Selective activity of a proctolin analogue reveals the existence of two receptor subtypes

Richard A. Baines; Christian Walther; Jane M. Hinton; Richard H. Osborne; Danuta Konopińska

Selective activity of a proctolin analogue reveals the existence of two receptor subtypes

Richard A. Baines, Christian Walther, Jane M. Hinton, Richard H. Osborne, Danuta Konopińska

Research output: Contribution to journal › Article › peer-review

Abstract

1. The neuropeptide proctolin (Arg-Tyr-Leu-Pro-Thr) both potentiates neurally evoked contractions and causes contractures of insect skeletal muscle. In the hindleg extensor tibiae muscle of the locust, Schistocerca gregaria, the proctolin analogue [Afb(p-NO2)2]-proctolin is also able to potentiate neurally evoked contractions but is ~1,000-fold less effective in evoking contractures. 2. Proctolin and [Afb(p-NO2)2]-proctolin are equipotent in their ability to elevate the second-messenger inositol trisphosphate in isolated extensor tibiae muscle fiber membranes. 3. [Afb(p- NO2)2]-proctolin is ~1,000-fold less effective than proctolin in reducing the resting potassium conductance (G(K)) in extensor tibiae fibers. 4. We conclude that the action of proctolin on the extensor tibiae muscle is mediated by at least two receptor subtypes and that [Afb(p-NO2)2]- proctolin acts selectively on the receptor that potentiates neurally evoked contractions.

Original language	English
Pages (from-to)	2647-2650
Number of pages	3
Journal	Journal of Neurophysiology
Volume	75
Issue number	6
Publication status	Published - Jun 1996

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@article{5d2af993e8c14207bcf49159782bfb70,

title = "Selective activity of a proctolin analogue reveals the existence of two receptor subtypes",

abstract = "1. The neuropeptide proctolin (Arg-Tyr-Leu-Pro-Thr) both potentiates neurally evoked contractions and causes contractures of insect skeletal muscle. In the hindleg extensor tibiae muscle of the locust, Schistocerca gregaria, the proctolin analogue [Afb(p-NO2)2]-proctolin is also able to potentiate neurally evoked contractions but is \textasciitilde{}1,000-fold less effective in evoking contractures. 2. Proctolin and [Afb(p-NO2)2]-proctolin are equipotent in their ability to elevate the second-messenger inositol trisphosphate in isolated extensor tibiae muscle fiber membranes. 3. [Afb(p- NO2)2]-proctolin is \textasciitilde{}1,000-fold less effective than proctolin in reducing the resting potassium conductance (G(K)) in extensor tibiae fibers. 4. We conclude that the action of proctolin on the extensor tibiae muscle is mediated by at least two receptor subtypes and that [Afb(p-NO2)2]- proctolin acts selectively on the receptor that potentiates neurally evoked contractions.",

author = "Baines, \{Richard A.\} and Christian Walther and Hinton, \{Jane M.\} and Osborne, \{Richard H.\} and Danuta Konopi{\'n}ska",

year = "1996",

month = jun,

language = "English",

volume = "75",

pages = "2647--2650",

journal = "Journal of Neurophysiology",

issn = "1522-1598",

publisher = "American Physiological Society",

number = "6",

}

TY - JOUR

T1 - Selective activity of a proctolin analogue reveals the existence of two receptor subtypes

AU - Baines, Richard A.

AU - Walther, Christian

AU - Hinton, Jane M.

AU - Osborne, Richard H.

AU - Konopińska, Danuta

PY - 1996/6

Y1 - 1996/6

N2 - 1. The neuropeptide proctolin (Arg-Tyr-Leu-Pro-Thr) both potentiates neurally evoked contractions and causes contractures of insect skeletal muscle. In the hindleg extensor tibiae muscle of the locust, Schistocerca gregaria, the proctolin analogue [Afb(p-NO2)2]-proctolin is also able to potentiate neurally evoked contractions but is ~1,000-fold less effective in evoking contractures. 2. Proctolin and [Afb(p-NO2)2]-proctolin are equipotent in their ability to elevate the second-messenger inositol trisphosphate in isolated extensor tibiae muscle fiber membranes. 3. [Afb(p- NO2)2]-proctolin is ~1,000-fold less effective than proctolin in reducing the resting potassium conductance (G(K)) in extensor tibiae fibers. 4. We conclude that the action of proctolin on the extensor tibiae muscle is mediated by at least two receptor subtypes and that [Afb(p-NO2)2]- proctolin acts selectively on the receptor that potentiates neurally evoked contractions.

AB - 1. The neuropeptide proctolin (Arg-Tyr-Leu-Pro-Thr) both potentiates neurally evoked contractions and causes contractures of insect skeletal muscle. In the hindleg extensor tibiae muscle of the locust, Schistocerca gregaria, the proctolin analogue [Afb(p-NO2)2]-proctolin is also able to potentiate neurally evoked contractions but is ~1,000-fold less effective in evoking contractures. 2. Proctolin and [Afb(p-NO2)2]-proctolin are equipotent in their ability to elevate the second-messenger inositol trisphosphate in isolated extensor tibiae muscle fiber membranes. 3. [Afb(p- NO2)2]-proctolin is ~1,000-fold less effective than proctolin in reducing the resting potassium conductance (G(K)) in extensor tibiae fibers. 4. We conclude that the action of proctolin on the extensor tibiae muscle is mediated by at least two receptor subtypes and that [Afb(p-NO2)2]- proctolin acts selectively on the receptor that potentiates neurally evoked contractions.

M3 - Article

C2 - 8793768

SN - 1522-1598

VL - 75

SP - 2647

EP - 2650

JO - Journal of Neurophysiology

JF - Journal of Neurophysiology

IS - 6

ER -

Selective activity of a proctolin analogue reveals the existence of two receptor subtypes

Abstract

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