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Query: UMLS:C0403608 (
ureter
)
9,655
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The potential for ethanol (EtOH) to influence the developmental toxicity of vitamin A was investigated. 11 groups of approximately 31 FDA-bred Osborne-Mendel rats received either a control or isocaloric 6.4% EtOH liquid diet (containing 4000 IU vitamin A/litre) ad lib. The vehicle control, EtOH and pair-fed (pair-fed against the EtOH group) groups received corn oil (the vehicle) by gavage.
Vitamin A
was administered by gavage without EtOH at 40,000, 80,000, 120,000 or 160,000 IU/kg daily.
Vitamin A
was administered by gavage at 10,000, 20,000, 40,000 or 80,000 IU/kg with EtOH ad lib., daily throughout the study. Combined EtOH and vitamin A resulted in significant reductions in maternal diet consumption and body weight when doses of vitamin A were as low as 10,000 IU/kg. The most severe effects on overall (days 0-20) maternal body weight gain were observed in the groups receiving 120,000 or 160,000 IU vitamin A/kg alone or EtOH in combination with 80,000 IU vitamin A/kg. The overall diet consumption (days 0-20) paralleled the overall weight gain. In general, pups exposed to ethanol and vitamin A had a tendency to weigh less than those exposed to vitamin A alone, but to weigh more than those exposed to EtOH alone. EtOH combined with vitamin A at 80,000 IU/kg resulted in an increased incidence of cleft palate relative to the vehicle control or either treatment alone. The incidence of exencephaly and protruding tongue was significantly greater in the group given vitamin A at 160,000 IU/kg, compared with the vehicle control group. The most consistent statistically significant skeletal finding in the groups receiving combined treatment was a treatment-related increased incidence of supernumerary ribs [14th rib (C7), 14th rib bud (L1) and 15 ribs]. In addition, the incidence of misshapen zygomatic arch was also significantly increased in the group exposed to EtOH and vitamin A at 80,000 IU/kg. The incidence of moderately enlarged renal pelvis and severely enlarged
ureter
proximal to the kidney was increased in the group exposed to EtOH and vitamin A at 80,000 IU/kg relative to the vehicle control, or either treatment alone. Therefore, for some of the endpoints examined in this investigation, it would appear that ethanol potentiates the developmental effects of vitamin A.
...
PMID:Developmental effects of combined exposure to ethanol and vitamin A. 820 26
Vitamin A
signaling through its active form retinoic acid (RA) plays a critical role during kidney development and vitamin A deficiency in the rat induces renal hypoplasia. Here, we describe the distribution of four enzymes of the RA synthetic pathway (aldehyde dehydrogenases ALDH1A1-3 and ALDH8A1) and two enzymes of the degradative pathway (CYP26A1 and CYP26B1) in the developing rat metanephros. We provide evidence that each enzyme displays a cell-type specific expression pattern that changes considerably in the course of renal organogenesis and nephron differentiation. ALDH1A2 expression was restricted to the cortical stroma cell population, whereas ALDH8A1 transcripts were present in emerging renal vesicles. CYP26A1 and CYP26B1 mRNAs were absent during this time. Following nephron induction, ALDH1A1 remained weakly expressed in the UB ends, but was highly expressed in the UB-connected tubule and in all differentiating tubular segments of the developing nephron. ALDH1A2 was strongly expressed in the visceral layer of the developing glomeruli, as well as in cortical collecting tubules. ALDH1A3 mRNAs were found in the developing papilla and
ureter
. During postnatal nephrogenesis, ALDH1A3 and ALDH8A1 were co-expressed in the ureteric bud ends. CYP26A1 and CYP26B1 were both expressed from E18.5 onwards in S-shaped bodies, in tubular and glomerular anlagen, respectively. On the last day of nephrogenesis in the rat, CYP26B1 expression extended to UB ends. Our results indicate that tubular and glomerular differentiation of the nephron relies upon precise control of the RA metabolic pathway.
...
PMID:Expression of retinoic acid-synthesizing and -metabolizing enzymes during nephrogenesis in the rat. 1556 13
