UNIPROT:Q00604 - FACTA Search

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Query: UNIPROT:Q00604 (X-linked)
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In a normal adult subject, 12 liters of tubular urine with an osmolality of 100 mmol/kg exit per 24 hours from the loop of Henle. The antidiuretic hormone arginine-vasopressin increases the water permeability of the renal collecting ducts and induces the reabsorption of 11 liters of water: the final urinary osmolality is 1200 mmol/kg for a urinary flow rate of 1 litre per 24 hours. In nephrogenic diabetes insipidus the urine cannot be concentrated maximally. Congenital nephrogenic diabetes insipidus is secondary to either mutations in the AVPR2 gene (Xq28) that codes for the vasopressin antidiuretic (V2) receptor or to mutations in the AQP2 gene (12q13) that codes for the vasopressin dependent water channel. AVPR2 mutations are numerous and diverse: 72 different putative disease causing mutations in the AVPR2 gene have been reported in 102 unrelated families with X-linked nephrogenic diabetes insipidus. AQP2 mutations are rare. Nephrogenic diabetes insipidus could also be secondary to lithium or demeclocycline administration and to hypokaliemia. Some of these conditions are inducing, experimentally, a downregulation of aquaporin II. We encourage physicians who follow families with hereditary nephrogenic diabetes insipidus to recommend molecular genetic analysis because early diagnosis and treatment of infants can avert the physical and mental retardation associated with episodes of dehydration.
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PMID:[Pathological aspects of water transport in the collecting ducts]. 901 68

Nephrogenic diabetes insipidus (NDI) is characterized by resistance of the kidney to the action of arginine-vasopressin (AVP); it may be due to genetic or acquired causes. Recent advances in molecular genetics have allowed the identification of the genes involved in congenital NDI. While inactivating mutations of the vasopressin V2 receptor are responsible for X-linked NDI, autosomal recessive NDI is caused by inactivating mutations of the vasopressin-regulated water channel aquaporin-2 (AQP-2). About 70 different mutations of the V2 receptor have been reported, most of them missense mutations. The functionally characterized mutants show a loss of function due to defects in their synthesis, processing, intracellular transport, AVP binding, or interaction with the G protein/adenylyl cyclase system. Thirteen different mutations of the AQP-2 gene have been reported. Functional studies of three AQP-2 mutations reveal impaired cellular routing as the main defect. The great number of different mutations with various functional defects hinders the development of a specific therapy. Gene therapy may, however, eventually become applicable to the congenital forms of NDI. At present all gene-therapeutic approaches lack safety and efficiency, which is of particular relevance in a disease that is treatable by an adequate water intake. The progress with regard to the molecular basis of antidiuresis contributes to the understanding of acquired forms of NDI on a molecular level. Recent data show that lithium dramatically reduces the expression of AQP-2. Likewise, hypokalemia reduces the expression of this water channel. The exact mechanisms leading to this reduced expression of AQP-2 remain to be determined.
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PMID:The molecular basis of nephrogenic diabetes insipidus. 958 67

Five single-point aquaporin-2 (AQP2) mutations that cause non-X-linked nephrogenic diabetes insipidus (NDI) were characterized to establish the cellular defect and to develop therapeutic strategies. In Xenopus oocytes expressing AQP2 cRNAs, single-channel water permeabilities of mutants L22V, T126M, and A147T were similar to that of wild-type AQP2, whereas R187C and C181W were nonfunctional. In [35S]methionine pulse-chase experiments in transiently transfected CHO cells, half-times for AQP2 degradation were approximately 4 h for wild-type AQP2 and L22V, and mildly decreased for T126M (2.7 h), C181W (2.4 h), R187C (2.0 h), and A147T (1.8 h). Immunofluorescence showed three distinct AQP2-staining patterns: plasma membrane and endosomal staining (wild-type, L22V), endoplasmic reticulum (ER) staining (T126M > A147T approximately R187C), or a mixed pattern of reticular and perinuclear vesicular staining. Immunoblot of fractionated vesicles confirmed primary ER localization of T126M, R187C, and A147T. To determine if the AQP2-trafficking defect is correctable, cells were incubated with the "chemical chaperone" glycerol for 48 h. Immunoblot showed that glycerol produced a nearly complete redistribution of AQP2 (T126M, A147T, and R187C) from ER to membrane/endosome fractions. Immunofluorescence confirmed the cellular redistribution. Redistribution of AQP2 mutants was also demonstrated in transfected MDCK cells, and using the chaperones TMAO and DMSO in place of glycerol in CHO cells. Water permeability measurements indicated that functional correction was achieved. These results indicate defective mammalian cell processing of mutant AQP2 water channels in NDI, and provide evidence for pharmacological correction of the processing defect by chemical chaperones.
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PMID:Defective aquaporin-2 trafficking in nephrogenic diabetes insipidus and correction by chemical chaperones. 959 82

