Obesity causes weight increases in prepubertal and pubertal male offspring and is related to changes in spermatogenesis and sperm production in rats

The effect of obesity on testicular activity in prepubertal and pubertal rats was investigated in the present study. Obesity was induced in adult females by feeding a high-calorie diet (HCD). These females were mated with normal males and were fed an HCD during pregnancy and lactation. The male offspring born to obese mothers and fed an HCD after weaning were found to be obese. Seminiferous tubules of offspring from control mothers (OCM) and offspring from HCD-fed mothers (OHCDM) had the same set of germ cells at different age intervals, namely spermatogonia, leptotene spermatocytes, zygotene spermatocytes, pachytene spermatocytes and round and elongated spermatids on postnatal days (PND) 7, 13, 17, 24 and 36, and on the day of preputial separation, respectively. However, there was a significant decrease in round and elongated spermatids and the epididymal sperm count, coupled with a significant decrease in testosterone and an increase in leptin serum concentrations in OHCDM compared with OCM. These results show that obesity in prepubertal rats does not affect the age-dependent appearance of germ cells according to developmental hierarchy, but it does interfere with spermatid formation, resulting in a reduced sperm count, which may be due to a deficiency of testosterone mediated by hyperleptinaemia

Cyclophosphamide, a cancer chemotherapy drug-induced early onset of reproductive senescence and alterations in reproductive performance and their prevention in mice

Although, cyclophosphamide (CP) treatment is known to cause degeneration of the ovarian follicular reserve, which may have a serious consequence of the onset of early reproductive senescence, thus far there is no experimental study either to demonstrate CP-induced early onset of reproductive senescence or its prevention. Intraperitoneal administration (ip) of CP 100 mg/kg body weight (bw)/mouse] resulted in a drastic reduction in reproductive life span as shown by the onset of reproductive senescence at a significantly early age (258 days) compared to controls (349 days), whereas treatment with the root extract of the herbDecalepis hamiltonii(DH) (200 mg/Kg bw/day for 7 days), a cocktail of anti-oxidants prior to CP administration maintained normal reproductive life span in mice. Further, the CP treated mice showed a significant increase in pre-coital interval and a significant reduction in parturition index coupled with regressive changes in the uterine endometrium, whereas DH co-treatment prevented these changes. The results for the first time, demonstrate that the ovarian toxicity of CP could be prevented by an anti-oxidant to maintain a normal reproductive life span as well as reproductive outcome using mice model

Cyclophosphamide, a cancer chemotherapy drug-induced early onset of reproductive senescence and alterations in reproductive performance and their prevention in mice

Although, cyclophosphamide (CP) treatment is known to cause degeneration of the ovarian follicular reserve, which may have a serious consequence of the onset of early reproductive senescence, thus far there is no experimental study either to demonstrate CP-induced early onset of reproductive senescence or its prevention. Intraperitoneal administration (ip) of CP [100 mg/kg body weight (bw)/mouse] resulted in a drastic reduction in reproductive life span as shown by the onset of reproductive senescence at a significantly early age (258 days) compared to controls (349 days), whereas treatment with the root extract of the herb Decalepis hamiltonii (DH) (200 mg/Kg bw/day for 7 days), a cocktail of anti-oxidants prior to CP administration maintained normal reproductive life span in mice. Further, the CP treated mice showed a significant increase in pre-coital interval and a significant reduction in parturition index coupled with regressive changes in the uterine endometrium, whereas DH co-treatment prevented these changes. The results for the first time, demonstrate that the ovarian toxicity of CP could be prevented by an anti-oxidant to maintain a normal reproductive life span as well as reproductive outcome using mice model