Adv Exp Med Biol
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As with diphtheria, immunity to pertussis is complex because it involves both individual and community protection against infection with B. pertussis. Although B. pertussis has at least five proteins required for virulence and an additional two "toxic" components, only serum neutralizing antibodies to PT (antitoxin) have been shown to confer immunity to pertussis.
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Review
Vasopressin regulates adrenal functions by acting through different vasopressin receptor subtypes.
In mammals, vasopressin is known to be synthesized in the hypothalamus and released in the blood stream at the pituitary level. This neuropeptide is also synthesized and secreted by the adrenal medulla in many species including human. Moreover, agents like acetylcholine and corticotropin releasing factor stimulates its basal secretion. ⋯ The adrenal medulla secretes AVP and exhibits functional vasopressin receptors. The adrenal cortex also possesses functional vasopressin receptors and is in contact with adrenal medulla via "medullary rays". We may thus reasonably conclude that AVP physiologically regulates adrenal gland functions via autocrine/paracrine mechanisms.
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Hyponatremia is common in advanced heart failure and relates to the severity of the disease. Non-osmotic arginine vasopressin (AVP) release and biosynthesis have been shown to be increased during chronic cardiac failure (CHF) and baroreceptors pathways have been demonstrated to play a major role in this non-osmotic stimulation of AVP. Decreased cardiac output unloads the baroreceptors and activates the sympathetic nervous system, thus stimulating AVP through a separate pathway which overrides the osmotic pathway. ⋯ This AQP2 upregulation can be entirely suppressed by V2 receptor AVP antagonists paralleling the correction of the hyponatremia. Thus, non-osmotic release of AVP in CHF upregulates AQP2 water channels, enhances water reabsorption and causes hyponatremia. The V1, and perhaps the V2, receptor activation may also diminish cardiac function.
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Adipose tissue triacylglycerol (TG) constitutes by far the largest energy store in the body. In order for this TG to be used as a substrate for oxidative metabolism, it has to be exported from adipose tissue and transported to the tissues where it will be used. Following hydrolysis of stored TG, non-esterified fatty acids (NEFA) leave the adipocyte and enter the plasma. ⋯ However, much of the evidence for this derives from studies of isolated adipocytes, and confirmation in vivo is much needed. There are links between abdominal fat deposition and risk of cardiovascular disease which may be mediated through increased fatty acid delivery from abdominal fat depots. The ability of exercise specifically to decrease intra-abdominal fat stores may be yet another health benefit of regular exercise.
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Involvement of AVP in several pathological states is now established and specific modulation of the different AVP receptor subtypes (V1a, V1b and V2) offers new clinical perspectives for treating major diseases. Recent years have marked a turning point with the design and the use of the first nonpeptide vasopressin receptor antagonists expressing various selectively profile. In that field, we report here the characterization of SR 121463A a highly selective, orally-active antagonist of vasopressin V2 receptors in several models in vitro and in vivo. ⋯ In addition, this compound potently antagonized DDAVP extrarenal V2 effects on hemostasis factor release (FVIII, vW and t-PA) in dogs (ID50 approximately 10 micrograms/kg i.v.). Thus, SR 121463A is the most potent and selective, orally-active V2 antagonist yet described. It is a useful ligand for exploring V2 receptors and the therapeutical usefulness of pure V2 aquaretic agents in several water-retaining diseases and congestive heart failure.