Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P01185 (
vasopressin
)
23,126
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Angiotensin II is dipsogenic, and
vasopressin
(ADH) regulates renal water excretion. Together, these hormones govern overall mammalian water balance. The Brattleboro rat with inherited diabetes insipidus (DI) lacks ADH and is therefore a convenient model with which to elucidate mechanisms regulating water metabolism. In the present studies, angiotensin II has also been removed from DI rats by the administration of an inhibitor (captopril, SQ 14225; D-2-methyl-3-mercaptopropanoyl-L-proline) of the enzyme which converts angiotensin I, the relatively inert component of the renin-angiotensin system, to angiotensin II, the biologically active substance. SQ 14225 reduced the drinking rates, and after 6 days lowered peripheral plasma aldosterone concentrations were associated with hyperkalaemia. We conclude that the polydipsia of diabetes insipidus partly results from elevated plasma renin activities and angiotensin II concentrations seen in this syndrome. Further, the apparent
hypoaldosteronism
of DI Brattleboro rats reflects differences in both tissue usage of the steroid and adrenocortical sensitivities associated with polyuria, hyperosmolarity and possibly potassium wasting.
...
PMID:Captopril (SQ 14225) depresses drinking and aldosterone in rats lacking vasopressin. 38 37
A 62-year-old man with pneumonia and left flank pain had a clinical syndrome of hyponatremia, hypotension, dehydration, and high urinary sodium excretion in the presence of a normal glomerular filtration rate. The plasma level of
antidiuretic hormone
was relatively high despite decreased serum osmolality. Thyroid function and excretion of glucocorticoid and sex steroids were normal. The serum aldosterone level was very low despite elevated plasma renin activity. Angiotensin II failed to stimulate any secretion of aldosterone, despite the occurrence of a progressive rise in blood pressure. On the other hand, rapid ACTH administration increased both serum aldosterone and cortisol. The patient showed no effective response to increased salt intake, but large doses of mineralocorticoid resulted in a normal serum sodium level without dehydration. Subsequently, he suffered cardiac arrest secondary to ventricular tachycardia. Postmortem examination showed well differentiated adenocarcinoma in the left pleura and an intact, histologically normal adrenal zona glomerulosa and kidney. This is the first reported case of a critically ill patient with hyponatremia caused by hyperreninemic
hypoaldosteronism
possibly due to angiotensin II insensitivity and tubular unresponsiveness to mineralocorticoid.
...
PMID:Hyponatremia and hyperreninemic hypoaldosteronism in a critically ill patient: combination of insensitivity to angiotensin II and tubular unresponsiveness to mineralocorticoid. 217 79
Potassium output from the body is regulated by renal excretion, which takes place predominantly in the late distal and cortical collecting tubules. The accepted model for potassium secretion implies the accumulation of potassium into the cell by the activity of basolateral Na-K-ATPase and its exit through voltage-dependent conductive channels. The factors regulating renal potassium secretion are potassium intake, distal urinary flow, systemic acid-base equilibrium, aldosterone,
antidiuretic hormone
and, probably, epinephrine. Renal handling of potassium is best studied by the response to the acute administration of furosemide. This loop diuretic not only increases sodium and chloride excretion but also enhances potassium and hydrogen ion excretion and stimulates the renin-aldosterone axis. The term "renal tubular hyperkalaemia" refers to a tubular dysfunction where the hyperkalaemia is disproportionate to any reduction in glomerular filtration rate (GFR) and not due primarily or solely to aldosterone deficiency or to drugs impairing either mineralocorticoid action or tubular transport. The syndromes of renal tubular hyperkalaemia mainly observed in childhood are "chloride shunt" syndrome, hyporeninaemic
hypoaldosteronism
and primary or secondary pseudohypoaldosteronism. Differential diagnosis between these conditions is easily made if attention is paid to the level of GFR, presence of sodium wasting, activity of the renin-aldosterone axis and renal response to acute administration of furosemide.
...
