Mitochondrial metabolism impairment in muscle fibres of rats chronically intoxicated with Senna occidentalis seeds.
Study Goal
The researchers aimed to determine if chronic treatment with S. occidentalis seeds induces mitochondrial myopathy in rats and if histological changes correlate with seed intake.
Results Summary
Rats fed S. occidentalis seeds showed progressive mitochondrial metabolism impairment, with higher seed concentrations (3%) causing more COX-negative muscle fibers and decreased SDH and NADH-tr activity. The effects were dose-dependent.
Population
21-day-old rats
Effective Dosage
1%, 2%, and 3% diet concentrations
Duration
Not specified (chronic administration implied)
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
chronic administration of S. occidentalis seeds | increase | mitochondrial myopathy | hens | - | was found to induce | #1 |
chronic treatment with S. occidentalis seeds | increase | mitochondrial myopathy | rats | - | would induce | #2 |
S. occidentalis seeds at 1% diet concentration | increase | COX-negative muscle fibers in the pectoralis major muscle | rats | only a few | had | #3 |
S. occidentalis seeds at 3% diet concentration | increase | COX-negative fibers | rats | a greater number | had | #4 |
S. occidentalis seeds at 2% diet concentration | increase | COX-negative fibers | rats | an intermediate number | had | #5 |
S. occidentalis seeds at 2% diet concentration | decrease | Activity of SDH and NADH-tr | rats | - | were decreased | #6 |
S. occidentalis seeds at 3% diet concentration | decrease | Activity of SDH and NADH-tr | rats | - | were decreased | #7 |
S. occidentalis seeds | increase | progressive mitochondrial metabolism impairment | rats | - | can be produced | #8 |
The chronic administration of S. occidentalis seeds was found to induce a mitochondrial myopathy in hens. This study was undertaken to determine if the chronic treatment with S. occidentalis seeds of rats (as a mammalian model) would induce a mitochondrial myopathy similar to those described in humans and to determine if the histological changes could be correlated with the amount of ingested seeds. Twenty-one days old rats were fed S. occidentalis seeds at different diet concentrations (1, 2, 3%). Rats fed 1% S. occidentalis seeds had only a few COX-negative muscle fibers in the pectoralis major muscle. Rats fed 3% Senna occidentalis seeds had a greater number of COX-negative fibers. Rats fed 2% had an intermediate number of COX-negative fibers. Activity of SDH and NADH-tr were decreased in rats of groups 2% and 3%. Our data indicate that a progressive mitochondrial metabolism impairment can be produced in rats fed S. occidentalis seeds and that this impairment can be correlated with the amount of ingested seeds.