Blood meal-induced changes to antennal transcriptome profiles reveal shifts in odor sensitivities in
            <i>Anopheles gambiae</i>

Rinker, David C.; Pitts, R. Jason; Zhou, Xiaofan; Suh, Eunho; Rokas, Antonis; Zwiebel, Laurence J.

doi:10.1073/pnas.1302562110

Cited by 150 publications

(225 citation statements)

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“…Moreover, antennal receptor neurons located within the sensilla of the flagellum detect odorant and thermal cues, which modulate hostseeking (i.e. blood feeding) and oviposition (Wang et al, 2009;Rinker et al, 2013;Suh et al, 2016). Because of the critical role they play in survival and reproduction, mosquitoes must ensure that molecules required for proper antennal functioning are efficiently transported into and out of these appendages.…”

Section: Discussionmentioning

confidence: 99%

CCAP and FMRFamide-like peptides accelerate the contraction rate of the antennal accessory pulsatile organs (auxiliary hearts) of mosquitoes

Suggs

Jones

Murphree

et al. 2016

Journal of Experimental Biology

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Insects rely on specialized accessory pulsatile organs (APOs), also known as auxiliary hearts, to propel hemolymph into their antennae. In most insects, this is accomplished via the pulsations of a pair of ampulla located in the head, each of which propels hemolymph across an antenna via an antennal vessel. Once at the distal end of the appendage, hemolymph returns to the head via the antennal hemocoel. Although the structure of the antennal hearts has been elucidated in various insect orders, their hormonal modulation has only been studied in cockroaches and other hemimetabolous insects within the superorder Polyneoptera, where proctolin and FMRFamide-like peptides accelerate the contraction rate of these auxiliary hearts. Here, we assessed the hormonal modulation of the antennal APOs of mosquitoes, a group of holometabolous (Endopterygota) insects within the order Diptera. We show that crustacean cardioactive peptide (CCAP), FMRFamide and SALDKNFMRFamide increase the contraction rate of the antennal APOs and the heart of Anopheles gambiae. Both antennal hearts are synchronously responsive to these neuropeptides, but their contractions are asynchronous with the contraction of the heart. Furthermore, we show that these neuropeptides increase the velocity and maximum acceleration of hemolymph within the antennal space, suggesting that each contraction is also more forceful. To our knowledge, this is the first report demonstrating that hormones of a holometabolous insect modulate the contraction dynamics of an auxiliary heart, and the first report that shows that the hormones of any insect accelerate the velocity of hemolymph in the antennal space.

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Section: Discussionmentioning

confidence: 99%

CCAP and FMRFamide-like peptides accelerate the contraction rate of the antennal accessory pulsatile organs (auxiliary hearts) of mosquitoes

Suggs

Jones

Murphree

et al. 2016

Journal of Experimental Biology

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“…The antennae also mechanically assist during the mating of fleas, and contain the timing elements of the sun compass that drives the autumn migration of monarch butterflies (Hsu and Wu, 2001;Merlin et al, 2009). In mosquitoes, the detection of near-field sound by the antennae's Johnston's organs influences courtship and mating, and the reception of odorant and thermal cues by antennal receptor neurons controls oviposition and host-seeking behaviors (Cator et al, 2009;Wang et al, 2009;Carey et al, 2010;Rinker et al, 2013). Because antennae are intricately involved in essential physiological processes, insects must ensure that molecules required for proper…”

Section: Introductionmentioning

confidence: 99%

Hemolymph circulation in insect sensory appendages: functional mechanics of antennal accessory pulsatile organs (auxiliary hearts) in the mosquitoAnopheles gambiae

