Gene/Protein
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Pivot Concepts:
Gene/Protein
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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)
Puberty is a period of dramatic physiologic changes when children become adults.
Chronic kidney disease (CKD)
, like many disorders, may delay or blunt the onset and outcomes of puberty. These include attainment of adult height and reproductive capacity. Although nutrition and treatment effects may contribute to these phenomena, increasing evidence supports direct biological effects of CKD on the
neurohypophyseal
axis that controls these systems. Although CKD affects puberty, this life period also impacts the progression of CKD. Diabetes mellitus, posterior urethral valves, reflux nephropathy, and hypoplasia all appear to accelerate with sexual maturation. Potential mechanisms include increases in blood pressure and body size as well as altered endocrine physiology. Better understanding of the interactions of puberty and CKD may lead to better outcomes for children with CKD as well as longer preservation of native kidney function.
...
PMID:Puberty and chronic kidney disease. 1619 76
Chronic kidney disease (CKD)
often accompanies cardiovascular complications, causing postoperative morbidity and even mortality. Since fluid and electrolyte homeostasis is deregulated in CKD patients, fluid therapy itself may cause postoperative morbidity. Recent studies have shown that forced diuresis through fluid overload offers no renoprotective effect and instead has harmful consequences. Fluid overload should be avoided, and the volume load should be used as the rationale for controlling hemodynamics. The emerging concept of a "zero-fluid balance policy" may be beneficial even for CKD patients. Hydroxyethylstarch might not be preferentially used for CKD patients. Hydroxyethylstarch is not contraindicated for CKD patients except in cases with long-term accumulation caused by increased vascular permeability, such as cases with sepsis, as long as an efficient volume expansion is beneficial to the patient. The regulation of renal function through the endocrine system (i.e., renin-angiotensin-aldosterone and
vasopressin
) is a key target for protecting the kidney in CKD. The recent development of a receptor blocker targeting these endocrine systems may be beneficial for correcting the fluid balance caused by excess intraoperative fluid therapy. The main issue for fluid therapy in surgical CKD patients may not be the quantity of fluid, but rational intervention affecting the endocrine system.
...
PMID:[Perioperative fluid therapy for surgical patients with chronic kidney disease]. 2436 71
Chronic kidney disease (CKD)
carries a large cardiovascular burden in part due to hypertension and neurohumoral dysfunction - manifesting as sympathetic overactivity, baroreflex dysfunction and chronically elevated circulating
vasopressin
. Alterations within the central nervous system (CNS) are necessary for the expression of neurohumoral dysfunction in CKD; however, the underlying mechanisms are poorly defined. Uraemic toxins are a diverse group of compounds that accumulate as a direct result of renal disease and drive dysfunction in multiple organs, including the brain. Intensive haemodialysis improves both sympathetic overactivity and cardiac baroreflex sensitivity in renal failure patients, indicating that uraemic toxins participate in the maintenance of autonomic dysfunction in CKD. In rodents exposed to uraemia, immediate early gene expression analysis suggests upregulated activity of not only pre-sympathetic but also
vasopressin
-secretory nuclei. We outline several potential mechanisms by which uraemia might drive neurohumoral dysfunction in CKD. These include superoxide-dependent effects on neural activity, depletion of nitric oxide and induction of low-grade systemic inflammation. Recent evidence has highlighted superoxide production as an intermediate for the depolarizing effect of some uraemic toxins on neuronal cells. We provide preliminary data indicating augmented superoxide production within the hypothalamic paraventricular nucleus in the Lewis polycystic kidney rat, which might be important for mediating the neurohumoral dysfunction exhibited in this CKD model. We speculate that the uraemic state might serve to sensitize the central actions of other sympathoexcitatory factors, including renal afferent nerve inputs to the CNS and angiotensin II, by way of recruiting convergent superoxide-dependent and pro-inflammatory pathways.
...
PMID:Uraemia: an unrecognized driver of central neurohumoral dysfunction in chronic kidney disease? 2724 97
Chronic kidney disease (CKD)
causes salt-sensitive hypertension that is often resistant to treatment and contributes to the progression of kidney injury and cardiovascular disease. A better understanding of the mechanisms contributing to salt-sensitive hypertension in CKD is essential to improve these outcomes. This review critically explores these mechanisms by focusing on how CKD affects distal nephron Na
+
reabsorption. CKD causes glomerulotubular imbalance with reduced proximal Na
+
reabsorption and increased distal Na
+
delivery and reabsorption. Aldosterone secretion further contributes to distal Na
+
reabsorption in CKD and is not only mediated by renin and K
+
but also by metabolic acidosis, endothelin-1, and
vasopressin
. CKD also activates the intrarenal renin-angiotensin system, generating intratubular angiotensin II to promote distal Na
+
reabsorption. High dietary Na
+
intake in CKD contributes to Na
+
retention by aldosterone-independent activation of the mineralocorticoid receptor mediated through Rac1. High dietary Na
+
also produces an inflammatory response mediated by T helper 17 cells and cytokines increasing distal Na
+
transport. CKD is often accompanied by proteinuria, which contains plasmin capable of activating the epithelial Na
+
channel. Thus, CKD causes both local and systemic changes that together promote distal nephron Na
+
reabsorption and salt-sensitive hypertension. Future studies should address remaining knowledge gaps, including the relative contribution of each mechanism, the influence of sex, differences between stages and etiologies of CKD, and the clinical relevance of experimentally identified mechanisms. Several pathways offer opportunities for intervention, including with dietary Na
+
reduction, distal diuretics, renin-angiotensin system inhibitors, mineralocorticoid receptor antagonists, and K
+
or H
+
binders.
...
PMID:Salt-sensitive hypertension in chronic kidney disease: distal tubular mechanisms. 3314 11
