Intermediate filaments in nervous tissues

Intermediate filaments have been isolated from rabbit intradural spinal nerve roots by the axonal flotation method. This method was modified to avoid exposure of axons to low ionic strength medium. The purified filaments are morphologically 75-80 percent pure. The gel electrophoretogram shows four major bands migrating at 200,000, 145,000, 68,000, and 60,000 daltons, respectively. A similar preparation from rabbit brain shows four major polypeptides with mol wt of 200,000 145,000, 68,000, and 51,000 daltons. These results indicate that the neurofilament is composed of a triplet of polypepetides with mol wt of 200,000, 145,000, and 68,000 daltons. The 51,000-dalton band that appears in brain filament preparations as the major polypeptide seems to be of glial origin. The significance of the 60,000- dalton band in the nerve root filament preparation is unclear at this time. Antibodies raised against two of the triplet proteins isolated from calf brain localize by immunofluorescence to neurons in central and peripheral nerve. On the other hand, an antibody to the 51,000-dalton polypeptide gives only glial staining in the brain, and very weak peripheral nerve staining. Prolonged exposure of axons to low ionic strength medium solubilizes almost all of the triplet polypeptides, leaving behind only the 51,000- dalton component. This would indicate that the neurofilament is soluble at low ionic strength, whereas the glial filament is not. These results indicate that neurofilaments and glial filaments are composed of different polypeptides and have different solubility characteristics.     

Effects of feed restriction during organogenesis on embryo-fetal development in rabbit

BACKGROUND: Appropriate maternal nutrition and body weight gain during pregnancy is well established as a major factor in healthy prenatal development in humans. Given the role of nutrition and body weight gain in normal development, pharmaceuticals intended to reduce appetite and promote weight loss will generate developmental toxicity data that may be challenging to interpret. To aid with this, the effects of feed restriction, and subsequent reduction in maternal body weight gain, on embryo-fetal development was investigated in the rabbit. METHODS: Groups of 15 pregnant New Zealand White rabbits were offered 150 (control), 110, 75, 55, 35, and 15 g feed/day from gestation day (GD) 7-19. Cesarean sections were carried out on GD 29 and fetuses were examined for external, visceral, and skeletal development. RESULTS: Maternal body weights at the end of the feed restriction period (GD 20) were 0.97, 0.98, 0.93, 0.94, and 0.86 x control for the 110, 75, 55, 35, and 15 g feed/day groups, respectively. Only at 15 g feed/day was there a net maternal body weight loss (the GD 20 body weight was 0.93 x the GD 6 body weight) at the end of the feed restriction period. Six does aborted in the 15 g feed/day group; there were no other abortions associated with feed restriction. Fetal body weight was significantly reduced at 75, 55, 35, and 15 g feed/day (0.95, 0.90, 0.86, and 0.84 x control, respectively). There were no external or visceral malformations or variations, and no skeletal malformations associated with feed restriction. The incidence of fetuses with sternebrae 5 or 6 unossified was increased at feed levels < or = 75 g/day. At a feed level of 35 g/day there was an increase in unossified metatarsals and metacarpals, and an increase in the number of fetuses with a reduced number of caudal vertebrae ossified. Although these findings were not increased at a feed level of 15 g/day, the lack of dose response was likely due to increased abortion and subsequent decrease in fetuses available for evaluation at 15 g feed/day. CONCLUSION: These data demonstrate that feed restriction to feed levels that produce substantial reductions in maternal body weight gain can result in developmental toxicity expressed by abortion, reduced fetal weight, and alterations in ossification. Abortion only occurred when feed was restricted to an amount that produced maternal body weight loss (15 g feed/day) whereas reduced fetal weight and increased incidence of fetuses with unossified sternebrae, metatarsals, metacarpals, or caudal vertebrae were noted at feed levels of < or = 75 g/day. There were no fetal malformations associated with feed restriction.     

Postnatal closure of membranous ventricular septal defects in Sprague-Dawley rat pups after maternal exposure with trimethadione

BACKGROUND: Congenital membranous ventricular septal defects (VSD) have been shown to close during postnatal development in rats [Solomon et al., Teratology 55:185-194, 1997]. Although they may differ in size, spontaneous and treatment-related VSD are histologically similar; however, the postnatal fate of treatment-induced VSD is not known. The objective of this study was to determine if treatment-induced VSD persist throughout postnatal development. METHODS: Groups of 40 female rats were given oral doses of trimethadione (TMD) at 400 mg/kg/day (200 b.i.d.) or 600 mg/kg/day (300 b.i.d.) on Gestation Days (GD) 9 and 10. Twenty dams in each group were designated for Cesarean section and 20 were allowed to deliver and rear their offspring to Postnatal Day (PND) 21. The integrity of the ventricular septum was evaluated in fetuses (GD 21) and pups (PND 21). RESULTS: The incidence of membranous VSD was 0.6, 7.6, and 49.8% per litter in the Control, 400, and 600 mg/kg groups, respectively, on GD 21. Both the incidence and severity of VSD increased with dose. The VSD at 400 mg/kg were small in size and initially detected by the presence of blood flowing through the defect from the closed right ventricle. In the 600 mg/kg dose group, the VSD, although still membranous, were larger and more readily detected without the need to examine the blood flow. At 600 mg/kg, not only were the VSD larger than those in the Control or the 400 mg/kg group, 10.1% per litter of the affected fetuses had other vessel anomalies associated with the VSD, which were incompatible with pup survival. On PND 21, VSD was noted in 0.3, 0, and 6.4% per litter evaluated in the Control, 400, and 600 mg/kg groups, respectively. This demonstrates that the small, isolated treatment-related VSD can resolve postnatally; however, the closure of the larger or more severe VSD may be prolonged or may not occur at all. Although TMD exposure reduced group mean fetal weights at both dose levels, there was no difference between the mean weight of fetuses with VSD and those fetuses without VSD in the same group. CONCLUSION: Treatment-induced VSD close postnatally, and appears to be a delay in cardiac development not associated with fetal weight. The timing of closure and survivability during closure is dependent on the severity of the VSD. Further characterization of the two sizes of VSD may provide diagnostic clarity; however, the current data support the smaller VSD as a variation with no significant impact on viability and growth, and the more severe VSD to be a malformation.     