Several aquaporin-type water channels are expressed in mammalian kidney and lung: AQP1 in lung microvessels and kidney proximal tubule, thin descending limb of Henle, and vasa recta; AQP2 in apical membrane of collecting duct epithelium; AQP3 and AQP4 in basolateral membranes of airway and collecting duct epithelium; and AQP5 in alveolar epithelium. Novel quantitative fluorescence methods demonstrated very high water permeabilities of the alveolar epithelial and endothelial barriers, and moderately high water permeability across distal airways. In the kidney, water permeability is high in proximal tubule and thin descending limb of Henle, and regulated by vasopressin in collecting duct. The author's laboratory has studied the role of aquaporins in organ physiology using transgenic knockout mice lacking specific aquaporins. AQP1 null mice are mildly growth-retarded, manifest a severe urinary concentrating defect, and have reduced water permeability between airspace and capillary compartments. AQP4 null mice appear normal grossly except for a mild defect in maximum urinary concentrating ability. AQP2-deficient humans have hereditary non-X-linked nephrogenic diabetes insipidus (NDI). In transfected mammalian cells, many NDI-causing AQP2 mutants are retained in the endoplasmic reticulum. The author's laboratory has found that "chemical chaperones," that is, small compounds that promote protein folding in vitro, are able to correct defective AQP2 trafficking in cell culture models. The transgenic mouse and mammalian cell models are thus beginning to provide clues about the role of aquaporins in normal physiology and disease.
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PMID:Role of aquaporin water channels in kidney and lung. 982 13

Lateral cerebroventricular (LCVT) administration of the alpha-MSH agonist analog Nle4DPhe7alpha-MSH (NDP-MSH) inhibited food intake in food-deprived rats, but did not inhibit water intake in water-deprived rats. When NDP-MSH was administered into the fourth ventricle (4CVT), comparable suppressions of food intake were observed. LCVT and 4CVT administration of NDP-MSH also reduced spontaneous 24 h food intake. LCVT injection of NDP-MSH greatly attenuated food intake stimulated in sated rats by acute CVT administration of neuropeptide Y (NPY). These and other data suggest that alpha-MSH is an important endogenous regulator of food intake, possibly acting downstream of NPY. In an attempt to assess further the sites of action of NDP-MSH, a qualitative mapping study of Fos-like immunoreactive (Fos-ir) neurons was performed following LCVT administration of NDP-MSH. LCVT injection of NDP-MSH induced Fos-ir in several forebrain regions including cortex, striatum, bed nucleus of the stria terminalis, paraventricular nucleus of the hypothalamus and arcuate nucleus. The combination of NPY and NDP-MSH did not produce obvious antagonism or cancellation of effects in any region examined. Thus, the site(s) of action of NDP-MSH on food intake remain to be clarified.
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PMID:Central injection in rats of alpha-melanocyte-stimulating hormone analog: effects on food intake and brain Fos. 987 51

