Olivera Šarenac scite author profile

Since the discovery of vasopressin (VP) and oxytocin (OT) in 1953, considerable knowledge has been gathered about their roles in cardiovascular homeostasis. Unraveling VP vasoconstrictor properties and V1a receptors in blood vessels generated powerful hemostatic drugs and drugs effective in the treatment of certain forms of circulatory collapse (shock). Recognition of the key role of VP in water balance via renal V2 receptors gave birth to aquaretic drugs found to be useful in advanced stages of congestive heart failure. There are still unexplored actions of VP and OT on the cardiovascular system, both at the periphery and in the brain that may open new venues in treatment of cardiovascular diseases. After a brief overview on VP, OT and their peripheral action on the cardiovascular system, this review focuses on newly discovered hypothalamic mechanisms involved in neurogenic control of the circulation in stress and disease.

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Vasopressin, Central Autonomic Control and Blood Pressure Regulation

Lozić

Šarenac

Murphy

et al. 2018

Curr Hypertens Rep

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Suggest that somato-dendritically released vasopressin modulates the activity of magnocellular neurons in the PVN and SON, their discharge pattern and systemic release. Advances have been made in uncovering autocrine and paracrine mechanisms controlling presympathetic neuron activity, involving intranuclear receptors, co-released neuroactive substances and glia. It is now obvious that intranuclear release of vasopressin and the co-release of neuroactive substances in the PVN, as well as the level of expression of vasopressin receptors, modulate sympathetic outflow to the cardiovascular system and determine vulnerability to stress. Further research involving patho-physiological models is needed to validate these targets and foster the development of more efficient treatment.

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Unbiased entropy estimates in stress: A parameter study

Bošković

Lončar-Turukalo

Šarenac

et al. 2012

Computers in Biology and Medicine

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Blockade of central vasopressin receptors reduces the cardiovascular response to acute stress in freely moving rats

Stojičić

Milutinović-Smiljanić

Šarenac

et al. 2008

Neuropharmacology

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