Neuromodulation of flight initiation by octopamine in the cockroach Periplaneta americana

We have tested the effect of a known insect neuromodulator, octopamine, on flight initiation in the cockroach. Using minimally dissected animals, we found that octopamine lowered the threshold for windevoked initiation of flight when applied to either of two major synaptic sites in the flight circuitry: 1) the last abdominal ganglion, where wind-sensitive neurons from the cerci excite dorsal giant interneurons, or 2) the metathoracic ganglion, where the dorsal giant interneurons activate interneurons and motoneurons which are involved in producing the rhythmic flight motor pattern in the flight muscles (Fig. 2).Correlated with this change in flight initiation threshold, we found that octopamine applied to the last abdominal ganglion increased the number of action potentials produced by individual dorsal giant interneurons when recruiting the cereal wind-sensitive neurons with wind puffs (Figs. 3, 4, 5) or with extracellular stimulation of their axons (Fig. 6). Octopamine increases the excitability of the giant interneurons (Figs. 7, 8). Also, when we stimulated individual dorsal giant interneurons intracellularly, the number of action potentials needed to initiate flight was reduced when octopamine was applied to the metathoracic ganglion (Fig. 9).Abbreviations EMG electromyogram - dGIs dorsal giant interneurons - GI giant interneuron - A6 sixth abdominal ganglion - T3 third thoracic ganglion - EPSP excitatory postsynaptic potential     

Localization of the receptors that initiate and maintain flight in the cockroach, Periplaneta americana

Using local air streams, screening and surgical removal of the cerci and antennae, studies have been made on the receptors which provide for initiation and maintenance of the flight in the cockroach. It was shown that in suspended insect which lacks any contacts of legs with the base, the flight may be initiated by direct air currents either on the cerci, or antennae. Receptors which maintain the flight are located on the antennae and wings, the prolonged flight being provided mainly by antennae receptors.     

Kinetic properties of human muscle pyruvate kinase

Summary The steady-state kinetics of human skeletal muscle pyruvate kinase (M_A) and its RNA-complex (M_B) has been examined and compared. Kinetic studies revealed significant differences in kinetic properties with respect to free and complex form of pyruvate kinase.The M_A form follows a simple Michaelis-Menten kinetics in contrast with the M_B form, which displays a negative cooperativity with respect to ADP. V_max for the complex is 40–60% that for free enzyme. Heterologous RNA is a noncompetitive inhibitor of free enzyme but the kinetics of the complex (M_B) is not affected.In presence of 1.0 mM ATP in an assay mixture the kinetic constants of the complex were unchanged except for V_max, which increased by nearly 60%. Aged preparations of free enzyme (M_A) were activated by 100% and more, but the native enzyme was inhibited by 22%.Inorganic phosphate is a potent activator of both forms of pyruvate kinase. In presence of 50 mM K-phosphate the apparent Michaelis constant and interaction coefficient are unchanged, but V_max for free enzyme increases by 35% and for the complex by 70%, respectively. The specific activity of aged M_A form can be restored to the original value after incubation of the enzyme in 50 mM K-phosphate, pH 7.6, or by addition of ATP (1.0 mM) to the assay mixture.     

The effect of temperature on flight initiation in the cockroach Periplaneta americana

The effect of temperature during development of the flight system of the American cockroach was tested. Animals were raised at three different temperatures from egg cases to adulthood then various parameters of flight were tested. Animals raised at cooler temperatures were found to require significantly stronger wind puffs to initiate flight than did animals raised in warmer temperatures. Some animals were raised at one temperature during embryonic development (i.e. while the animals were still in egg cases) and then switched to a different temperature for nymphal development. In these cases only the temperature experienced during embryonic development had a significant permanent effect on flight. Parameters associated with pattern generation such as interburst interval were not affected by temperature during either developmental period.     