Fragile X syndrome is an X-linked form of mental retardation resulting from the absence of expression of the fragile X mental retardation 1 gene. The encoded protein is a ribosome-associated, RNA-binding protein thought to play a role in translational regulation of selective messenger RNA transcripts. A knockout mouse has been described that exhibits subtle deficits in spatial learning but normal early-phase long-term potentiation. We expanded these studies by examination of late-phase hippocampal long-term potentiation, the protein synthesis-dependent form of long-term potentiation, in the Fmrl knockout mice. Here, late-phase long-term potentiation was normal, suggesting either that absence of fragile X mental retardation protein has no influence on long-term potentiation or that any influence is too subtle to be detected by this technique. Alternatively, the hippocampus may not be the primary site affected by the absence of this protein. Accordingly, we examined spatial learning in the knockout mice using the hippocampus-dependent Morris water maze. Contrary to earlier reports, near-normal performance was observed. Since the knockout line used in this study has been back-crossed to C57BL/6 for more than 15 generations, whereas the line used in the earlier studies contained a substantial strain 129 contribution, we examined F1 siblings of knockout and 129 crosses. Here, significant but subtle increased swim latencies in reversal trials were observed, in agreement with the previous studies. These data suggest strain differences between C57BL/6 and 129 that influence the Fmrl knockout phenotype. In order to investigate a paradigm less dependent on hippocampal function, the knockout mice were examined using the conditional fear paradigm. Here, the knockout animals displayed significantly less freezing behavior than their wild-type littermates following both contextual and conditional fear stimuli. These data suggest that amygdala disturbances may also be involved in fragile X syndrome.
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PMID:Fragile X mouse: strain effects of knockout phenotype and evidence suggesting deficient amygdala function. 1061 8

In Fabry disease, an X-linked alpha-galactosidase A deficiency, painful crises and limb paresthesias are possibly linked to thermal exposure. Small nerve fiber function has not yet been tested after cold challenge. In two Fabry patients (15 and 17 years old), their heterozygote mother, their healthy sister, and eight controls, we determined warm and cold perception thresholds at the dorsal foot and the lower medial calf (method of limits, Somedic-Thermotest), before and 1, 5, 10 and 15 min after 30 s immersion of one leg into 5 degrees C water. Discomfort was rated from 0 to 10. At baseline, thermal thresholds of all participants were normal. In contrast to controls, the patients tolerated 30 s cold stimulation only with interruptions. The mother aborted stimulation after 6 s because of pain. The patients and their mother reported intense burning pain and numbness during and after stimulation. After cold exposure, thermal sensation was highly abnormal for 20 min in one and 80 min in the other brother. In controls, thermal thresholds were somewhat elevated after stimulation but normalized within 10.0+/-4.6 min. Discomfort during cold exposure was rated 8-10 by the patients and their mother, but 3-5 by the healthy persons. We assume that glycolipid accumulation in cutaneous and vasa nervorum vessels as well as small nerve axons accounts for skin and small fiber malperfusion during cold induced vasoconstriction. Transitory ischemia initiated burning pain and prolonged small fiber dysfunction.
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PMID:Lower limb cold exposure induces pain and prolonged small fiber dysfunction in Fabry patients. 1066 42

A low molecular weight (LMW) antigen of Eimeria tenella, initially identified using a murine monoclonal antibody (mAb C(3)4F(1)) raised against E. tenella sporozoites, was partially characterized using enzymatic degradation. solvent extraction, and immunization into various inbred lines of mice. The LMW antigen could be isolated using Folch extraction (methanol/chloroform/ water) and the epitope recognized by mAb C(3)4F(1) was resistant to degradation by alpha-amylase, pronase, and proteinase K, but was sensitive to sodium m-periodate treatment or digestion using mixed glycosidases (from Turbo cornutus). These observations suggest that the antigenic epitope recognized by mAb C(3)4F(1) is carbohydrate-dependent and, based on our ability to isolate the LMW antigen by Folch extraction, the epitope probably resides on a polar glycolipid. The inability of sporozoite-immunized nude mice to elicit a serum antibody response to this molecule indicates that it acts as a T-dependent antigen. Furthermore, sporozoite-immunized male CBA/N mice (with an X-linked immunodeficiency) also failed to elicit a serum antibody response to this molecule, which is consistent with a carbohydrate antigenic epitope. We propose that this antigenic molecule be designated ET-GL1 to reflect its origin and probable structure (E. tenella glycolipid 1).
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PMID:Partial characterization of a non-proteinaceous, low molecular weight antigen of Eimeria tenella. 1089 71

