T. Yazawa scite author profile

SUMMARY At the threshold concentration (1-10 pmol l-1), the neuropeptide hormones proctolin (PR) and the FLRFamide-like peptide (FLP) F2cause an increase in amplitude of electrically evoked contractions (each contraction is a brief tetanus) of lobster heart ostial muscle. At higher concentrations each peptide also induces an increase in tonus (contracture). The PR-induced contracture and augmentation of tetani are proportional to increases in [Ca2+]i. The rate of onset and recovery of peptide-induced effects on both tetani and contracture appeared to reduced by Ca2+ storage by the sarcoplasmic reticulum (SR). Enhanced tetani following a contracture may be due to enhanced voltage-gated Ca2+current and sarcoplasmic reticular (SR) Ca2+ loading. The SR Ca2+ loading appears to be specific for PR and F2, since glutamic-acid-induced contractures are not followed by increased tetani. The prolonged elevation of [Ca2+]i during contracture causes a right-ward shift in the force-pCa curve indicating a decrease in myofibrillar sensitivity to Ca2+. Blocking voltage-gated Ca2+ channels with Cd2+, nifedipine or verapamil, while reducing tetani, does not prevent peptide-induced contracture and enhanced tetani. Opening SR Ca2+ channels and depleting SR Ca2+with either caffeine or ryanodine blocked tetani but permitted accelerated peptide-induced contractures. We conclude that PR and F2 at low concentration enhance voltage-dependent Ca2+ induced Ca2+ release from the SR, while higher hormone levels directly gate Ca2+ entry across the sarcolemma.

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Intrinsic and extrinsic neural and neurohumoral control of the decapod heart

Yazawa

Kuwasawa

1992

Experientia

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Structure and contractile properties of the ostial muscle (musculus orbicularis ostii) in the heart of the American lobster

Yazawa

Wilkens

Cavey

et al. 1999

Journal of Comparative Physiology B: Biochemical, Systemic, and

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Neural control of the cardio-arterial valves in an isopod crustacean,Bathynomus doederleini: Excitatory and inhibitory junctional potentials

1985

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The cardio-regulator nerves of the hermit crabs: anatomical and electrophysiological identification of their distribution inside the heart

Yazawa

Kuwasawa

1984

J. Comp. Physiol.

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T. Yazawa

Sites and modes of action of proctolin and the FLP F2 on lobster cardiac muscle

Intrinsic and extrinsic neural and neurohumoral control of the decapod heart

Structure and contractile properties of the ostial muscle (musculus orbicularis ostii) in the heart of the American lobster

Neural control of the cardio-arterial valves in an isopod crustacean,Bathynomus doederleini: Excitatory and inhibitory junctional potentials

The cardio-regulator nerves of the hermit crabs: anatomical and electrophysiological identification of their distribution inside the heart

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