PMID:Renal tubular hyperkalaemia in childhood. 315 64
The endocrine response to stress is complex. Elevations in the serum concentrations of the "classic" stress hormones, epinephrine and cortisol, occur following many kinds of physiologic challenge and are accompanied by elevations in corticotropin, GH, and glucagon levels. These changes are probably responsible for the hyperglycemia and hypercatabolism common to most critical illness. If volume depletion is present,
vasopressin
, renin, and aldosterone secretion are also likely to be stimulated. These hormones, if present in excess, may produce fluid retention and hyponatremia. In some critically ill patients, there is a dissociation of renin and aldosterone production called hyperreninemic
hypoaldosteronism
, but the clinical importance of this syndrome is poorly understood. Thyroid hormone metabolism is commonly affected by critical illness, which results in characteristic abnormalities of thyroid function testing known as the euthyroid sick syndrome. The reproductive axis is exquisitely sensitive to physiologic stress; hypogonadotropic hypogonadism is a common finding in critical illness. The ongoing challenge to the clinician is to determine whether seemingly abnormal hormone measurements in critically ill patients reflect an appropriate homeostatic response to severe illness or, instead, whether they denote an independent metabolic disorder that might actually cause or contribute to the patient's unstable condition. In view of the exceedingly complex (and poorly understood) interactions involved in the human response to a severe illness, a thoughtful approach to the whole patient is essential and far preferable to indiscriminate hormone testing. Such testing, at best, may be uninterpretable in light of the clinical circumstances or, at worst, may lead to therapeutic misadventures.
...
PMID:The endocrine response to critical illness. 780 93
Hyponatraemia is very common in AIDS patients. It is observed in about 40-50% of hospitalized patients. It may contribute to overall mortality in advanced disease. Vasopressin measurements in these patients basically present two distinct syndromes: hyponatraemia and 'normal'
vasopressin
levels (i.e. measurable
vasopressin
) and hyponatraemia with suppressed
vasopressin
. Hyponatraemia with suppressed
vasopressin
is very rare and has only been observed in AIDS patients with dementia and primary polydipsia. Hyponatraemia and measurable
vasopressin
can be also divided into two syndromes. In some patients
vasopressin
is 'appropriately' elevated, i.e. in those with body fluid losses (diarrhoea) or chronic hypovolaemia (adrenal failure); these patients also present with hyperuricaemia and other signs of low blood volume. In other patients
vasopressin
is 'inappropriately' elevated in those with no clinical evidence of hypovolaemia (typically characterized by low serum uric acid levels) such as in Pneumocystis carinii pneumonia and other opportunistic infections leading to SIADH. CSWS is a relatively frequent complication in some patients with cerebral infection or tumour. High-dose trimethoprim (for Pneumocystis carinii prevention) acts as an amiloride-like drug and induces a clinical state characterized by hyponatraemia and hyperkalaemia which is indistinguishable from hyporeninaemic
hypoaldosteronism
. The mechanism of the hyponatraemia caused by other drugs (miconazole, pentamidine, amphotericin, vidarabine) is not as yet known.
...
