UMLS:C0024523 - FACTA Search

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Query: UMLS:C0024523 (malabsorption)
7,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The copper content of various organs of ;brindled' female heterozygotes and male mice affected by this X-linked mutation are documented at the last day of intrauterine development, at 1 day after birth and at 11 days of age. The findings indicate defective placental transfer of copper in utero, and an even more marked defect in intestinal absorption of copper after birth. In addition there is an abnormal distribution of copper among the tissues of the body once it is absorbed. The mutation produces abnormal accumulation of copper in kidney, in gut mucosa and in testis, whereas liver, brain, plasma and most other organs show diminished copper concentrations. The intestinal malabsorption of copper is accompanied by accumulation of abnormal amounts of the metal in the intestinal-mucosa cells. Copper concentrations in both mucosa and luminal contents rise progressively from duodenum to ileum. Defective upper-intestinal absorption, consequent progressive increase in luminal copper concentration and pinocytosis in the ileum would seem to explain the findings. Radioisotopic studies eliminated the possibility of excessive excretion of copper in bile or across the intestinal mucosa. Detailed comparison with findings in humans with Menkes' syndrome is difficult because of the different stages of development at which the studies have been performed, but the results seem in general to conform very satisfactorily. Those differences seen are probably explicable by known species differences. All the findings are in accord with a hypothesis that the basic defect involves accumulation and retention of copper in the cells of affected tissues such as kidney, gut mucosa and placenta.
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PMID:Copper metabolism in mottled mouse mutants: copper concentrations in tissues during development. 57 17

In juvenile X-linked hypophosphatemic (Hyp) mice, whole body calcium balances are significantly lower than in genetically normal mice. This is associated with low duodenal vitamin D-dependent calcium-binding protein and a failure of skeletal mineralization. To seek more specific evidence of an intestinal defect in these mice, absorption of 45Ca was measured in isolated duodenal segments in vivo in mice from 2-13 weeks of age. The duodenum was isolated by sutures and 45Ca was injected into the lumen in 150 mM NaCl and 2 mM CaCl2 at pH = 7.2. Absorption was measured by the amount of isotope remaining in the lumen and by the plasma isotope level. Hemizygous Hyp male and heterozygous Hyp female mice absorbed significantly less 45Ca at 4 and 7 weeks of age than genetically normal mice while Hyp mice at 2, 10, and 13 weeks of age were not significantly affected. At 4 and 7 weeks of age, the Hyp mice also had significantly reduced plasma radioactivity midway through the collection period as well as at the end of the period. To explore a possible mechanism for this malabsorption, 1,25(OH)2-vitamin D receptors were measured in cytosol prepared from 4-week-old normal and Hyp duodenum. There were non-significant differences between the normal and Hyp mice in both binding affinity, Kd, and the number of receptors, nmax. In conclusion, juvenile Hyp mice at 4 and 7 weeks of ages malabsorbed calcium from their duodenum. Hyp mice younger than this period were not affected nor were adult Hyp mice.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reduced absorption of 45calcium from isolated duodenal segments in vivo in juvenile but not adult X-linked hypophosphatemic mice. 300 89

X-linked hypophosphatemic (Hyp) mice are a model for human X-linked (familial) hypophosphatemia (vitamin D-resistant rickets). In several studies, Hyp mice have been shown to exhibit either normal intestinal phosphate absorption or malabsorption of phosphate. These apparently conflicting reports led us to further investigate intestinal phosphate absorption. Isolated intestinal segments in vivo were used in C57BL/6J normal and Hyp mice, both male and female. 33P was placed in the segment in 2 mM Na2HPO4 + 150 mM NaCl, pH 7.2. Mice at 4, 7, and 12 weeks of age were used. No significant differences in phosphate absorption were found between the sexes. At 4 weeks of age, Hyp mice showed significant malabsorption of phosphate, with the jejunum being the most severely affected. Malabsorption was judged by significantly more 33P remaining in the lumen, less in the intestinal tissue, and less in the plasma. At 7 weeks of age, these same trends were seen but at a nonsignificant level. By the 12th week of life, the absorption of 33P was similar in Hyp and normal mice. Thus, phosphate malabsorption in Hyp mice is an age-related phenomena. These changes parallel the malabsorption of calcium in young Hyp mice and reflect the lowered plasma 1,25-dihydroxyvitamin D (1,25(OH)2D) levels of young Hyp mice.
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PMID:Malabsorption of phosphate by the intestines of young X-linked hypophosphatemic mice. 314 95

