A stage-specific ovarian factor with stable stimulation of juvenile hormone synthesis in corpora allata of the cockroach Diploptera punctata

This is a study of a feedback loop from a stimulated organ to glands that produce the stimulatory hormone in the cockroach Diploptera punctata. In this insect as in many others, juvenile hormone (JH) produced by corpora allata (CA) stimulates vitellogenesis. In our previous studies, transplantations of ovaries at certain stages of development into ovariectomized mated females stimulated JH synthesis within 24h. An in vitro study by other investigators showed that all stages of ovaries release a stimulatory factor into culture medium that was not retained on a solid-phase extraction column but occurred in the aqueous flow-through. The present study is a comparison of the effect of medium conditioned with ovaries from days 1-4 and 8 of the first reproductive cycle, to the effect of the flow-through of that medium on members of a pair of CA from day 3 females. Results provide evidence for an ovarian factor that stimulates JH synthesis by CA in vitro after removal from the conditioning medium (i.e., stable stimulation). Only medium conditioned with ovaries from days 2 or 3 females significantly stimulated CA more than flow-through. Stimulation was dose dependent, sensitive to trypsin, and survived freezing. These results indicate that CA can be directly and stably stimulated by a stage-specific peptidergic ovarian factor.     

The effect of l-methionine concentration on juvenile hormone biosynthesis by corpora allata of the cockroach Diploptera punctata

The effect of varying l-methionine (l-met) concentration on rates of juvenile hormone (JH) biosynthesis/release by corpora allata of females of the viviparous cockroach Diploptera punctata has been studied using a radiochemical assay. Both high activity glands (corpora allata from day 5 females) and low activity glands (corpora allata from day 11 females) were used to study the dose dependence of JH biosynthesis on l-met concentrations, under both de novo (spontaneous) conditions of JH biosynthesis and stimulated conditions (in the presence of the exogenous JH III precursor farnesoic acid). Maximal rates of JH biosynthesis/release were observed at l-met concentration of 20 μM (spontaneous) and 40 μM (stimulated). Below these concentrations, rates of JH biosynthesis declined linearly with decreasing l-met concentration. Optimal concentration of l-met appeared to be similar for both high and low activity corpora allata, under spontaneous and stimulated conditions of biosynthesis. Above 40 μM l-met, no increase in rates of JH biosynthesis was observed. It appears that the corpora allata of D. punctata are efficient scavengers of l-met and are able to utilize even low concentrations of the substrate for JH biosynthesis. The corpora allata of D. punctata may prove useful for the biosynthesis of authentic JH III, radiolabelled in the methyl position using as methyl donor, l[methyl-³H]met of high specific activity.     

Development-activity relationships in nymphal corpora allata of the cockroach, Diploptera punctata

Abstract. In females of Diploptera punctata the corpora allata undergo a gradual increase in volume during most of the second nymphal stadium. In the first half of the stadium, steady growth of the glands results from a progressive increase in the size of constituent cells. Late in the stadium, cell size declines but the volume of the glands continues to rise due to an increase in cell number. Changes in cell size during the stadium displayed a distinct pattern in relation to Juvenile Hormone (JH) synthesis. Both cell size and activity increased during the first two-thirds of the stadium, peaked early in the last third of the stadium, and decreased before the moult. The rise in cell numbers late in the stadium corresponded to a wave of cellular mitosis and occurred after a steep decline in the rate of JH biosynthesis. Exposure of late second instars to fenoxycarb. a JH analogue, depressed mitosis significantly, suggesting autocrine regulation of cell proliferation in the corpora allata. Possible mechanisms modulating sequential cycles of growth and atrophy of cells and cell proliferation in these glands are discussed in relation to temporal patterns of JH and ecdysteroid titres in nymphs.     

A factor causing stable stimulation of juvenile hormone synthesis by Diploptera punctata corpora allata in vitro

Co-incubation of corpora allata (CA) from the cockroach, Diploptera punctata, with ovaries, fat body or muscle but not brain or testis, leads to a substantial increase in juvenile hormone synthesis. Incubation of the glands in medium pre-conditioned with ovaries also stimulates JH synthesis. The ovary was used as a convenient source of stimulatory factor for a detailed analysis of its physiological effects on the CA. The increase in JH synthesis is stable, maintained over 24h after exposure to the stimulatory factor. Stimulation is dose-dependent, and the corpora allata show an exquisite relationship between sensitivity to this factor and developmental stage. Day 0 and day 1 glands, as well as glands from post-vitellogenic females, are sensitive to stimulation, whereas glands from vitellogenic females are not sensitive. Corpora allata attached to the brain do not respond to the stimulatory factor, and denervation in vivo leads to an increase in JH synthesis by the glands and a loss in sensitivity to the factor. These data suggest that glands from pre- and post-vitellogenic females are inhibited by their nervous connection to the brain. In contrast, glands from vitellogenic females are normally responding to the endogenous stimulatory factor and are thus no longer stimulated in vitro. Co-incubation of CA with allatostatin and conditioned medium still leads to a stimulation of JH synthesis, suggesting that the restraining effect of the nervous connections to the brain is not caused by allatostatin. The CA cell number increases between emergence and day 2, then remains stable until after oviposition. The stimulatory factor accelerates the increase in cell number in young adult females. The results are interpreted as providing evidence for a constitutive change in CA activity caused by a humoral factor produced by various tissues including the ovary, and modulated by nervous connections to the brain.     