Hereditary non-X-linked nephrogenic diabetes insipidus (NDI) is caused by mutations in the aquaporin-2 (AQP2) water channel. In transfected cells, the human disease-causing mutant AQP2-T126M is retained at the endoplasmic reticulum (ER) where it is functional and targetable to the plasma membrane with chemical chaperones. A mouse knock-in model of NDI was generated by targeted gene replacement using a Cre-loxP strategy. Along with T126M, mutations H122S, N124S, and A125T were introduced to preserve the consensus sequence for N-linked glycosylation found in human AQP2. Breeding of heterozygous mice yielded the expected Mendelian distribution with 26 homozygous mutant offspring of 99 live births. The mutant mice appeared normal at 2-3 days after birth but failed to thrive and generally died by day 6 if not given supplemental fluid. Urine/serum analysis showed a urinary concentrating defect with serum hyperosmolality and low urine osmolality that was not increased by a V2 vasopressin agonist. Northern blot analysis showed up-regulated AQP2-T126M transcripts of identical size to wild-type AQP2. Immunoblots showed complex glycosylation of wild-type AQP2 but mainly endoglycosidase H-sensitive core glycosylation of AQP2-T126M indicating ER-retention. Biochemical analysis revealed that the AQP2-T126M protein was resistant to detergent solubilization. Kidneys from mutant mice showed collecting duct dilatation, papillary atrophy, and unexpectedly, some plasma membrane AQP2 staining. The severe phenotype of the AQP2 mutant mice compared with that of mice lacking kidney water channels AQP1, AQP3, and AQP4 indicates a critical role for AQP2 in neonatal renal function in mice. Our results establish a mouse model of human autosomal NDI and provide the first in vivo biochemical data on a disease-causing AQP2 mutant.
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PMID:Neonatal mortality in an aquaporin-2 knock-in mouse model of recessive nephrogenic diabetes insipidus. 1103 38

The presence of both pro-opiomelanocortin-derived peptides and melanocortin (MC) receptors in nociception-associated areas in the spinal cord suggests that, at the spinal level, the MC system might be involved in nociceptive transmission. In the present study, we demonstrate that a chronic constriction injury (CCI) to the rat sciatic nerve, a lesion that produces neuropathic pain, results in changes in the spinal cord MC system, as shown by an increased binding of (125)I-NDP-MSH to the dorsal horn. Furthermore, we investigated whether intrathecal administration (in the cisterna magna) of selective MC receptor ligands can affect the mechanical and cold allodynia associated with the CCI. Mechanical and cold allodynia were assessed by measuring withdrawal responses of the affected limb to von Frey filaments and withdrawal latencies upon immersion in a 4.5 degrees C water bath, respectively. We show that treatment with the MC receptor antagonist SHU9119 has a profound anti-allodynic effect, suggesting that the endogenous MC system has a tonic effect on nociception. In contrast, administration of the MC4 receptor agonists MTII and d-Tyr-MTII primarily increases the sensitivity to mechanical and cold stimulation. No antinociceptive action was observed after administration of the selective MC3 receptor agonist Nle-gamma-MSH. Together, our data suggest that the spinal cord MC system is involved in neuropathic pain and that the effects of MC receptor ligands on the responses to painful stimuli are exerted through the MC4 receptor. In conclusion, antagonism of the spinal melanocortin system might provide a new approach in the treatment of neuropathic pain.
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PMID:Antagonism of the melanocortin system reduces cold and mechanical allodynia in mononeuropathic rats. 1105 Jan 35

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