A 14-year-old boy presented with the clinical and radiological features of rickets. Serum inorganic phosphate levels were constantly low, whereas serum calcium and parathyroid hormone levels were within the normal range. Laboratory investigation did not show any evidence for vitamin-D deficiency, chronic renal insufficiency, Fanconi syndrome, tubular acidosis, hepatic disease or intestinal malabsorption. A family study comprising 34 members over four generations revealed 10 other individuals to be affected and the mode of inheritance to be autosomal dominant. In addition to hypophosphataemia and normocalcaemia, the disease is characterized by elevated serum 1,25 dihydroxyvitamin D levels and hypercalciuria. This hereditary syndrome of renal hypophosphataemia differs from the common familial X-linked hypophosphataemia and the recently described autosomal recessive hypophosphataemic rickets with hypercalciuria by its dominant mode of inheritance; it differs from hypophosphataemic non-rachitic bone disease by the elevated serum 1,25 dihydroxyvitamin D levels and hypercalciuria.
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PMID:Autosomal dominant hypophosphataemia with elevated serum 1,25 dihydroxyvitamin D and hypercalciuria. 315 20

We have reported that X-linked hypophosphatemic (Hyp) and normal mice respond equally to the administration of 1,25-dihydroxyvitamin D3 [1,25(OH)2D3] with uptake of 45Ca from an oral test meal as judged by the isotope remaining in the fecal samples. To determine whether this was due to specific stimulation of calcium absorption, as opposed to changes in calcium secretion or transit time, 1,25(OH)2D3 was administered to 4-week-old (young) and 13-week-old (adult) normal and Hyp mice at a dose of 0.12 micrograms/kg per day by continual infusion from an Alzet minipump. After 3 days of infusion, absorption of 45Ca from the isolated duodenum was measured in situ. Malabsorption of calcium was shown in vehicle-treated 4-week-old Hyp mice by significantly more 45Ca remaining in the intestinal segment and by significantly reduced plasma levels and reduced skeletal levels of 45Ca. Treatment of the young mice, both normal and Hyp, with 1,25(OH)2D3 resulted in increased absorption of 45Ca, increased plasma 45Ca, and increased incorporation of 45Ca into the femur. The young Hyp mice treated with 1,25(OH)2D3 showed a significant increase in femoral ash weight. At 13 weeks of age both normal and Hyp vehicle-treated mice showed equivalent absorption of calcium, and both responded to 1,25(OH)2D3 administration with enhanced calcium absorption. At both ages plasma phosphate rose in only the Hyp mice treated with 1,25(OH)2D3, whereas plasma and urine calcium were increased in only the hormone-treated normal mice. In conclusion, 1,25(OH)2D3 stimulates the absorption of calcium in the isolated duodenum of the young Hyp mouse with equal potency to that of young normal mice.
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PMID:Increased intestinal absorption of calcium in young and adult X-linked hypophosphatemic mice after the administration of 1,25-dihydroxyvitamin D3. 321 10

X-linked hypophosphatemic (Hyp) mice are a model for human sex-linked vitamin D-resistant rickets. We have reported intestinal malabsorption of calcium in young Hyp mice, and in this report we have explored the mechanism for it. To test for resistance of the intestine to 1,25(OH)2 vitamin D3, this hormone was continually infused via osmotic minipumps into 4-week-old normal and Hyp mice at 0, 17, 50 or 150 ng/kg/day. After 3 days, 45Ca and inorganic 32P were administered by gavage, and the mice were sacrificed on the fifth day. The Hyp mice showed responses to the hormone equivalent to the normal mice in terms of increased intestinal absorption of both 45Ca and 32P, increased plasma isotope levels, increased femoral isotope content, and increased duodenal and renal 9 kD vitamin D-dependent calcium-binding protein (calbindin-D9K; CaBP). Plasma 1,25(OH)2D was measured in these mice. There were significant correlations of plasma 1,25(OH)2D to the intestinal absorption of 45Ca and 32P and to duodenal and renal CaBP. Plasma 1,25(OH)2D was also measured in stock normal and Hyp mice and was found to be lower in 4-week-old Hyp mice than in 4-week-old normal mice (113 +/- 10 pM (n = 18) vs. 67 +/- 10 (n = 20), normal vs. Hyp, p less than .01), but unchanged at 13 weeks of age (77 +/- 13 (n = 13) vs. 70 +/- 15 (n = 15), NS). This observed difference in plasma 1,25(OH)2D between normal and Hyp mice at 4 weeks of age was sufficient to explain the observed normal-to-Hyp differences in intestinal absorption of 45Ca and duodenal and renal CaBP. It also explained 72 +/- 18% of the observed difference in 32P absorption. We conclude that Hyp mouse intestine is not resistant to 1,25(OH)2D and that the lower plasma 1,25(OH)2D of 4-week-old Hyp mice causes intestinal malabsorption of calcium and phosphate.
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PMID:Evidence that low plasma 1,25-dihydroxyvitamin D causes intestinal malabsorption of calcium and phosphate in juvenile X-linked hypophosphatemic mice. 345 58

