Resultado da pesquisa (2)
Termo utilizado na pesquisa Calcitonin
#1 - Ultimobranchial gland of freshwater catfish, Heteropneustes fossilis, in response to calcitonin administration, 29(12):963-968
Abstract in English:
ABSTRACT.- Srivastav A.K., Singh S., Mishra D. & Srivastav S.K. 2009. Ultimobranchial gland of freshwater catfish, Heteropneustes fossilis, in response to calcitonin administration. Pesquisa Veterinária Brasileira 29(12):963-968. Department of Zoology, DDU Gorakhpur University, Gorakhpur 273 009, India. E-mail: ajaiksrivastav@hotmail.com
The absence o!!f a hypocalcemic effect of calcitonin (CT) in fishes has been suggested due to exceedingly high plasma levels of CT; the fish may be saturated with respect of circulating CT and therefore unable to respond to exogenously administered CT. Earlier it has been suggested that a hypocalcemic action of injected CT may be obscured by changes in the release of endogenous CT and other calcium regulating hormones. In this study we have used artificial freshwater, calcium-deficient freshwater and calcium-rich freshwater and injected the fish with CT. The aim behind selecting these media were (i) in calcium-deficient medium there would be reduced circulating levels of CT, (ii) in calcium-rich medium there would be diminished secretion of prolactin (this hormone is hypercalcemic in fish), and (iii) by keeping the fish in calcium-rich medium we can test the antihypercalcemic action of CT. Moreover, the present study would reveal the changes in the ultimobranchial gland (UBG) after keeping the fish in all the above three media and/or injecting the fish with CT. Freshwater catfish, Heteropneustes fossilis, were administered intraperitoneally daily with vehicle or 0.5 U/100g body wt of salmon calcitonin (CT) and kept in artificial freshwater, calcium-rich freshwater and calcium-deficient freshwater for 10 days. Blood samples were collected on 1, 3, 5, and 10 days following the treatment and analyzed for serum calcium levels. The ultimobranchial gland (UBG) was also fixed for histological studies on these intervals. In artificial freshwater there was no change in the serum calcium levels of calcitonin-injected fish. The ultimobranchial gland of calcitonin-injected fish exhibited a progressive decrease in the nuclear volume from day 5 onwards. On day 10 vacuolization in the gland was also noticed. In vehicle-injected fish (control) kept in calcium-rich freshwater hypercalcemia has been noticed which persists till the end of the experiment. In calcitonin-treated fish maintained in calcium-rich freshwater there is no change in serum calcium level as compared to vehicle-injected fish. In vehicle-injected fish the UBG depicts decreased staining response and increased nuclear volume at day 5. On day 10 the nuclear volume is further increased and few degenerating cells have been noticed. Calcitonin fails to induce any histological change in the UBG as compared to control. In vehicle-injected fish kept in calcium-deficient freshwater the serum calcium levels decrease from day 1 to day 3. The levels exhibit hypercalcemia on day 10. CT treatment to the fish kept in calcium-deficient freshwater evokes a decrease in the calcium levels on day 1 and day 3. A significant hypercalcemia has been noticed on day 5 and day 10. In vehicle-injected fish kept in calcium-deficient freshwater the UBG reveals a decreased staining response on day 10. In CT-injected fish maintained in calcium-deficient freshwater the UBG depicts an increased nuclear volume and few exhausted cells on day 10. It can be concluded that CT can provoke hypocalcemia only when the fish is kept in medium which reduces the circulating levels of this hormone. The UBG of the fish kept in different calcemic media responded in a manner to indicate that it produces hypocalcemic factor - CT.
Abstract in Portuguese:
ABSTRACT.- Srivastav A.K., Singh S., Mishra D. & Srivastav S.K. 2009. Ultimobranchial gland of freshwater catfish, Heteropneustes fossilis, in response to calcitonin administration. Pesquisa Veterinária Brasileira 29(12):963-968. Department of Zoology, DDU Gorakhpur University, Gorakhpur 273 009, India. E-mail: ajaiksrivastav@hotmail.com
The absence o!!f a hypocalcemic effect of calcitonin (CT) in fishes has been suggested due to exceedingly high plasma levels of CT; the fish may be saturated with respect of circulating CT and therefore unable to respond to exogenously administered CT. Earlier it has been suggested that a hypocalcemic action of injected CT may be obscured by changes in the release of endogenous CT and other calcium regulating hormones. In this study we have used artificial freshwater, calcium-deficient freshwater and calcium-rich freshwater and injected the fish with CT. The aim behind selecting these media were (i) in calcium-deficient medium there would be reduced circulating levels of CT, (ii) in calcium-rich medium there would be diminished secretion of prolactin (this hormone is hypercalcemic in fish), and (iii) by keeping the fish in calcium-rich medium we can test the antihypercalcemic action of CT. Moreover, the present study would reveal the changes in the ultimobranchial gland (UBG) after keeping the fish in all the above three media and/or injecting the fish with CT. Freshwater catfish, Heteropneustes fossilis, were administered intraperitoneally daily with vehicle or 0.5 U/100g body wt of salmon calcitonin (CT) and kept in artificial freshwater, calcium-rich freshwater and calcium-deficient freshwater for 10 days. Blood samples were collected on 1, 3, 5, and 10 days following the treatment and analyzed for serum calcium levels. The ultimobranchial gland (UBG) was also fixed for histological studies on these intervals. In artificial freshwater there was no change in the serum calcium levels of calcitonin-injected fish. The ultimobranchial gland of calcitonin-injected fish exhibited a progressive decrease in the nuclear volume from day 5 onwards. On day 10 vacuolization in the gland was also noticed. In vehicle-injected fish (control) kept in calcium-rich freshwater hypercalcemia has been noticed which persists till the end of the experiment. In calcitonin-treated fish maintained in calcium-rich freshwater there is no change in serum calcium level as compared to vehicle-injected fish. In vehicle-injected fish the UBG depicts decreased staining response and increased nuclear volume at day 5. On day 10 the nuclear volume is further increased and few degenerating cells have been noticed. Calcitonin fails to induce any histological change in the UBG as compared to control. In vehicle-injected fish kept in calcium-deficient freshwater the serum calcium levels decrease from day 1 to day 3. The levels exhibit hypercalcemia on day 10. CT treatment to the fish kept in calcium-deficient freshwater evokes a decrease in the calcium levels on day 1 and day 3. A significant hypercalcemia has been noticed on day 5 and day 10. In vehicle-injected fish kept in calcium-deficient freshwater the UBG reveals a decreased staining response on day 10. In CT-injected fish maintained in calcium-deficient freshwater the UBG depicts an increased nuclear volume and few exhausted cells on day 10. It can be concluded that CT can provoke hypocalcemia only when the fish is kept in medium which reduces the circulating levels of this hormone. The UBG of the fish kept in different calcemic media responded in a manner to indicate that it produces hypocalcemic factor - CT.
