Shiva Neysari scite author profile

Arterial Hypertension (AH) is characterized by reduced nitric oxide (NO) biosynthesis, activation of the Renin-Angiotensin-Aldosteron-System (RAAS), vasoconstriction, and microvascular rarefaction. The latter contributes to target organ damage, especially in left ventricular hypertrophy, and may partially be due to impaired angiogenesis. Angiogenesis, the formation of new microvessels and microvascular networks from existing ones, is a highly regulated process that arises in response to hypoxia and other stimuli and that relieves tissue ischemia. In AH, angiogenesis seems impaired. However, blood pressure alone does not affect angiogenesis, and microvascular rarefaction is present in normotensive persons with a family history for AH. Normal or increased NO in several processes and diseases enables or enhances angiogenesis (e.g. in portal hypertension) and reduced NO biosynthesis (for example, in a rat model of AH, in other disease models in vivo, and in endothelial NO Synthase knock out mice) impairs angiogenesis. Angiogenic growth factors such as Vascular Endothelial Growth Factor (VEGF) and Fibroblast Growth Factor (FGF) induce NO and require NO to elicit an effect. Effector molecules and corresponding receptors of the RAAS either induce (Bradykinin, Angiotensin II) or perhaps inhibit angiogenesis. The pattern of Bradykinin- and Angiotensin II-receptor expression and the capacity to normalize NO biosynthesis may determine whether ACE-inhibitors, Angiotensin II-receptor antagonists and other substances affect angiogenesis. Reconstitution of a normally vascularized tissue by reversal of impaired angiogenesis with drugs such as ACE inhibitors and AT1 receptor antagonists may contribute to successful treatment of hypertension-associated target organ damage, e.g. left ventricular hypertrophy.

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Irreversible Binding Kinetics of Neuropeptide Y Ligands to Y2 but Not to Y1 and Y5 Receptors

Dautzenberg

Neysari

2005

Pharmacology

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Neuropeptide Y (NPY) receptors type 1 (Y₁), type 2 Y₂) and type 5 (Y₅) were tested for their kinetic properties to bind radiolabeled NPY or PYY. Rapid association and dissociation was observed with recombinant (HEK293 cells) and endogenous (SK-N-MC cells) human Y₁ and recombinant mouse Y₅ receptors. Recombinant (HEK293) and endogenous (SMS-KAN) human Y₂ receptors bound both radiolabels comparable to the Y₁ receptors, but only minimal (∼20%) dissociation of both radiolabels was observed after long incubation time (>8 h). Furthermore, neither peptide nor small molecule Y₂ ligands efficiently competed for binding to Y₂ receptors once association binding had been initiated. The Y₂-selective antagonist BIIE0246 behaved as an insurmountable antagonist in functional assays when pre-incubated for 30 min before agonist addition, but was a competitive antagonist when co-applied with the agonist. These data show that Y₂ receptors in contrast to Y₁ and Y₅ receptors bind their ligands in an irreversible manner.

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B2-kinin receptor plays a key role in B1-, angiotensin converting enzyme inhibitor-, and vascular endothelial growth factor-stimulated in vitro angiogenesis in the hypoxic mouse heart

Miguel¹,

Neysari²,

Jakob³

et al. 2008

Cardiovascular Research

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The kinin B2 receptor plays a crucial role in angiogenesis that is induced by different vasoactive molecules, namely bradykinin, ACE inhibitors, B1-stimulating kinin metabolites, and VEGF164 in an in vitro model of angiogenesis of mouse heart under hypoxia. Therapeutic treatment of hypertensive patients by using ACE inhibitors may potentially benefit the ischaemic heart through inducing B2-dependent heart neovascularization.

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The angiogenic response to Bradykinin "in vitro" : the role of Bradykinin receptors in hypoxic hearts and tumors

Neysari¹

2004

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Shiva Neysari

Hypertension and Angiogenesis

Irreversible Binding Kinetics of Neuropeptide Y Ligands to Y<sub>2</sub> but Not to Y<sub>1</sub> and Y<sub>5</sub> Receptors

B2-kinin receptor plays a key role in B1-, angiotensin converting enzyme inhibitor-, and vascular endothelial growth factor-stimulated in vitro angiogenesis in the hypoxic mouse heart

The angiogenic response to Bradykinin "in vitro" : the role of Bradykinin receptors in hypoxic hearts and tumors

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