PMID:Hyponatraemia in AIDS. 781 Dec 25
Antidiuretic hormone (ADH), or arginine vasopressin (AVP), is primarily regulated through plasma osmolarity, as well as non-osmotic stimuli including blood volume and stress. Links between water-electrolyte and carbohydrate metabolism have also been recently demonstrated. AVP acts via the intermediary of three types of receptors: V1a, or V1, which exerts vasoconstrictive effects; pituitary gland V1b, or V3, which participates in the secretion of ACTH; and renal V2, which reduces the excretion of pure water by combining with water channels (aquaporin 2). Antidiuresis syndrome is a form of euvolaemic, hypoosmolar hyponatraemia, which is characterised by a negative free water clearance with inappropriate urine osmolality and intracellular hyper-hydration in the absence of renal, adrenal and thyroid insufficiency. Ninety percent of cases of antidiuresis syndrome occur in association with hypersecretion of
vasopressin
, while
vasopressin
is undetectable in 10% of cases. Thus the term "antidiuresis syndrome" is more appropriate than the classic name "syndrome of inappropriate ADH secretion" (SIADH). The clinical symptoms, morbidity and mortality of hyponatraemia are related to its severity, as well as to the rapidity of its onset and duration. Even in cases of moderate hyponatraemia that are considered asymptomatic, there is a very high risk of falls due to gait and attention disorders, as well as rhabdomyolysis, which increases the fracture risk. The aetiological diagnosis of hyponatraemia is based on the analysis of calculated or measured plasma osmolality (POsm), as well as blood volume (skin tenting of dehydration, oedema). Hyperglycaemia and hypertriglyceridaemia lead to hyper- and normoosmolar hyponatraemia, respectively. Salt loss of gastrointestinal, renal, cutaneous and sometimes cerebral origin is hypovolaemic, hypoosmolar hyponatraemia (skin tenting), whereas oedema is present with hypervolaemic, hypoosmolar hyponatraemia of heart failure, nephrotic syndrome and cirrhosis. Some endocrinopathies (glucocorticoid deficiency and hypothyroidism) are associated with euvolaemic, hypoosmolar hyponatraemia, which must be distinguished from SIADH. Independent of adrenal insufficiency, isolated
hypoaldosteronism
can also be accompanied by hypersecretion of
vasopressin
secondary to hypovolaemia, which responds to mineralocorticoid administration. The causes of SIADH are classic: neoplastic (notably small-cell lung cancer), iatrogenic (particularly psychoactive drugs, chemotherapy), lung and cerebral. Some causes have been recently described: familial hyponatraemia via X-linked recessive disease caused by an activating mutation of the
vasopressin
2 receptor; and corticotropin insufficiency related to drug interference between some inhaled glucocorticoids and cytochrome p450 inhibitors, such as the antiretroviral drugs and itraconazole, etc. SIADH in marathon runners exposes them to a risk of hypotonic encephalopathy with fatal cerebral oedema. SIADH treatment is based on water restriction and demeclocycline. V2 receptor antagonists are still not marketed in France. These aquaretics seem effective clinically and biologically, without demonstrated improvement to date of mortality in eu- and hypervolaemic hyponatraemia. Obviously treatment of a corticotropic deficit, even subtle, should not be overlooked, as well as the introduction of fludrocortisone in isolated
hypoaldosteronism
and discontinuation of iatrogenic drugs.
...
PMID:Hyponatremia and antidiuresis syndrome. 2211 69
Hyponatremia due to intolerance to water is a frequent clinical condition and associated with increased mortality. Besides the well known neurological symptoms, gait disturbances, falls, fractures and osteoporosis have also been described recently in patients with chronic hyponatremia. Acute hyponatremia is a more dramatic situation and needs rapid action when severe neurological symptoms are present. Hypertonic saline is recommended to treat this condition until relief of severe symptoms. The causes of hyponatremia have to be carefully examined. Especially diuretics, antidepressants and endocrine causes, e.g. hypothyroidism, hypocortisolism and
hypoaldosteronism
should be excluded by examination of the patient history, clinical examination and by laboratory tests. Patients should be classified as being euvolemic, hypovolemic or hypervolemic. Whereas acute hyponatremia with severe symptom should be treated with hypertonic saline, euvolemic hyponatremia due to the syndrome of inappropriate
antidiuretic hormone
secretion (SIADH) with mild and moderate symptoms can now be treated with tolvaptan, a selective V(2)-
vasopressin
antagonist. Oral tolvaptan has been shown to be an effective and potent aquaretic to treat hyponatremia caused by SIADH as evidenced by a simultaneous increase in serum sodium and a decrease in urine osmolality. The condition of patients with mild or moderate hyponatremia is also improved. Side effects associated with tolvaptan include increased thirst, dry mouth, polyuria and hypernatremia. Rapid increases in serum sodium should be avoided by close monitoring in a hospital setting.
...
PMID:[Hyponatremia : The water-intolerant patient]. 2291 Nov 66