Boppana

Hillyer

2014

Journal of Experimental Biology

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Mosquito antennae provide sensory input that modulates hostseeking, mating and oviposition behaviors. Thus, mosquitoes must ensure the efficient transport of molecules into and out of these appendages. To accomplish this, mosquitoes and other insects have evolved antennal accessory pulsatile organs (APOs) that drive hemolymph into the antennal space. This study characterizes the structural mechanics of hemolymph propulsion throughout the antennae of Anopheles gambiae. Using intravital video imaging, we show that mosquitoes possess paired antennal APOs that are located on each side of the head's dorsal midline. They are situated between the frons and the vertex in an area that is dorsal to the antenna but ventral to the medial-most region of the compound eyes. Antennal APOs contract in synchrony at 1 Hz, which is 45% slower than the heart. By means of histology and intravital imaging, we show that each antennal APO propels hemolymph into the antenna through an antennal vessel that traverses the length of the appendage and has an effective diameter of 1-2 μm. When hemolymph reaches the end of the appendage, it is discharged into the antennal hemocoel and returns to the head. Because a narrow vessel empties into a larger cavity, hemolymph travels up the antenna at 0.2 mm s −1 but reduces its velocity by 75% as it returns to the head. Finally, treatment of mosquitoes with the anesthetic agent FlyNap (triethylamine) increases both antennal APO and heart contraction rates. In summary, this study presents a comprehensive functional characterization of circulatory physiology in the mosquito antennae.KEY WORDS: Antenna, Hemocoel, Circulatory physiology, Antennal heart, Heart, Vessel INTRODUCTIONThe antennae of insects are involved in the detection of chemical, tactile, thermal and auditory stimuli (Chapman and Simpson, 2013). The antennae also mechanically assist during the mating of fleas, and contain the timing elements of the sun compass that drives the autumn migration of monarch butterflies (Hsu and Wu, 2001;Merlin et al., 2009). In mosquitoes, the detection of near-field sound by the antennae's Johnston's organs influences courtship and mating, and the reception of odorant and thermal cues by antennal receptor neurons controls oviposition and host-seeking behaviors (Cator et al., 2009;Wang et al., 2009;Carey et al., 2010;Rinker et al., 2013). Because antennae are intricately involved in essential physiological processes, insects must ensure that molecules required for proper RESEARCH ARTICLEDepartment of Biological Sciences, Vanderbilt University, Nashville, TN 37235, USA. antennal functioning are efficiently transported into and out of these peripheral sensory appendages.The primary manner by which insects transport nutrients, hormones, waste and other molecules from one region of the body to another is by circulating a fluid medium called hemolymph through an open body cavity called the hemocoel Klowden, 2013). The main pump that drives hemolymph circulation is called the dorsal vessel, which is a muscula...

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“…transcriptomics | cell signaling | gamete | chemical ecology | Culicidae T o date, studies of odorant receptor (OR) expression and function in mosquitoes and other insects have been limited to adult and larval appendages where the fundamental properties of insect chemosensation continue to be elucidated (1)(2)(3)(4)(5)(6). Unlike their mammalian counterparts, which function strictly as G protein-coupled receptors (GPCRs), insect ORs generally act as heteromeric ion channels of at least two subunits: a highly conserved coreceptor (Orco) and a ligand-recognizing receptor (ORx) (7)(8)(9)(10)(11), although evidence for second messenger signaling has also been observed (12,13), especially in sex pheromone signaling (14).…”

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confidence: 99%

Odorant receptor-mediated sperm activation in disease vector mosquitoes

Pitts

Liu

Zhou

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Insects, such as the malaria vector mosquito, Anopheles gambiae, depend upon chemoreceptors to respond to volatiles emitted from a range of environmental sources, most notably blood meal hosts and oviposition sites. A subset of peripheral signaling pathways involved in these insect chemosensory-dependent behaviors requires the activity of heteromeric odorant receptor (OR) ion channel complexes and ligands for numerous A. gambiae ORs (AgOrs) have been identified. Although AgOrs are expressed in nonhead appendages, studies characterizing potential AgOr function in nonolfactory tissues have not been conducted. In the present study, we explore the possibility that AgOrs mediate responses of spermatozoa to endogenous signaling molecules in A. gambiae. In addition to finding AgOr transcript expression in testes, we show that the OR coreceptor, AgOrco, is localized to the flagella of A. gambiae spermatozoa where Orco-specific agonists, antagonists, and other odorant ligands robustly activate flagella beating in an Orco-dependent process. We also demonstrate Orco expression and Orco-mediated activation of spermatozoa in the yellow fever mosquito, Aedes aegypti. Moreover, we find Orco localization in testes across distinct insect taxa and posit that OR-mediated responses in spermatozoa may represent a general characteristic of insect reproduction and an example of convergent evolution.transcriptomics | cell signaling | gamete | chemical ecology | Culicidae

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Blood meal-induced changes to antennal transcriptome profiles reveal shifts in odor sensitivities in Anopheles gambiae

Cited by 150 publications

References 53 publications

CCAP and FMRFamide-like peptides accelerate the contraction rate of the antennal accessory pulsatile organs (auxiliary hearts) of mosquitoes

CCAP and FMRFamide-like peptides accelerate the contraction rate of the antennal accessory pulsatile organs (auxiliary hearts) of mosquitoes

Hemolymph circulation in insect sensory appendages: functional mechanics of antennal accessory pulsatile organs (auxiliary hearts) in the mosquitoAnopheles gambiae

Odorant receptor-mediated sperm activation in disease vector mosquitoes

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