B Vitamins Supplementation Can Improve Cognitive Functions and May Relate to the Enhancement of Transketolase Activity in A Rat Model of Cognitive Impairment Associated with High-fat Diets.
Study Goal
To determine if B vitamin treatment reduces cognitive impairment linked to high-fat diets in rats and modulates transketolase (TK) expression and activity.
Results Summary
B vitamin supplementation improved cognitive performance in rats on high-fat diets and increased TK expression in erythrocytes and hypothalamus compared to untreated controls. The combined B vitamin regimen (H3) showed the most significant effects.
Population
Rats fed high-fat diets
Effective Dosage
H1: 100 mg/kg BW thiamine, 100 mg/kg BW riboflavin, 250 mg/kg BW niacin daily; H2: 100 mg/kg BW pyridoxine, 100 mg/kg BW cobalamin, 5 mg/kg BW folate daily; H3: combined H1 and H2 regimens daily
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
high-fat diet | increase | body weight and fat mass | group H0 rats | - | exhibited greater increases | #1 |
B vitamin treatment | increase | spatial and memory capabilities | rats | - | was associated with significant improvements | #2 |
B vitamin supplementation | increase | TK expression in erythrocytes and hypothalamus | treated animals | - | was associated with elevated | #3 |
B vitamin | decrease | cognitive deficits | rat model of obesity | - | can modulate hypothalamic TK activity to reduce the severity | #4 |
B vitamin supplementation | decrease | cognitive dysfunction | clinical settings associated with high-fat diets | - | may be a beneficial method for reducing | #5 |
OBJECTIVE: To determine whether B vitamin treatment was sufficient to reduce cognitive impairment associated with high-fat diets in rats and to modulate transketolase (TK) expression and activity. METHODS: To test this, we separated 50 rats into five groups that were either fed a standard chow diet (controls) or a high-fat diet (experimental groups H0, H1, H2, and H3). H0 group animals received no additional dietary supplementation, while H1 group animals were administered 100 mg/kg body weight (BW) thiamine, 100 mg/kg BW riboflavin, and 250 mg/kg BW niacin each day, and group H2 animals received daily doses of 100 mg/kg BW pyridoxine, 100 mg/kg BW cobalamin, and 5 mg/kg BW folate. Animals in the H3 group received the B vitamin regimens administered to both H1 and H2 each day. RESULTS: Over time, group H0 exhibited greater increases in BW and fat mass relative to other groups. When spatial and memory capabilities in these animals were evaluated via conditioned taste aversion (CTA) and Morris Water Maze (MWM), we found B vitamin treatment was associated with significant improvements relative to untreated H0 controls. Similarly, B vitamin supplementation was associated with elevated TK expression in erythrocytes and hypothalamus of treated animals relative to those in H0 (P<0.05). CONCLUSION: Together, these findings suggest B vitamin can modulate hypothalamic TK activity to reduce the severity of cognitive deficits in a rat model of obesity. As such, B vitamin supplementation may be a beneficial method for reducing cognitive dysfunction in clinical settings associated with high-fat diets.