#2 - Enzootic calcinosis in sheep caused by the ingestion of Nierembergia veitchii (Solanaceae)
Abstract in English:
A chronic debilitating disease with hypercalcemia, parathyroid cell atrophy, C cell hyperplasia, osteopetrosis, osteonecrosis, and soft tissue calcinosis is described in sheep in southeastern Rio Grande do Sul, Brazil. Sheep of both sexes and all ages, except suckling lambs, are affected. Hypercalcemia occurs from October through February during which time sheep on pasture have access to the calcinogenic plant Nierembergia veitchii. The incidence of the disease varies between years and farms with apparent correlation to the availability of the plant. Experiments in rachitic chicks demonstrated a vitamin D-like activity in N. veitchii since the addition of the plant to the diet stimulated calcium absorption, uptake of calcium by the tibia and also increased the amount of calbindin-D (the vitamin D induced protein sinthesized by the intestinal mucosa) and the calcium and phosphorus plasma levels. Clicks were fed a diet containing a high concentration of SrCl2 which inhlbits the formation of 1,25(OH)2D3 by the renal hydroxylase system. Adding a dried, ground preparation of one batch of N. veitchii to the SrC12 diet stimulated the synthesis of small quantities of intestinal calbindin-D (CaBP), but did not cause an increase in calcium absorption. Another batch of the plant was totally inactive. These data suggest that N. veitchii does contain a l,25(OH)2D3-like compound. The variable results between the two batches might be explained on the basis of lability of the substance in these plants, differences in preparation or other unknown reasons. The failure to demonstrate the presence of 1;25(OH)2D3-like activity in N. veitchii in a clear and constant way may be that an insuficiente amount of the plant was fed. Whether, in the field, N. veitchii contains sufficient amounts of the 1,25(OH)2D3 - like substance to cause calcinosis or that calcinosis is due to other factors in the plant, requires further attention.
Abstract in Portuguese:
Descreve-se em ovinos, no Rio Grande do Sul, uma doença caracterizada por emagrecimento progressivo, lúpercalcemia, atrofia das células das paratireóides, hiperplasia das células C da tireóide, osteopetrose, osteonecrose e calcificação dos tecidos moles. Ovinos de ambos sexos e todas as idades exceto lactentes são afetados. A hipercalcemia ocorre desde outubro a fevereiro, época em que os ovinos consomem a planta calcinogênica Nierembergia veitchii. A incidência da doença é variável entre anos e fazendas, com aparente correlação com a disponibilidade da planta nas pastagens. Experimentos em pintos raquíticos demonstraram que N. veitchii possui ação biológica similar à vitamina D, já que a adição da planta na dieta estimulou a absorção de cálcio, a deposição de cálcio na tíbia, e também aumentou a síntese de calbindin-D (proteína complexante do cálcio induzida pela vitamina D sintetizada no intestino) e os níveis plasmáticos de cálcio e fósforo. Pintos foram alimentados com dietas contendo altas concentrações de SrCl2 que inibe o sistema de hidrolase renal. Uma partida de N. veitchii secada e moída, agregada à dieta com SrCl2, estimulou a síntese de pequenas quantidades de calbindin-D, mas não causou aumento na absorção de cálcio. Outra partida de planta foi totalmente inativa. Esses dados sugerem que N. veitchii contém um composto similar a 1,25 (OH)2D3. Os resultados variáveis entre as duas partidas poderiam ser devidas a instabilidade da substância na planta, diferenças na sua preparação ou mitro fator desconhecido. As dificuldades em demonstrar em forma clara e constante a presença de uma substância de ação biológica similar a 1,25 (OH)2D3 em N. veitchii, poderia ser devido à administração de doses insuficientes da planta. As possibilidades de que a planta no campo contenha suficientes quantidades de um composto similar a 1,25 (OH)2D3 para causar calcinose, ou de que a calcinose seja causada por outro fator da planta requerem posterior atenção.