Characterization of cockroach (Periplaneta americana) fat body phospholipase A(2) activity

A phospholipase has been identified in the fat body of the American cockroach, Periplaneta americana, which removes fatty acid from the sn-2 acyl position of an artificial substrate. The enzyme has been characterized using a crude preparation obtained by low-speed centrifugation of the homogenized tissue. With 1-hexadecanoyl-2-(1-pyrenedecanoyl)-sn-glycero-3-phosphocholine as the substrate, the K(m) has been estimated to be 1.17 microM and the v(max) 113.5 pmol/min/mg protein. The phospholipase has a pH optimum close to 7 and shows maximal activity at 50 degrees C. Activity of the phospholipase has been determined in cytosolic and plasma membrane fractions. The specific activity of the latter fraction is approximately twice that of the cytosol. The enzyme in both fractions is Ca(2+)-independent. Arch.     

Stimulation of trehalose efflux from cockroach (Periplaneta americana) fat body by hypertrehalosemic hormone is dependent on protein kinase C and calmodulin

Protein kinase C and calmodulin play key roles in cockroach fat body during activation of phosphorylase and trehalose efflux by HTH-II. The data support the view that an increase in cytosolic Ca2+ is prerequisite for enhanced activity of protein kinase C and calmodulin. Chelation of Ca2+ (i) with BAPTA blocks HTH-II-induced trehalose efflux from the fat body whereas thapsigargin, which raises [Ca2+]i to the same level as HTH-II, produces only a small, yet significant increase in trehalose efflux. Sphingosine, an inhibitor of protein kinase C, inhibits HTH-II-induced trehalose efflux in a concentration-dependent manner. Trehalose efflux is not activated by the protein kinase C activators OAG or PMA alone but in the presence of thapsigargin both agents increase trehalose efflux to a level comparable to that obtained with HTH-II. Thapsigargin has only a moderate activating effect on phosphorylase but in combination with OAG produces an activation indistinguishable from that provoked by HTH-II. Each of the structurally different calmodulin inhibitors, trifluoperazine, W-7, and calmidazolium, blocks completely the action of HTH-II on trehalose efflux, thus confirming the importance of calmodulin in HTH-II initiated trehalose efflux.     

Regulation of intracellular calcium in dispersed fat body trophocytes of the cockroach,Periplaneta americana,by hypertrehalosemic hormone

Incubation of trophocytes from dissaggregated fat body of Periplaneta americana with either of the hypertrehalosemic hormones, HTH-I or HTH-II, leads to an increase in the cytosolic concentration of Ca(2+) from approximately 80 to approximately 310nM with a rise time of approximately 110s. The Ca(2+) concentration then declines to the resting level during the ensuing 5min. In the absence of extracellular Ca(2+) the increase in [Ca(2+)](i) due to HTH is limited to approximately 100nM. The calmodulin inhibitors calmidazolium and W-7 also limit to a similar degree the ability of HTH to increase [Ca(2+)](i). Phorbol 12-myristate 13-acetate, an activator of protein kinase C, was shown to block Ca(2+) entry through the plasma membrane. Additional evidence to support the view that HTH enhances Ca(2+) influx has been obtained by measuring the quenching of fura-2 fluorescence when Ca(2+) is replaced with Mn(2+).     

Purification and characterization of arginine kinase from the American cockroach (Periplaneta americana)

The isolation and characterization of homogeneous arginine kinase from the cockroach is reported. The purification protocol produces 6.6 mg of pure enzyme from 6.8 g of whole cockroach. The purified enzyme cross-reacts with a heterologous antibody and monoclonal antibody against arginine kinase from the shrimp. Both antibody preparations also cross-react with extracts from several species known to contain monomeric arginine kinase, but fail to react with extracts from organisms containing dimeric arginine kinase. Cockroach arginine kinase has a molecular mass of approximately 43,000 determined from measurements by gel filtration and gel electrophoresis. Compared with other arginine kinases, the enzyme from the cockroach is relatively thermostable (50% activity retained at 50 degrees C for 10 min) and has a pH optima of 8.5 and 6.5-7.5, for the forward and reverse reactions, respectively. Treatment with 5,5'dithiobis[2-nitrobenzoic acid] indicates that arginine kinase has a single reactive sulfhydryl group and, interestingly, the reaction is biphasic. The Michaelis constants for the phosphagen substrates, arginine: 0.49 mM, phosphoarginine: 0.94 mM, and nucleotide substrates MgATP: 0.14 mM, MgADP: 0.09 mM, are in the range reported for other arginine kinases. A 1% solution of pure enzyme has an absorbance of 7.0 at 280 nm. Calculations based on circular dichroic spectra indicate that arginine kinase from the cockroach has 12% alpha-helical structure. The intrinsic protein fluorescence emission maximum at 340 nm suggests that tryptophan residues are below the surface of the protein and not exposed to solvent. Arginine kinase from the cockroach and shrimp are known to be deleterious immunogens towards humans. The availability of pure protein, its characterization and potential regulation of activity, will be useful in developing agents to control the cockroach population and its destructive role in agriculture and human health.     

