E Carbajo-Pérez scite author profile

Cellular proliferation in the anterior pituitary of 2-, 8-, 15- and 30-day-old rats was examined by injection of bromodeoxyuridine 1 h before autopsy. Bromodeoxyuridine incorporated into DNA was detected immunohistochemically by use of a monoclonal antibody. The highest rate of cell proliferation was found in 2-day-old animals; it decreased thereafter during the postnatal period. Possible toxic effects of colchicine on cellular proliferation were examined. Colchicine treatment (10 mg/kg in 8- and 30-day-old animals) significantly decreased the number of bromodeoxyuridine-labelled cells/mm2 in 8-day-old rats. Some sections were doubly immunostained for bromodeoxyuridine and various pituitary hormones. The proportion of doubly-immunostained cells to all proliferating cells was generally low, ranging from 23% at 2 days to 32% at 30 days of age.

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Rapamycin retards growth and causes marked alterations in the growth plate of young rats

Álvarez-García

Carbajo-Pérez

García

et al. 2007

Pediatr Nephrol

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Rapamycin is a potent immunosuppressant with antitumoral properties widely used in the field of renal transplantation. To test the hypothesis that the antiproliferative and antiangiogenic activity of rapamycin interferes with the normal structure and function of growth plate and impairs longitudinal growth, 4-week-old male rats (n=10/ group) receiving 2 mg/kg per day of intraperitoneal rapamycin (RAPA) or vehicle (C) for 14 days were compared. Rapamycin markedly decreased bone longitudinal growth rate (94±3 vs. 182±3 μm/day), body weight gain (60.2±1.4 vs. 113.6±1.9 g), food intake (227.8±2.6 vs. 287.5±3.4 g), and food efficiency (0.26±0.00 vs. 0.40± 0.01 g/g). Signs of altered cartilage formation such as reduced chondrocyte proliferation (bromodeoxiuridine-labeled cells 32.9±1.4 vs. 45.2±1.1%), disturbed maturation and hypertrophy (height of terminal chondrocytes 26±0 vs. 29±0 μm), and decreased cartilage resorption (18.7±0.5 vs. 31.0±0.8 tartrate-resistant phosphatase alkaline reactive cells per 100 terminal chondrocytes), together with morphological evidence of altered vascular invasion, were seen in the growth plate of RAPA animals. This study indicates that rapamycin can severely impair body growth in fastgrowing rats and distort growth-plate structure and dynamics. These undesirable effects must be kept in mind when rapamycin is administered to children.

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Rapamycin induces growth retardation by disrupting angiogenesis in the growth plate

Álvarez-García

García-López

Loredo

et al. 2010

Kidney International

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Rapamycin, a potent immunosuppressant used in renal transplantation, has been reported to impair longitudinal growth in experimental studies. Rapamycin is both antiproliferative and antiangiogenic; therefore, it has the potential to disrupt vascular endothelial growth factor (VEGF) action in the growth plate and to interfere with insulin-like growth factor I (IGF-I) signaling. To further investigate the mechanisms of rapamycin action on longitudinal growth, we gave the 4-week-old rats rapamycin daily for two weeks. Compared with a vehicle-treated group, rapamycin-treated animals were severely growth retarded and had marked alterations in the growth plate. Vascular invasion was disturbed in the rapamycin group, there was a significant reduction in osteoclast cells near the chondro-osseus junction, and there was lower VEGF protein and mRNA expression in the terminal chondrocytes of the growth cartilage. Compared with the control group, the rapamycin group had higher levels of circulating IGF-I as well as the mRNAs for IGF-I and of the receptors of IGF-I and growth hormone in the liver but not in the growth cartilage. Thus our findings explain the adverse effect of rapamycin on growth plate dynamics. This should be taken into account when the drug is administered to children.

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Catch-up growth follows an abnormal pattern in experimental renal insufficiency and growth hormone treatment normalizes it

Molinos

Santos

Carbajo-Pérez

et al. 2006

Kidney International

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The primary goal of this study was to determine if the ability to undergo catch-up growth following a transient injury is preserved in an experimental model of moderate chronic renal failure (CRF) and the effect of growth hormone (GH) administration on such phenomenon. Young rats were subtotally nephrectomized (days 0 and 4) (Nx). From days 11 to 13, food intake was restricted in subgroups of Nx and control (C) rats (NxR and CR). After refeeding, subgroups of NxR and CR rats received GH from days 14 to 20 (NxRGH and CRGH). Rats were killed on days 14 (C, CR, Nx, NxR), 17 and 21 (C, CR, CRGH, Nx, NxR, NxRGH), and 36 (C, CR, Nx, NxR). Longitudinal growth rate was measured by osseous front advance in the proximal tibiae. With refeeding, growth rate of CR, NxR, and NXrGH rats became significantly greater than that of C, indicating catch-up growth. This occurred later and with lower growth rate in NxR than in CR rats, whereas the characteristics of catch-up growth in CR and NxRGH animals were similar. Changes in growth rate were associated with modifications in the morphology and proliferative activity of growth cartilage. We conclude that catch-up growth occurs in renal insufficiency but follows a different pattern from that observed with normal renal function. GH treatment normalizes the pattern of catch-up growth in CRF. Changes in growth velocity are associated to modifications in the structure and dynamics of growth cartilage.

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E Carbajo-Pérez

Cellular proliferation in the anterior pituitary of the rat during the postnatal period

Rapamycin retards growth and causes marked alterations in the growth plate of young rats

Rapamycin induces growth retardation by disrupting angiogenesis in the growth plate

Catch-up growth follows an abnormal pattern in experimental renal insufficiency and growth hormone treatment normalizes it

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