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Target Concepts:
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Query: UNIPROT:P01185 (
vasopressin
)
23,126
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A 16-month-old black male infant had unusual thirst, polyuria, hyponatremia, and hypertension. His polyuria was unresponsive to
vasopressin
therapy, and his high blood pressure was not effectively controlled by antihypertensive drugs. Radiographic examinations revealed an occult
Wilms tumor
in the right kidney. After removal of the tumor, the signs and symptoms were relieved. The tumor had a renin activity about 280 times that of the adjacent renal cortex, and many intracytoplasmic secretory granules were found on electron microscopy. The pathogenesis of these clinical manifestations appears to be mediated through the physiologic pathways of renin-angiotensin II and renin-aldosterone.
...
PMID:Polydipsia, polyuria, and hypertension associated with renin-secreting Wilms tumor. 20 43
It has long been known that a number of diseases affecting the kidney are the result of genetic defects passed on through the generations. Whereas some of these defects are rare, others, eg, the cystic diseases, are among the most common. Our understanding of the underlying pathobiology in these disorders based on physiologic and cell biologic studies is variable--we suspect that the V2
vasopressin
receptor is defective in nephrogenic diabetes insipidus; we know that the glomerular basement membrane in Alport syndrome is abnormal; we suspect that a tumor suppressor gene is defective in
Wilms tumor
; and we lack a unifying hypothesis regarding cystic degeneration of the kidney. The advent and rapid progress of molecular biology have permitted an entirely new approach to understanding these diseases, allowing the expected identification of mutations in the V2 receptor, the unexpected finding that a novel collagen gene is responsible for many Alport syndrome cases, and the somewhat less-unexpected finding that only one of several genes responsible for renal cancers has been identified. Further, we are beginning to unravel the complex pathways responsible for cystic changes in the kidney. This review integrates these molecular biologic discoveries with the known pathobiology of disease to achieve a more complete understanding of the whole process.
...
PMID:Inherited diseases of the kidney. 792 3
With the aim of identifying possible gene targets for direct or indirect regulation by
vasopressin
in the renal medulla, we have carried out cDNA array experiments in inner medullas of Brattleboro rats infused with the V(2) receptor-selective
vasopressin
analog desamino-Cys1,d-Arg8
vasopressin
(dDAVP) for 72 h. Of the 1,176 genes on the array, 137 transcripts were increased by 2-fold or more, and 10 transcripts were decreased to 0.5-fold or less. Quantitative, real-time RT-PCR measurements confirmed increases seen for six selected transcripts (
Wilms' tumor
protein, beta-arrestin 2, neurofibromin, casein kinase IIbeta, aquaporin-3, and aquaporin-4). To correlate changes in mRNA expression with changes in protein expression, we carried out quantitative immunoblotting for 28 of the proteins whose cDNAs were on the array. For several targets including aquaporin-2, transcript abundance and protein abundance changes did not correlate. However, for most genes examined, changes in mRNA abundances were associated with concomitant protein abundance changes. Targets with demonstrated increases in both protein and mRNA abundances included neurofibromin, casein kinase IIbeta, the beta-subunit of the epithelial Na channel (beta-ENaC), 11beta-hydroxysteroid dehydrogenase type 2, and c-Fos. Additional cDNA arrays revealed that several transcripts that were increased in abundance after 72 h of dDAVP were also increased after 4 h, including casein kinase IIbeta, beta-ENaC, aquaporin-3, UT-A, and syntaxin 2. These studies have identified several transcripts whose abundances are regulated in the inner medulla in response to infusion of dDAVP and that could play roles in the regulation of salt and water excretion.
...
PMID:cDNA array identification of genes regulated in rat renal medulla in response to vasopressin infusion. 1238 13