Impaired reproduction in adult male, but not female, rats following juvenile treatment with the aromatase inhibitor, exemestane

BACKGROUND: Exemestane is an irreversible steroidal inhibitor of cytochrome‐P450 aromatase required for estrogen synthesis. The safety of the drug in the pediatric population, particularly in males, has not previously been evaluated. Given the increased interest in treating children with aromatase inhibitors, we undertook a study in rats to assess the potential for exemestane to alter reproductive development and function when administered to juveniles. METHODS: Male and female rats were treated with exemestane at doses anticipated to produce exposures approximately 2‐ and 35‐fold the expected clinical plasma exposure in young adult males during the period of reproductive maturation. After maturation, treated rats were mated to evaluate the potential impact on reproductive function. RESULTS AND CONCLUSION: There were no effects on sexual maturation in either sex or on female reproductive function. Treatment of juvenile male rats caused increased cohabitation time and decreased copulation rates; pregnancy rates and litter size were not affected in rats that mated. Decreased testis (10–15%) and epididymis (20–30%) weights, and decreased Sertoli cell numbers were noted at all doses. This indicates that exemestane can reduce Sertoli cell proliferation during maturation. The sensitive window for this effect is expected to be limited to the period of Sertoli cell proliferation, which is completed by around postnatal day 15 in rats and before puberty in humans. Treatment beginning at a later time relative to the window for Sertoli cell proliferation or for a longer duration is not expected to have additional adverse effect as the effect was not shown to be degenerative. Birth Defects Res (Part B) 92:304–313, 2011. © 2011 Wiley‐Liss, Inc.     

Toxicology and toxicokinetics of oral pantoprazole in neonatal and juvenile dogs

BACKGROUND: Pantoprazole is an irreversible inhibitor of H⁺/K⁺ adenosine triphosphatase proton pump. This study encompassed the period of postnatal stomach development to determine whether immature animals are uniquely sensitive to progression of PPI‐induced enterochromaffin‐like cell hyperplasia. METHODS: Pantoprazole was administered to beagle dogs at 3, 10, or 30 mg/kg/day (10/sex/group) from PND 1 for 13 weeks, subsets of animals had a 13‐week recovery period. Clinical signs, body weights, growth, clinical chemistry, and neurobehavioral endpoints were assessed. Selected organs were weighed and histologically examined. RESULTS: There were no effects on body weights, growth, landmarks of physical and reproductive development, or sensory and neurobehavioral function. Cholesterol and triglyceride levels were increased at 10 and 30 mg/kg/day, but resolved during the recovery period. Stomach weight was increased at all doses, but after recovery the differences in stomach weights resolved for females although male stomach weights remained slightly increased. Pantoprazole‐related microscopic findings in the stomach consisted of increased mucosal height, glandular necrosis, and glandular dilation at all doses; and ECL cell hyperplasia, parietal cell vacuolation, and atrophy of chief cells are noted at 10 and/or 30 mg/kg/day. There was a partial recovery of these microscopic changes indicated by a decreased incidence and/or severity of increased mucosal height, glandular necrosis, ECL cell hyperplasia, and chief cell atrophy, and complete resolution of other microscopic observations. CONCLUSION: Pantoprazole administered to beagles from PND 1 for 13 weeks resulted in findings similar to those in adult dogs and juvenile dogs, which showed no increase in severity or progression of ECL hyperplasia. Birth Defects Res (Part B) 92:345–352, 2011. © 2011 Wiley‐Liss, Inc.     

Intraspecific DNA divergence in Drosophila: a study on parthenogenetic D. mercatorum

Drosophila mercatorum is a species that can give rise to totally homozygous parthenogenetic strains. Using the technique of DNA-DNA hybridization, we have assessed the overall single-copy DNA differences among three independently derived strains that represent three independent genomes. Among strains, the average difference between homoduplex and heteroduplex median melting temperatures is 1.3 degrees C. This represents greater than or equal to 1.3% base-pair mismatch. Normalized percent of reassociation indicates further genetic differences, probably reflecting insertion/deletion differences and/or regions of the genome that are highly variable. This overall intraspecific genetic variation is higher than generally is thought to exist but is consistent with growing evidence of extensive DNA diversity within species of invertebrates. High intraspecific DNA variation may be correlated with rapid phyletic rates of evolution. Because of this high level of variation, the technique of DNA-DNA hybridization may be used to study intraspecific variation in invertebrates but is limited in its usefulness for higher systematic studies.      

Have grass carp driven declines in macrophyte occurrence and diversity in the Vaal River,South Africa?

The Vaal River, South Africa, historically had a rich diversity of native submerged macrophytes with at least 13 species from 5 families recorded. Over the past 10 years there has been a noticeable reduction in the occurrence and diversity of submerged macrophytes in the river. It is possible that this is linked to the recent increase in the populations of invasive alien grass carp Ctenopharyngodon idella Cuvier & Valenciennes (Cyprinidae) in the river, where populations have been a concern since 2005. Grass carp invasions worldwide have been shown to have severe impacts on macrophyte biodiversity and ecosystem functioning. This fish is an aggressive feeder on submerged macrophytes, as well as being an ecosystem engineer that can change water and sediment chemistry.