peptide-yy has been researched along with Hypotension* in 2 studies
1 review(s) available for peptide-yy and Hypotension
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Neuropeptide Y receptor subtypes, Y1 and Y2.
Heterogeneity among NPY (and PYY) receptors was first proposed on the basis of studies on sympathetic neuroeffector junctions, where NPY (and PYY) can exert three types of action: 1) a direct (e.g., vasoconstrictor) response; 2) a postjunctional potentiating effect on NE-evoked vasoconstriction; and 3) a prejunctional suppression of stimulated NE release; the two latter phenomena are probably reciprocal, since NE affect NPY mechanisms similarly. It was found that amidated C-terminal NPY (or PYY) fragments, e.g., NPY 13-36, could stimulate selectively prejunctional NPY/PYY receptors, which were termed Y2-receptors. Consequently, the postjunctional receptors which were activated poorly by NPY/PYY fragments, were termed Y1-receptors. Later work has indicated that the Y2-receptor may occur postjunctionally in selected sympathetic effector systems. The central nervous system appears to contain a mixture of Y1- and Y2-receptors as indicated by functional as well as binding studies. For instance, NPY and NPY 13-36 produced diametrically opposite effects on behavioral activity, indicating the action of the parent peptide on two distinct receptors. Cell lines, most importantly neuroblastomas, with exclusive populations of Y1- or Y2-receptors, have been characterized by binding and second messenger studies. In this work, selective agonists for the two receptor subtypes were used. Work of many investigators has formed the basis for subclassifying NPY/PYY effects being mediated by either Y1- or Y2-receptors. A preliminary subclassification based on effects of NPY, PYY, fragments and/or analogs is provided in Table 6. It is, however, to be expected that further receptor heterogeneity will be revealed in the future. It is argued that mast cells possess atypical NPY/PYY receptors. The histamine release associated with stimulation of the latter receptors may, at least in part, underlie the capacity of NPY as well as of short C-terminal fragments to reduce blood pressure. Fragments, such as NPY 22-36, appear to be relatively selective vasodepressor agents because of their weak vasopressor properties.(ABSTRACT TRUNCATED AT 400 WORDS) Topics: Calcium; Cloning, Molecular; Colforsin; Cyclic AMP; Humans; Hypotension; In Vitro Techniques; Neuroblastoma; Neuropeptide Y; Norepinephrine; Peptide Fragments; Peptide YY; Peptides; Receptors, Neuropeptide Y; Receptors, Neurotransmitter; Receptors, Opioid; Receptors, Phencyclidine; Receptors, sigma; Signal Transduction; Sympathetic Nervous System; Synaptic Transmission; Vasoconstriction | 1990 |
1 other study(ies) available for peptide-yy and Hypotension
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Structural requirements for neuropeptide Y18-36-evoked hypotension: a systematic study.
It has been shown that NPY and select C-terminal fragments of NPY that evoke a hypotensive response upon intraarterial administration in the rat also cause mast cell degranulation and histamine release in vitro. Additionally, elevation of plasma histamine levels has been observed concomitant with the hypotensive effect of NPY and various C-terminal fragments. In order to investigate whether the hypotensive response to NPY18-36 is correlated to this observed elevation of histamine in vivo, we sought to characterize the structural requirements for each activity. We conducted a systematic replacement of each amino acid in NPY18-36 by its D-isomer. Additionally, various modifications were made to the N- or C-terminii of NPY18-36. The following rank order of potency was obtained for the hypotensive action of these analogues of NPY18-36 relative to NPY18-36. Only one analogue ([D-Tyr21]NPY18-36) exhibited significantly enhanced potency. Eleven analogues of NPY18-36, ([D-Thr32]-, [D-Arg35]-, [D-Ile31]-, [D-Leu30]-, [D-Tyr27]-, [D-Ser22]-, [D-Tyr36]-, [D-Gln34]-, [D-Asn29]-, [D-Ala23]-, and [D-Arg33]NPY18-36) were equipotent with NPY18-36. Four analogues ([D-His26]-, [D-Ile28]-, and [D-Ala18]NPY18-36 and -NPY18-27) had reduced potency (10-80%) while eight analogues ([D-Arg19]-, [D-Tyr20], [D-Leu24]-, [D-Arg25]-, [Ac-Ala18]-, [Me-Ala18]-, [desamino-Ala18]NPY18-36 and NPY18-36 free acid) failed to produce a significant hypotensive response (less than 10%) at the doses tested. The sensitivity of NPY18-36 to chiral inversion of single residues or other modifications at the N-terminus suggested the presence of a conformationally well defined N-terminal pharmacophore. Additionally, five NPY18-36 analogues were tested for elevation of plasma histamine levels. The rank order of potency ([D-Thr32]NPY18-36 = [D-Tyr21]NPY18-36 much greater than NPY18-36 greater than [D-Ala18]NPY18-36 greater than [Ac-Ala18]NPY18-36) was correlated with each analogue's potency at evoking a hypotensive response. In contrast, NPY1-36 failed to evoke an elevation in plasma histamine levels despite its hypotensive effects. Hence, we conclude that the magnitude of the hypotensive response evoked by an NPY18-36 analogue is primarily a function of its ability to elevate plasma histamine levels. However, the mechanism underlying NPY1-36-evoked hypotension appears to be different. Topics: Animals; Cell Degranulation; Chromatography, High Pressure Liquid; Histamine Release; Hypotension; Male; Mast Cells; Neuropeptide Y; Peptide Fragments; Peptide YY; Peptides; Rats; Rats, Inbred Strains; Structure-Activity Relationship | 1992 |