Vitamin C Depletion in Prenatal Guinea Pigs as a Model of Lissencephaly Type II.

Humans and guinea pigs are unable to produce vitamin C, with deficiency resulting in a well-known disorder of collagen synthesis. Pial basement membrane structure preservation is essential in the proper migration of neurons. In our study, intrauterine deprivation of vitamin C in guinea pig fetuses led to a collagen synthesis disorder, weakness, and finally a breach of pial basement membrane. We found excessive migration of the external germinal layer cells into the subarachnoid space of the cerebellum through defects in the pial basement membrane. The changes ranged from focal rupture of pial basement membranes to their complete disintegration. The loss of proper folia formation resulted in macroscopically visible flattening of the cerebellar surface. Different grades of dysplastic changes in the folia of the cerebellar cortex were observed in 2 experimental groups assigned different limits to mark the time of commencement and duration of vitamin C deprivation. The most severe form of dysplastic changes was characterized by marked irregularity of the cerebellar cortex similar to that in lissencephaly type II. Thus, prenatal vitamin C deficiency represents a novel animal model to study the effects of collagen synthesis on development of breaches in the pial basement membrane, disordered migration of neurons, dysplasia of cerebellar cortex, and the pathogenesis of lissencephaly.

Industrial hemp decreases intestinal motility stronger than indian hemp in mice.

BACKGROUND: Indian hemp has shown beneficial effects in various gastrointestinal conditions but it is not widely accepted due to high content of tetrahydrocannabinol resulting in unwanted psychotropic effects. AIM: Since industrial hemp rich in cannabidiol lacks psychotropic effects the aim of research was to study the effects of industrial hemp on intestinal motility. MATERIALS AND METHODS: Animals were randomly divided in six groups (each group consisting of 6 animals): Control group, Cind group - receiving indian hemp infuse for 20 days, Cids group-receiving industrial hemp infuse for 20 days, M group - treated with single dose of morphine (5 mg/kg i.m.) Cind+M group - treated with indian hemp infuse and single dose of morphine (5 mg/kg i.m.), Cids+M - treated with industrial hemp infuse and single dose of morphine (5 mg/kg i.m.). On the 20th day of the study animals were administered charcoal meal, and were sacrificed 35 minutes after administration. Intestinal motility was estimated according to distance between carbo medicinalis and cecum in centimeters. RESULTS: Decrease of intestinal motility in animals treated with indian hemp infuse was not significant compared to controls and it was smaller compared to animals treated with morphine (Indian hemp =15.43±10.5 cm, morphine = 20.14±5.87 cm). Strongest decrease of intestinal motility was recorded in animals treated with industrial hemp infuse, and it was significant compared to controls and morphine (industrial hemp = 26.5±9.90 cm, morphine = 20.14±5.87 cm; p < 0.005). CONCLUSIONS: Although not completely without psychotropic activity cannabidiol could be a potential replacement for tetrahydrocannabinol. Since industrial hemp infuse rich in cannabidiol reduces intestinal motility in healthy mice cannabidiol should be further evaluated for the treatment of intestinal hypermotility.

Pharmacodynamic action of a commercial preparation of the mushroom Coprinus comatus in rats.

The pharmacodynamic effect of a 7-day oral treatment with a suspension of Coprinus comatus at doses of 0.835 and 1.670 g/kg in rats was studied. Changes in body weight, bile secretion and hypoglycaemic action were examined together with antipyretic activity and paw oedema tests. Such treatments resulted in a significantly lower increase in the body weight of tested animals (15.73 ± 8.36 g/rat in the untreated group, 8.44 ± 8.23 g/rat (p < 0.05) and 3.18 ± 7.93 g/rat (p < 0.05), for C. comatus 0.835 and 1.67 g/kg, respectively). Hypoglycaemic action was evident only in the glucose load test (6.79 ± 0.61 to 9.70 ± 1.16 (p < 0.05) in the untreated group and 6.47 ± 0.35 to 7.27 ± 0.76 for C. comatus 1.67 g/kg). Histological examination of pancreas cross-sections suggested certain protective functions of the mushroom suspension in alloxan poisoning. In the antipyretic test, a significantly lower increase in body temperature was observed in the mushroom-pretreated rats. In the paw oedema test, no decrease in oedema induced by formalin injection was observed following treatment with C. comatus.