Synthesis of diacylglycerols by monoacylglycerol acyltransferase from crop,midgut and fat body tissues of the american cockroach,Periplaneta americana L.

Monoacylglycerol acyltransferase (E.C. 2.3.1 type) activity was determined in the crop, midgut and fat body of adult, male cockroaches. Tissue homogenates were capable of acylating [³H]-glycerol-2-monoolein with palmitic acid. The major product was diacylglycerol although some triacylglycerol was also formed. The greatest rate of acylation was observed in the midgut, but the crop and the fat body also displayed a capacity for acylation of monoacylglycerol. The enzyme activity was dependent on time, protein and substrate concentration. The ability of rac-1-monoolein and 2-monooleyl glyceryl ether to substitute for 2-monoolein as an acyl acceptor, was also demonstrated.     

Purification and characterization of vitellogenin from the American cockroach,Periplaneta americana

• 1.1. Vitellogenin (VG) was isolated and purified from the hemolymph of female American cockroaches.
• 2.2. The purification method used in this study comprises two steps: the first step is based on the method originally developed for purifying lipophorin from hemolymph, and the second step is the separation of VG from lipophorin by a KBr density gradient ultracentrifugation.
• 3.3. The purified VG was characterized according to molecular weight, substructure, shape and size, and lipid composition.
• 4.4. The VG molecule is almost globular in shape with the diameter of about 15.5 nm and is indistinguishable from lipophorin in shape and size.
• 5.5. The native molecular weight determined by light scattering method was 560 kDa.
• 6.6. The VG consists of four subunits with molecular weights of approximately 102, 81, 49 and 40 kDa, respectively.
• 7.7. VG is a lipoprotein and comprises 92% protein and 8% lipid.
• 8.8. Major lipid components were found to be diacylglycerol (25%) and phospholipids (71%).

     

Contractile activation in the retractor unguis muscle of the cockroach Periplaneta americana

1. The K⁺-induced contracture consists of a phasic and a sustained component. Both were eliminated in Ca²⁺-free saline, but the sustained component recovered on the addition of Ca²⁺ to the muscle.2. Procaine mainly inhibited the phasic component. 3. Unlike the sustained component, the phasic component was inhibited by nifedipine in a concentration dependent manner.4. Divalent cations such as Mn²⁺, Co²⁺ and Ni²⁺ markedly increased the sustained component at low concentrations, but decreased it at high concentrations. The cations also modified the phasic component differentially, but to a lesser extent. High concentration abolished the phasic component.5. Ouabain markedly enhanced the sustained component.6. Caffeine contracture was a phasic type. Its duration and amplitude were augmented by pre-soaking the muscle in Na⁺-reduced salines. Immediate pre-treatment with caffeine eliminated the phasic component of the 160mM K⁺-induced contracture.7. These results suggest that a Na-Ca exchange mechanism may play a role in excitation-contraction coupling in insect muscle. Calcium ions flowing into the cell upon membrane depolarization may specifically activate the phasic component by way of a calcium-induced calcium releasing mechanism.     

