Octopamine and Tyramine Regulate the Activity of Reproductive Visceral Muscles in the Adult Female Blood-Feeding Bug, Rhodnius Prolixus Sam Hana* and Angela B
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© 2017. Published by The Company of Biologists Ltd | Journal of Experimental Biology (2017) 220, 1830-1836 doi:10.1242/jeb.156307 RESEARCH ARTICLE Octopamine and tyramine regulate the activity of reproductive visceral muscles in the adult female blood-feeding bug, Rhodnius prolixus Sam Hana* and Angela B. Lange ABSTRACT Monastirioti et al., 1996). Octopamine and tyramine signal via The role of octopamine and tyramine in regulating spontaneous G-protein coupled receptors (GPCRs), leading to changes in second contractions of reproductive tissues was examined in the messenger levels. The recently updated receptor classification α β female Rhodnius prolixus. Octopamine decreased the amplitude of (Farooqui, 2012) divides the receptors into Oct -R, Oct -Rs β β β spontaneous contractions of the oviducts and reduced RhoprFIRFa- (Oct 1-R, Oct 2-R, Oct 3-R), TYR1-R and TYR2-R. In general, β α induced contractions in a dose-dependent manner, whereas tyramine Oct -Rs lead to elevation of cAMP while Oct -R and TYR-Rs lead to 2+ only reduced the RhoprFIRFa-induced contractions. Both octopamine an increase in Ca (Farooqui, 2012). and tyramine decreased the frequency of spontaneous bursal The movement of eggs in the reproductive system of contractions and completely abolished the contractions at Rhodnius prolixus starts at the ovaries, the site of egg maturation. 5×10−7 mol l−1 and above. Phentolamine, an octopamine receptor Upon ovulation, mature eggs are released into the oviducts antagonist, attenuated the inhibition induced by octopamine on the (Wigglesworth, 1942). Eggs are then guided, via oviductal oviducts and the bursa. Octopamine also increased the levels of peristaltic and phasic contractions, to the common oviduct, where cAMP in the oviducts, and this effect was blocked by phentolamine. spermatozoa are released through spermathecal contractions, Dibutyryl cyclic AMP mimicked the effects of octopamine by reducing leading to fertilization (Davey, 1958). Fertilized eggs are coated the frequency of bursal contractions, suggesting that the octopamine with secretions from the cement gland (Lococo and Huebner, 1980). receptor may act by an Octβ receptor. The tyramine receptor The bursa deposits the fertilized eggs via strong phasic contractions. antagonist yohimbine failed to block the inhibition of contractions These activities are under the direct control of the central nervous induced by tyramine on the bursa, suggesting that tyramine may be system (CNS) and branches of the trunk nerves innervate the acting on the Octβ receptor in the bursa. reproductive tissues of R. prolixus (Insausti, 1994). The lateral oviducts are made up of two layers of visceral muscle, an inner KEY WORDS: Oviducts, Bursa, Inhibition, Contractions, Cyclic AMP circular and an outer longitudinal layer, whilst the bursa is made up of thicker muscle fibres arranged longitudinally (Sedra and Lange, INTRODUCTION 2014). The oviducts and the bursa spontaneously contract (Sedra The biogenic amine octopamine acts as a neurotransmitter, and Lange, 2014) but the site of the intrinsic pacemaker(s) in the neuromodulator and neurohormone in invertebrates (Orchard, reproductive system has not been identified. 1982). Octopamine and its precursor tyramine are both derivatives Octopamine and tyramine modulate the myogenic activity of the amino acid tyrosine, and octopamine and tyramine are believed of a variety of visceral muscles in insects, including tissues of to function analogously to adrenaline (epinephrine) and noradrenaline the reproductive system. Octopamine decreases the basal tonus, (norepinephrine) in vertebrates (Roeder, 2005). Thus, tyramine is and reduces the amplitude and frequency of neurally evoked now considered to be a neuroactive chemical in its own right, contractions of the lateral oviducts of the locust Locusta migratoria independent of octopamine (Kononenko et al., 2009; Lange, 2009). (Lange and Orchard, 1986). Also, octopamine has been shown to Octopamine and tyramine regulate diverse physiological decrease the amplitude of proctolin-induced contractions in a dose- and behavioural processes such as courtship, locomotion, learning dependent manner (Lange and Orchard, 1986; Nykamp and Lange, and memory, and reproduction (Avila et al., 2012; Huang et al., 2016; 2000). These effects appear to be mediated by an Oct/Tyr receptor Roeder, 1999; Selcho et al., 2012). Female Drosophila melanogaster shown to be expressed in the oviducts of locusts (Molaei et al., with mutated tyrosine decarboxylase show reproductive sterility due 2005). In Drosophila and the stable fly Stomoxys calcitrans, to the lack of octopamine (Cole et al., 2005). In tyrosine octopamine reduces the amplitude and frequency of contractions, decarboxylase mutant flies, supplementation with octopamine and reduces basal tonus of the oviducts in a dose-dependent manner restored reproductive viability (Cole et al., 2005). Similarly, (Cook and Wagner, 1992; Middleton et al., 2006; Rodríguez- tyramine