The authors describe 7 male patients from two unrelated families who presented with what appears to be a heretofore undiagnosed X-linked variant of Ehlers-Danlos syndrome. Unlike the eight previously reported types, this variant is manifested by specific skeletal abnormalities, including occipital exostoses, widening and bowing of multiple long bones at tendinous and ligamentous insertion sites, and deformed clavicles. Major clinical complications include genitourinary problems, chronic diarrhea with malabsorption, and/or syncopal episodes. Laboratory tests suggest that this variant may represent the true lysyl-oxidase-deficient form of Ehlers-Danlos syndrome.
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PMID:Type IX Ehlers-Danlos syndrome. A new variant with pathognomonic radiographic features. 646 46

X-linked hypophosphatemia is a human and mouse disease characterized by reduced renal tubular reabsorption of phosphate, hypophosphatemia, and dwarfism. The gene is X-linked and dominant. There have been conflicting reports in the literature regarding possible malabsorption of minerals by the intestine as well. In this study we examined the mineral status in adult X-linked hypophosphatemic (Hyp) mice by measuring trace minerals in blood, bone, muscle, liver and hair and by performing a balance study for Ca, P, Mg, Na and K. The results indicate that Hyp mice have higher than normal levels of plasma iron, bone manganese and zinc, liver iron, and muscle zinc. The trace minerals in hair were not significantly affected. The balance study showed that the content of Ca, P, Mg, Na and K of the urine and feces of normal and Hyp mice were nonsignificantly different. Hyp mice did consume more diet per gram body weight. We conclude that there is no deficiency in intestinal mineral absorption in adult Hyp mice. No tissues studied were found to have reduced trace mineral levels. In fact, where differences occurred, Hyp mice had elevated trace mineral levels in various tissues and blood. This was probably the result of the increased dietary intake per gram body weight in the Hyp mice.
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PMID:Abnormal trace mineral metabolism in adult X-linked hypophosphatemic mice: a possible role of increased food intake. 673 60

X-linked hypophosphatemia, a common metabolic bone disease in humans and mice (the Hyp and Gy mutations), is characterized by decreased plasma phosphate, decreased renal tubular reabsorption of phosphate, rickets, and osteomalacia. The question of whether intestinal malabsorption of calcium contributes to the bone disease is controversial. Intestinal absorption of 45Ca was studied in three different mouse colonies: Gy on B6C3H background, Hyp on B6C3H background, and Hyp on C57BL/6J background, all at 4 weeks of age. The duodenum was isolated by sutures, and 45Ca in a 150 mM NaCl and 2 mM CaCl2 solution at pH 7.2 was injected into the lumen. Absorption was measured by the amount of 45Ca remaining in the lumen and by the plasma isotope level. The Gy and Hyp mice of both sexes significantly malabsorbed 45Ca at 4 weeks of age compared to normal littermates. Following the 4 week study, intestinal absorption was measured at 2, 7-8, and 12 weeks of age in normal and Gy mice on the B6C3H background. At 2 and 7-8 weeks of age, the Gy males significantly malabsorbed 45Ca compared to their normal littermates. Serum 1,25-dihydroxyvitamin D was not significantly altered in Gy males at 4 weeks of age. This suggests the possibility of resistance of the intestine to stimulation. Malabsorption of calcium in young Gy and Hyp mice may exacerbate the low mineralization in their rachitic bone disease.
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PMID:Intestinal malabsorption of 45calcium in young Gy mice, a second model for X-linked hypophosphatemia. 826 20

Familial Incontinentia pigmenti (IP) is a rare X-linked dominant condition. The affected cases have characteristic skin lesions, hair, eye, teeth and nail abnormalities and may also have neurological problems. The diagnosis has traditionally been made on clinical grounds. Segregation analysis has suggested that it is lethal in males. Only one liveborn male has been reported who died at one day of age. Female cases of IP survive because of the moderating effects of Lyonization. This child was the affected son of a female with IP. He had a novel phenotype consistent with hypohidrotic ectodermal dysplasia with immune deficiency (HED-ID) but with additional features: he had major problems with hematological disturbances, failure to thrive due to malabsorption, recurrent infections, generalized osteosclerosis and lymphedema of his lower limbs. He also demonstrated some typical features of IP with a generalized reticular skin hyperpigmentation, sparse hair and delayed eruption of teeth. The gene for NEMO (NF-kappa B Essential Modulator) has recently been shown to be mutated in cases of IP. Furthermore, most (80%) of patients possess a recurrent genomic rearrangement that deletes part of the gene resulting in an inactive NEMO protein. In the male case described here, a NEMO stop codon mutation has been identified that has arisen de novo in his affected mother. This mutation is likely to have a less severe effect on NEMO activity and may explain why this child survived for two years and 7 months.
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PMID:Incontinentia pigmenti in a surviving male is accompanied by hypohidrotic ectodermal dysplasia and recurrent infection. 1124 84

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