Ensaios preliminares em ratas wistar com extrato hidroetanólico de calunga (Simaba ferruginea St. Hil.) v.o., nas fases gestacionais de implantação, organogênese e período fetal: interferências na prole

RESUMO A susceptibilidade dos conceptos a agentes químicos varia muito em cada estágio do desenvolvimento. Devido a isto, a maioria dos países passou a exigir a análise do potencial para afetar todos os aspectos da reprodução (espermatogênese, acasalamento, prenhez, parto e lactação) para o desenvolvimento de novos medicamentos e fitoterápicos. O presente trabalho objetivou avaliar o efeito do extrato hidroetanólico de Simaba ferruginea St. Hil (calunga) (EHSF) v.o., em ratas da linhagem Wistar tratadas durante a prenhez e verificar a interferência no desenvolvimento intra-uterino da prole. As ratas foram tratadas com EHSF 50 e 100 mg Kg-1 ou água destilada, do seguinte modo: a) do 1º ao 6º dia de prenhez (período da formação do blastocisto e implantação); b) do 8º ao 16º dia de prenhez (fase embrionária de organogênese); c) do 15º ao 19º dia de prenhez (fase do desenvolvimento fetal). O tratamento do 1º ao 6º dia, mostrou redução no número de fetos com ambas doses e não alterou o peso do útero / ovário nem peso corporal das mães. Quando as ratas foram tratadas na fase da organogênese verificou-se, redução estatisticamente significante do número de fetos vivos com a dose 50 mg Kg-1, e o aparecimento de fetos mortos em 30% das fêmeas tratadas com EHSF 50 mg Kg-1 e em 20% nas fêmeas tratadas com a dose de 100 mg Kg-1, não houve alteração no peso do útero / ovário nem no peso corporal das matrizes. Finalmente, o tratamento no período fetal não afetou o número de filhotes vivos, não provocou malformações anatômicas visíveis a olho nu, nem reabsorção fetal; porém, observou-se que 10% das mães tratadas com 50 mg Kg-1 apresentaram 2 fetos mortos e 20% das mães tratadas com 100 mg Kg-1 apresentaram, em média, 4 fetos mortos. Com estes dados, pode ser concluído que o EHSF apresenta baixa ou nenhuma toxicidade materna para ratas Wistar, embora seja letal para alguns descendentes, independente da fase da prenhez em que foram realizados os tratamentos maternos, sendo mais evidente nas fases precoces. Por este motivo, recomenda-se que esta planta não seja utilizada por mulheres grávida

The brain decade in debate: VIII. Peptide hormones and behavior: cholecystokinin and prolactin

This article is a transcription of an electronic symposium held on November 28, 2000 in which active researchers were invited by the Brazilian Society of Neuroscience and Behavior (SBNeC) to discuss the advances of the last decade in the peptide field with particular focus on central actions of prolactin and cholecystokinin. The comments in this symposium reflect the diversity of prolactin and cholecystokinin research and demonstrate how the field has matured. Since both peptides play a role in reproductive behaviors, particularly mother-infant interactions, this was the starting point of the discussion. Recent findings on the role of the receptor subtypes as well as interaction with other peptides in this context were also discussed. Another issue discussed was the possible role of these peptides in dopamine-mediated rewarding systems. Both prolactin and cholecystokinin are involved in mechanisms controlling food intake and somatic pain thresholds. The role of peripheral inputs through vagal afferents modulating behavior was stressed. The advent of knockout animals as potential generators of new knowledge in this field was also addressed. Finally, interactions with other neuropeptides and investigation of the role of these peptides in other fields such as immunology were mentioned. Knowledge about the central functions of prolactin and cholecystokinin has shown important advances. The role of these peptides in neurological and psychiatric syndromes such as anorexia, drug abuse and physiological disturbances that lead to a compromised maternal behavior seems relevant

Prolactin induces adrenal hypertrophy

Although adrenocorticotropic hormone is generally considered to play a major role in the regulation of adrenal glucocorticoid secretion, several reports have suggested that other pituitary hormones (e.g., prolactin) also play a significant role in the regulation of adrenal function. The aim of the present study was to measure the adrenocortical cell area and to determine the effects of the transition from the prepubertal to the postpubertal period on the hyperprolactinemic state induced by domperidone (4.0 mg kg-1 day-1, sc). In hyperprolactinemic adult and young rats, the adrenals were heavier, as determined at necropsy, than in the respective controls: adults (30 days: 0.16 ± 0.008 and 0.11 ± 0.007; 46 days: 0.17 ± 0.006 and 0.12 ± 0.008, and 61 days: 0.17 ± 0.008 and 0.10 ± 0.004 mg for treated and control animals, respectively; P < 0.05), and young rats (30 days: 0.19 ± 0.003 and 0.16 ± 0.007, and 60 days: 0.16 ± 0.006 and 0.13 ± 0.009 mg; P < 0.05). We selected randomly a circular area in which we counted the nuclei of adrenocortical cells. The area of zona fasciculata cells was increased in hyperprolactinemic adult and young rats compared to controls: adults: (61 days: 524.90 ± 47.85 and 244.84 ± 9.03 µm² for treated and control animals, respectively; P < 0.05), and young rats: (15 days: 462.30 ± 16.24 and 414.28 ± 18.19; 60 days: 640.51 ± 12.91 and 480.24 ± 22.79 µm²; P < 0.05). Based on these data we conclude that the increase in adrenal weight observed in the hyperprolactinemic animals may be due to prolactin-induced adrenocortical cell hypertrophy