Further purification and characterization of trehalases from the American cockroach,Periplaneta americana

Summary A soluble trehalase was purified more than 200-fold from the male accessory gland of the American cockroach,Periplaneta americana, by CM-cellulose, hydrophobic chromatography, and Sephacryl S-200 gel filtration. The final preparation was homogeneous as judged by polyacryl-amide gel electrophoresis in the absence and presence of SDS, isoelectric focusing, and immuno-diffusion tests. The purified enzyme was maximally active at pH 5.2, and showed high specificity for trehalose with aK _m of 0.98 mM. The isoelectric point was 4.7. The molecular weight of the enzyme (75,000) was determined by molecular sieve chromatography and SDS-polyacrylamide gel electrophoresis. The amino acid composition was determined and compared with those of trehalases purified from other sources. The trehalase could be stained for carbohydrate with the periodic acid-Schiff's reagent following SDS-polyacrylamide gel electrophoresis, indicating that it was a glycoprotein. Another soluble trehalase and two types of fat body trehalases could be highly purified by the method described. A comparison of the properties of trehalases from the accessory gland and the fat body showed some resemblance.     

The mechanism and modes of inhibition of arginine kinase from the cockroach (Periplaneta americana)

The kinetic mechanism and evaluation of several potential inhibitors of purified arginine kinase from the cockroach (Periplanta americana) were investigated. This monomeric phosphagen kinase is important in maintaining ATP levels during the rapid energy demands of muscle required for contraction and motility. Analysis reveals the following dissociation constants (mM) for the binary complex: E.Arg P-->E+Arg P, K=1.0; E.Arg-->E+Arg, K=0.45; E.MgATP-->E+MgATP, K=0.17; E.MgADP-->E+MgADP, K=0.12; and the ternary complex: Arg P.E.MgADP-->E.MgADP+Arg P, K=0.94; Arg.E.MgATP-->E.MgATP+Arg, K=0.49; MgATP.Enz.Arg-->E.Arg+MgATP, K=0.14; MgADP.E.Arg P-->E.Arg P+MgADP, K=0.09. For a particular substrate, the ratio of the dissociation constants for the binary to ternary complex is close to one, indicating little, if any, cooperativity in substrate binding for the rapid equilibrium, random addition mechanism. The time course of the arginine kinase reaction exhibits a pronounced curvature, which, as described for enzyme from other sources, is attributed to formation of an inhibitory catalytic dead-end complex, MgADP.E.Arg. The curvature is accentuated by the addition of monovalent anions, including borate, thiocyanate, and, most notably, nitrite and nitrate. This effect is attributed to stabilization of the dead-end complex through formation of a transition state analog. However, the substantial decrease in initial velocity (92%) caused by nitrate is due to an additional inhibitory effect, further characterized as non-competitive inhibition (Ki=8.0 mM) with the substrate L-arginine. On the other hand, borate inhibition of the initial velocity is only 30% with significant subsequent curvature, suggesting that this anion functions as an inhibitor mainly by formation of a transition state analog. However, some component of the borate inhibition appears to be mediated by an apparent partial competitive inhibition with L-arginine. D-arginine is not a substrate for arginine kinase from the cockroach, but is an effective competitive inhibitor with a Ki=0.31 mM. L-Canavanine is a weak substrate for arginine kinase (Km=6.7 mM) with a Vmax for the pure enzyme that is approximately one-third that of L-arginine. However, initial velocity experiments of substrate mixtures suggest that competition between L-canavanine and L-arginine may not be a simple summation effect and may involve a structural modification. Sensitivity of arginine kinase activity to D-arginine as well as nitrate and borate anions, coupled with the fact that L-arginine is an essential amino acid for the cockroach, suggest that arginine kinase could be a useful chemotherapeutic target for the control of cockroach proliferation.     

Functional peculiarities of stretch receptors of the flight apparatus in the cockroach Periplaneta americana]

Functional peculiarities of stretch receptors in wing articulations of the cockroach are considered and possible functional role of these receptors in maintenance of stable rhythm of flight is discussed. Stretch receptors of wing articulations are of phasictonic type they exhibit slow and incomplete adaptation, discharging when the wing goes upward. The pattern of impulse response of the receptor depends both on the angle and the velocity of displacement of wing platelet. The scheme of presumptive pacemaker of wing beats is discussed in detail.