Body and brain growth following continuous perinatal administration of arginine- and lysine-vasopressin to the homozygous brattleboro rat

Abstract

Using a recently developed controlled-drug-delivery implantation technique, arginine-vasopressin (AVP) or lysine-vasopressin (LVP) was administered to homozygous (HOM) Brattleboro rats throughout pregnancy in order to study the influence of compensation for the deficiency of AVP on body and brain development in their HOM offspring. This mutant is retarded in both body and brain growth from the neonatal period onwards. In one subgroup the LVP-treatment was continued postnatally by means of subcutaneous implantation in the pups. AVP treatment had no growth-stimulating effect either on pup body weight at day one or on postnatal body growth, nor did it affect noticeably the day of eye opening, or a number of brain parameters measured at one month of age. LVP treatment, in contrast, resulted in higher body weights at birth, which could be maintained postnatally if the pups were reared with a Wistar foster-mother. At one month of age body as well as brain weights were still larger in the treated pups. Although cerebellar weight was larger than in untreated Brattleboro pups in this group, cerebellar DNA content or gross morphology, known to be impaired in HOM rats, were not changed. LVP treatment of the pups, as well as maternal AVP-treatment beginning on day 15 of pregnancy, had inhibiting rather than growth-stimulating effects, high-lighting the different effects created by these two peptides at different stages of development.