanium dioxide nanoparticles (TiNPs) prepared by chemical and green route. Methods TiNPs were prepared by chemical (sol gel technique) and green route (using aqueous extract of Desmodium gangeticum root by using titanium tetraisopropoxide as precursor). Thus prepared TiNPs were characterized using UV–visible spectrophotometry, X-ray diffractometry and evaluated its renal toxic impact in different experimental models viz., Wistar rats (100 mg/kg b.wt.; oral), LLC-PK1 cells (100 mg/mL) and isolated renal mitochondria (0.25, 0.5 and 1 mg/mL). Results Compared to the chemically synthesized TiNPs, Desmodium gangeticum synthesized nanoparticles showed less nephrotoxicity, determined by elevated serum renal markers like urea (62%), creatinine (35%), aspartate aminotransferase (61%) and alanine transaminase (37%) and the result was in agreement with cellular toxicity (measured by MTT assay and lactate dehydrogenase activity). Further toxicity evaluation at the level of mitochondria showed not much significant difference in TiNPs effect between two synthetic routes. Conclusions The biochemical findings in renal tissue and epithelial cell (LLC-PK1) supported by histopathology examination and isolated mitochondrial activity showed minor toxicity with TiNPs prepared by green route (TiNP DG) than TiNP Chem.

Effect of mitochondrial potassium channel on the renal protection mediated by sodium thiosulfate against ethylene glycol induced nephrolithiasis in rat model

Purpose: Sodium thiosulfate (STS) is clinically reported to be a promising drug in preventing nephrolithiasis. However, its mechanism of action remains unclear. In the present study, we investigated the role of mitochondrial KATP channel in the renal protection mediated by STS. Materials and Methods: Nephrolithiasis was induced in Wistar rats by administrating 0.4% ethylene glycol (EG) along with 1% ammonium chloride for one week in drinking water followed by only 0.75% EG for two weeks. Treatment groups received STS, mitochondrial KATP channel opener and closer exclusively or in combination with STS for two weeks. Results: Animals treated with STS showed normal renal tissue architecture, supported by near normal serum creatinine, urea and ALP activity. Diazoxide (mitochondria KATP channel opening) treatment to the animal also showed normal renal tissue histology and improved serum chemistry. However, an opposite result was shown by glibenclamide (mitochondria KATP channel closer) treated rats. STS administered along with diazoxide negated the renal protection rendered by diazoxide alone, while it imparted protection to the glibenclamide treated rats, formulating a mitochondria modulated STS action. Conclusion: The present study confirmed that STS render renal protection not only through chelation and antioxidant effect but also by modulating the mitochondrial KATP channel for preventing urolithiasis.

Methanol extract of Desmodium gangeticum DC root mimetic post-conditioning effect in isolated perfused rat heart by stimulating muscarinic receptors

OBJECTIVE@#To evaluate pharmacological mimetic action of herbal extract Desmodium gangeticum (DG) roots on ischemia reperfusion injury.@*METHODS@#With the help of Langendroff perfusion technique, ischemic post condition (POC) mimetic action of DG methanol root extract was evaluated and compared by using standard drugs that acts as muscarinic receptor agonist and antagonist, namely acetylcholine (Ach) and atropine (Atr) respectively in an isolated rat heart.@*RESULTS@#The physiological parameters like left ventricular developed pressure, end diastolic pressure and working index of isolated rat heart showed significant recovery in DG root extract administrated rat heart, similar to the recovery by POC. Kymogram results showed muscarinic receptor agonist like action for DG methanol root extract, confirmed in rat heart by muscarnic receptor agonist (acetylcholine) and anatoginst (atropine). Administration of DG root extract prior to reperfusion showed better antioxidant status in myocardial tissue homogenate and mitochondrial, complemented by the levels of cardiac specific marker proteins in myocardial tissue and perfusate. Even though DG methanol root extract mimics its action similar to that of Ach, the myocardial protection mediated by the extract was superior to Ach, due to the presence of antioxidants in the crude extract.@*CONCLUSIONS@#DG methanol root extract provides myocardial protection towards IRI by stimulating muscarinic receptors.