β-hydroxylase mutant flies that are found to only lack Valentín et al., 2006). These physiological effects could be linked to octopamine are also reproductively sterile (Monastirioti, 2003; two receptors: the octopamine receptor in the mushroom bodies (OAMB) and Octβ2-R, which have been shown in Drosophila to be expressed in the epithelial and muscle cells of the oviducts (Lee University of Toronto Mississauga, Department of Biology, Mississauga, ON, Canada L5L1C6. et al., 2003; Li et al., 2015; Lim et al., 2014). These receptors are involved in ovulation and fertilization of eggs, whereby mutant *Author for correspondence ([email protected]) constructs of these receptors show reproductive sterility in females, S.H., 0000-0002-0847-7159 accumulation of eggs in the ovary and reduction in the number of eggs laid (Lee et al., 2003; Li et al., 2015; Lim et al., 2014). In Received 12 January 2017; Accepted 21 February 2017 contrast, octopamine has also been shown to increase the frequency Journal of Experimental Biology 1830 RESEARCH ARTICLE Journal of Experimental Biology (2017) 220, 1830-1836 doi:10.1242/jeb.156307 and the amplitude of myogenic contractions in the lateral oviducts of to four contractions (over ∼2 min) was averaged and presented as a the cricket Gryllus bimaculatus (Tamashiro and Yoshino, 2014). In percentage relative to contractions of the tissue in saline (control). the cockroach Leucophaea maderae, the action of octopamine and To examine the effects of octopamine or tyramine on a peptide- tyramine is unclear; both stimulated oviduct contractions in some induced contraction, 10−6 mol l−1 RhoprFIRFa was used. preparations but inhibited oviduct contractions in other preparations RhoprFIRFa produced a standard change in basal tonus which (Cook et al., 1984). Tyramine decreases the basal tonus and was then compared with the change in basal tonus produced when attenuates proctolin-induced contractions in locusts (Donini and the peptide was applied with the amine. Lange, 2004); however, tyramine has no effect on the amplitude of contractions or basal tonus of the oviducts in D. melanogaster Bursa bioassay (Middleton et al., 2006). The dorsal cuticle was removed followed by the gut, exposing the The purpose of this study was to determine the role of octopamine reproductive system. Using a fine silk thread, a double knot was and tyramine in modulating myogenic contractions of the oviducts made at the junction of the bursa and the oviducts. A cut was made and the bursa of the adult female R. prolixus and to investigate the above the double knot and the bursa was left attached to the ventral mechanism by which octopamine and tyramine mediate these cuticle and the fine silk thread was attached to the force transducer. effects. The bursa was secured in place by pinning the ventral cuticle to the Sylgard-coated dish. The amplitude and the frequency of three to MATERIALS AND METHODS four contractions were averaged (over ∼2 min) and presented as a Animals percentage relative to contractions of the bursa in saline (control). Adult R. prolixus Stål 1859 were maintained on a 12 h:12 h Amines were added to the preparations as described above for the light:dark cycle at approximately 50% humidity and 28°C. oviduct bioassay. Rhodnius prolixus were fed defibrinated rabbit’s blood (Hemostat Laboratories, Dixon, CA, USA; supplied by Cedarlane Laboratories cAMP determination assay Inc., Burlington, ON, Canada) once in every instar. Four- to five- cAMP content in the oviducts of 4- to 6-week-old adult female week-old unfed adult females were used for all experiments. R. prolixus was measured. A total of 50 oviducts were dissected and placed in a dish containing saline. Two oviducts were pooled and Chemicals placed in Eppendorf tubes containing saline. Using a dispensing −3 −1 D,L-Octopamine hydrochloride and tyramine hydrochloride were pipette, 10 µl of 5×10 mol l 3-isobutyl-1-methylaxanthine made as 10−2 mol l−1 stocks and stored at −20°C. Phentolamine (IBMX) was added to all tubes followed by the addition of either hydrochloride and dibutyryl cAMP were freshly made in octopamine or phentolamine, or both. The tubes were gently mixed physiological saline prior to use. Aliquots of AKDNFIRFamide and left to incubate for 10 min. The reaction was stopped by adding (RhoprFIRFa, 10−3 mol l−1; GenScript USA, Inc., Piscataqay, NJ, 400 µl boiling ELISA buffer (Cyclic AMP ELISA Kit, Cayman USA) were stored at −20°C. Stock solution of yohimbine was Chemical, Ann Arbor, MI, USA). The tubes were boiled for 10 min prepared in 95% ethanol; the final percentage of ethanol in the and sonicated for 15 s at output 3 and constant duty cycle with a experimental treatments was ≤0.1%. Physiological saline (NaCl Branson Sonifier 250 (VWR, Mississauga, ON, Canada). The −1 −1 −1 150 mmol l , KCl 8.6 mmol l , CaCl2 2 mmol l , NaHCO3 homogenates were centrifuged for 15 min at 13,000 rpm. Two −1 −1 −1 4 mmol l , glucose 34 mmol l , MgCl2 8.5 mmol l , Hepes 50 µl samples of supernatant from each tube were assayed for 5 mmol l−1, pH 7.2) was prepared in double distilled water and used cAMP with the Cyclic AMP ELISA Kit (Cayman Chemical) to dilute all chemicals.