D-Thiaproline

Cardiometabolic syndrome has been linked with dietary modification. Therefore, we investigated the effects of D-ribose-L-cysteine (DRLC) in rats fed with high fructose high fat (HFHF) diet. Twenty rats (n = 5), divided into 4 groups were concurrently exposed to HFHF and/or DRLC (250 mg/kg, p.o) during the 8 weeks study. The result showed that compared to control group, HFHF group had significant impairment in lipid and glucose homeostasis, increased cardiac xanthine oxidase, systolic blood pressure, heart rate, %body weight change and fluid intake. Also, there were significant reductions in HDL-C, cardiac (GPX, NO&GGT), feed intake and relative heart weight in the latter, relative to the former. However, there were no significant differences in most of the observed physical and biochemical changes in HFHF + DRLC group compared to control. DRLC alone did not disrupt the level of biomarkers. Conclusively, DRLC prevented the manifestation of oxidative stress and cardiometabolic syndrome in HFHF-diet fed rats.

Lead is a common environmental toxicant associated greatly with hematological and hormonal imbalance, biochemical alterations, and reproductive abnormalities. This study was conducted to evaluate the effects of D-ribose-L-cysteine (DRLC) on hematobiochemical and reproductive toxicity associated with lead acetate exposure in adult female Wistar rats. Thirty-two adult female Wistar rats (165 ± 20 g) were divided into four groups (n = 8). Group A received normal saline as placebo; Group B received 100 mg/kg BW of lead acetate only; Group C received 100 mg/kg BW of lead acetate and 10 mg/kg BW DRLC (low dose); Group D received 100 mg/kg BW of lead acetate and 30 mg/kg BW of DRLC (high dose). All administration was done via oral gavage for 42 days, thereafter animals were sacrificed; serum was obtained from the blood collected for analysis, ovaries, and uterus was harvested for analysis. The lead acetate only group showed a significant difference in hematological indices relative to control. Additionally, there was a significant decrease in body weight, sodium dismutase, catalase, reduced glutathione, progesterone with a corresponding increase in ovarian weight, MDA, FSH, and LH among the lead acetate only group relative to the control. Histological observation showed atretic antral follicles, with detached granulosa cells, pyknotic nuclei in the granulosa wall in the ovaries of the lead-exposed only group compared to the control. Co-administration of DRLC and lead attenuate the toxicity of lead exposure by restoring the hematological values, biochemical parameters, hormone profile, and morphology of the ovary. Exposure to lead acetate causes deleterious toxicity to hematological and reproductive functions which were ameliorated DRLC supplementation through its antioxidant mechanisms.

Background: Current evidences have implicated copper in amyloid aggregation that trigger the downstream oxidative stress-mediated neuroinflammation that characterized memory deterioration in patients with Alzheimer's disease (AD). Thus, this study was designed to evaluate the effect of D-Ribose-L-Cysteine (DRLC), a potent antioxidant agent, on copper sulfate (CuSO4)-induced memory deterioration and the biochemical mechanisms underpinning its action in mice. Methods: Male Swiss mice were randomly distributed into 5 groups (n = 10/group). Mice in group 1 were given distilled water (control), group 2 CuSO4 (100 mg/kg) while groups 3-5 were pretreated with CuSO4 (100 mg/kg) 30 min before administration of DRLC (10, 25 and 50 mg/kg). Treatments were given through oral gavage, daily for 28 days. Memory function was evaluated on day 28 using Y-maze test. The isolated liver and brain tissues were then processed for oxidative stress biomarkers, and proinflammatory cytokines [tumor necrosis factor- α (TNF-α) and interleukin-6)] assays. Brian acetylcholinesterase (AChE) and liver enzymes [aspartate aminotransferase (AST) and alanine aminotransferase (ALT) activities were also determined. Results: DRLC reversed memory impairment and dysregulated levels of malondialdehyde, glutathione, nitrite and glutathione S-transferase in the liver and brain tissues of mice pretreated with CuSO4. The increased proinflammatory cytokines concentrations in the liver and brain tissues of mice pretreated with CuSO4 were reduced by DRLC. The elevated brain AChE and liver enzymes activities induced by CuSO4 were also reduced by DRLC. Conclusion: Taken together, these findings suggest that DRLC attenuates CuSO4-induced memory dysfunctions in mice through enhancement of antioxidative pathway, inhibition of pro-inflammatory cytokines and augmentation of liver function.