In-vitro and in-vivo functional observation studies to establish therapeutic potential of alpha-ketoglutarate against methotrexate induced liver injury.

BACKGROUND: Methotrexate (MTX) is widely used in chemotherapy but its associated hepatotoxicity is a major complication, limiting its use. This study evaluates possible therapeutic effect of oral alpha-ketoglutarate (AKG) supplementation against MTX-induced hepatotoxicity. METHODS: HepG2 cells were used to evaluate in-vitro cyto-protection conferred by AKG against MTX induced cytotoxicity. For in-vivo animal study, rats were divided into three groups. Group-I served as control. Group-II animals were administered single intraperitoneal injection of MTX (20 mg/kg/body weight), while Group-III received MTX as in group-II followed by oral AKG (2 gm/kg body weight) for 5 days. 99mTc-Mebrofenin hepatobiliary study was performed under a gamma camera to determine real time functional status of rats' livers. Multiple parameters concerning hepatic mebrofenin uptake and excretion, including Tpeak and T1/2 peak in control and treated animals were determined. Biochemical analysis of the liver homogenate in terms of hepatic enzyme activities in serum, antioxidant status, tissue factor activity, tissue collagen content and histological analysis of the liver tissue were also done. RESULTS: AKG supplementation significantly reversed MTX induced derangement in activities of serum liver enzymes [ALT and ALP (p = 0.003); AST (p = 0.005)], antioxidant status [LPO and GSH (p = 0.005); CAT (p = 0.004)], tissue factor activity (p = 0.005) and tissue collagen content (p = 0.005). Functional imaging confirmed that hepatic retention and fractional biliary excretion were significantly abnormal in MTX treated group (Tpeak: 234 s ± 40 s; T1/2 peak: 846sec ± 32sec) as compared to AKG supplemented group (Tpeak: 144 s ± 35sec; T1/2peak: 468sec ± 27sec). Hepatic extraction fraction (HEF) was 92.2 ± 1.8%, 48.7 ± 2.6% and 69.8 ± 4.3% in control, MTX and AKG supplemented rats respectively. CONCLUSION: 99mTc-mebrofenin imaging strongly suggests therapeutic action of AKG in protecting liver damage by MTX in rats. Functional imaging parameters correlated well with biochemical and histopathological findings.

Alpha-ketoglutarate mediated hepatoprotection against alcohol induced toxicity: in vivo functional observation studies in Sprague Dawley rats using gamma scintigraphy.

Alcohol is the most abused psychoactive substance and known hepatotoxicant. Present study elucidates possible therapeutic effect of oral alpha-ketoglutarate (AKG) supplementation against alcohol induced hepatic dysfunction, using biochemical, histopathological and most importantly, in vivo functional imaging approaches. Animals were divided into three groups of 6 animals each. Group-I (control): Normal saline; Group-II: 20% (v/v) solution of ethanol (5 ml/day) intragastrically using oral gavage for 2 months. Group-III: ethanol treatment as in group-II along with AKG supplementation (2g/kg/bw; intragastrically using oral gavage for 2 months). In vivo hepatobiliary scintigraphy was performed in all animals using 99mTc-mebrofenin (99mTc-MEB) as radiotracer to determine changes in (a) Hepatic extraction fraction (HEF), for quantification of radiotracer uptake, (b) Time to reach maximum hepatic uptake (Tpeak), and (c) Time for hepatic uptake to reduce by 50% (T1/2peak). Biochemical (alanine aminotransferase, aspartate aminotransferase, reduced glutathione, superoxide dismutase, catalase, and lipid peroxidation) and histological parameters were also studied. Hepatic uptake and excretion kinetics using 99mTc-MEB scintigraphy showed prompt 99mTc-MEB clearance from liver in control group (HEF: 91.26 ± 2.32; Tpeak: 143 ± 23 sec; T1/2peak: 434 ± 41 sec), while it was significantly abnormal in ethanol group and showed less efficient radiotracer accumulation (HEF: 62.72 ± 5.6; Tpeak: 201 ± 33 sec; T1/2peak: 542 ± 52 sec). Supplementation of AKG along with ethanol significantly improved liver function (HEF: 76.42 ± 5.3; Tpeak: 155 ± 34 sec; T1/2peak: 455 ± 22 sec). Biochemical and histopathology parameters were correlative to findings of functional imaging study. Results strongly indicate hepatoprotective potential of AKG against alcohol-induced hepatic injury. Study further proposes the use of in vivo hepatobiliary scintigraphy for high throughput screening of other hepatoprotectants.

Acute and sub acute toxicity and efficacy studies of Hippophae rhamnoides based herbal antioxidant supplement.

OBJECTIVES: Present study was carried out to evaluate acute and subacute toxicity and efficacy of Seabuckthorn (Hippophae rhamnoides) based herbal antioxidant supplement (HAOS). MATERIALS AND METHODS: In vivo toxicity studies were performed in male balb 'C' mice by oral administration. Acute toxicity study was done at doses ranging from 2000 to 10 000 mg/ kg while in subacute studies, HAOS was given at doses of 2000, 4000, and 8000 mg/kg body weight. Animals were observed for any toxic sign and symptoms periodically. At completion of study animals were sacrificed; their hematological, biochemical parameters were analyzed and histopathology of vital organs was done. In vivo efficacy studies in human volunteers were done and the levels of vitamin A and Vitamin C in blood samples were analyzed in comparison to a similar commercially available formulation. RESULTS: No mortality and any clinical signs of toxicity were found in HAOS administered group of animals. There were no significant alterations in hematological and biochemical parameters. Histopathological analysis of vital organs showed normal architecture in all the HAOS administered groups. Human studies showed an increase of 32% and 172% in Vitamin A and Vitamin C levels respectively in term of bioavailability. CONCLUSION: The data obtained indicate no toxicity of this antioxidant supplement up to the highest dose studied. Efficacy in terms of increased bioavailability of vitamin A and C in human volunteers indicates the clinical usefulness of the supplement.