Anopheles gambiae corazonin: gene structure, expression and effect on mosquito heart physiology

Haemolymph flow in mosquitoes is primarily driven by the contraction of a dorsal vessel that is subdivided into an abdominal heart and a thoracic aorta. The factors that regulate mosquito heart contractions are not understood, but in other insects heart physiology is partially controlled by several...

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Bibliographic Details
Published in:Insect molecular biology 2012-06, Vol.21 (3), p.343-355
Main Authors: Hillyer, J. F, Estévez‐Lao, T. Y, Funkhouser, L. J, Aluoch, V. A
Format: Article
Language:English
Subjects:
alternative splicing
Amino Acid Sequence
Animals
Anopheles - drug effects
Anopheles - genetics
Anopheles - physiology
Anopheles gambiae
aorta
corazonin
dorsal vessel
Gene Expression Regulation - drug effects
Gene Knockdown Techniques
genes
haemolymph
heart
Heart - drug effects
Heart - physiology
hemolymph
Insect Proteins - chemistry
Insect Proteins - genetics
Insect Proteins - metabolism
Insect Proteins - pharmacology
larvae
messenger RNA
Molecular Sequence Data
mosquito
neurohormones
neuropeptide
Neuropeptides - chemistry
Neuropeptides - genetics
Neuropeptides - metabolism
Neuropeptides - pharmacology
Periplaneta americana
pupae
Receptors, Neuropeptide - genetics
RNA interference
RNA Interference - drug effects
RNA, Messenger - genetics
RNA, Messenger - metabolism
Transcription, Genetic - drug effects
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Summary:Haemolymph flow in mosquitoes is primarily driven by the contraction of a dorsal vessel that is subdivided into an abdominal heart and a thoracic aorta. The factors that regulate mosquito heart contractions are not understood, but in other insects heart physiology is partially controlled by several neurohormones. One of these is corazonin, a neuropeptide initially discovered because of its cardioacceleratory activity in the cockroach Periplaneta americana. In the present study, we describe the corazonin gene and transcript structure in the mosquito Anopheles gambiae, characterize its developmental expression, and test its role in modulating heart physiology. We show that the A. gambiae corazonin gene encodes the most common form of the corazonin peptide ([Arg7]‐corazonin) and that it is alternatively spliced, with the only difference between the transcripts occurring in the 5′ untranslated region. Analysis of the developmental expression of corazonin and the corazonin receptor revealed that transcription of both follows a bimodal distribution, with highest mRNA levels in 2nd instar larvae and during the pupa to adult transition. Finally, experiments where mosquitoes were injected with various doses of corazonin and experiments where the transcription of corazonin and the corazonin receptor were reduced by RNA interference failed to detect a significant role for this neuropeptide in modulating mosquito heart physiology.
ISSN:0962-1075
1365-2583
DOI:10.1111/j.1365-2583.2012.01140.x