Ultrastructural changes in corpora allata during a cycle of juvenile hormone biosynthesis in embryos of the viviparous cockroach, Diploptera punctata

We have observed changes with time in the fine structure of corpora allata (CA) during a known cycle of increasing and decreasing juvenile hormone (JH) synthesis in late embryos of Diploptera punctata. A previous report showed that rates of JH release were relatively low in 28-day-old embryos, but CA activity subsequently rose linearly to a peak on about day 42, and thereafter steadily declined to a low level on day 64 just before birth (Holbrook et al., 1997). We now show that, regardless of rate of JH synthesis, CA cells are large and replete with organelles which nevertheless exhibit variable morphology in embryos of different age. Highly active CA cells on day 40 contain abundant ring-form mitochondria, whereas CA cells of low activity on days 28 and 64 contain mitochondria that are rod-shaped or globular. Mitochondrial cristae were scarce and indistinct on day 28 but numerous and well developed on day 64. Endoplasmic reticula (ER) are rare on day 28 and appear in increasing numbers when CA activity rises. On day 40, ER are abundant and often exhibit a whorl-like appearance which is not observed on day 28. After day 44, when biosynthetic activity is declining, whorls of ER gradually decrease in number and are ultimately replaced by vesicular smooth ER on day 64. Neurosecretions are found only after day 38, by which time rates of JH synthesis have increased substantially from those of day 28. Except for membranous autophagic vacuoles, which are frequently found when ER whorls disintegrate as rates of JH synthesis decline toward birth, most autophagic vesicles such as multivesicular vesicles and dense bodies occur only sporadically among CA cells at all examined ages. We conclude that synchronous autophagy of exhausted organelles, which results in atrophy of CA cells and long-term arrest of JH synthesis in adult females of D. punctata, does not occur in embryos. The slow cyclic change in rate of JH synthesis in embryonic CA is most likely due to asynchronous autophagic activity and to alterations in certain unique features of intracellular organelles.     

Ionotropic glutamate receptors mediate juvenile hormone synthesis in the cockroach,Diploptera punctata

By monitoring changes in the cytosolic [Ca2+](i) and rates of juvenile hormone (JH) synthesis in response to L-glutamate agonists and antagonists, we identified and characterized glutamate receptor subtypes in corpus allatum (CA) cells of the cockroach, Diploptera punctata. During the first ovarian cycle, corpora allata exhibited a cycle of changes in sensitivity to L-glutamate correlated to cyclic changes in rates of JH synthesis. When exposed to 60 microM L-glutamate in vitro, the active corpora allata of day-4 mated females produced 60% more JH, while inactive corpora allata at other ages showed 10-20% stimulatory response. Pharmacological characterization using various L-glutamate receptor agonists and antagonists indicated that several ionotropic subtypes of L-glutamate receptors were present in the CA. The CA showed an increase in rates of JH synthesis in response to NMDA, kainate, and quisqualate, but not to AMPA in both L-15 medium and minimum incubation medium. In contrast, applications of the metabotropic receptor-specific agonist trans-ACPD failed to elicit a change in the cytosolic [Ca2+](i) and JH production.An elevation of cytosolic calcium concentration, followed by 20-30% rise in JH production, was observed when active CA cells were exposed to 10-40 microM kainate. Kainate had no stimulatory effect on JH synthesis in calcium-free medium. The kainate-induced JH synthesis was blocked by 20 microM CNQX but was not affected by 20 microM NBQX. Kainate-stimulated JH production was not suppressed by MK-801 (a specific blocker of NMDA-receptor channel), nor was NMDA-stimulated JH production affected by CNQX (a specific antagonist of kainate receptor). These data suggest that active CA cells are stimulated to synthesize more JH by a glutamate-induced calcium rise via NMDA-, kainate- and/or quisqualate-sensitive subtypes of ionotropic L-glutamate receptors. The metabotropic-subtype and ionotropic AMPA-subtype L-glutamate receptors are unlikely to be present on active CA cells.     

The effects of octopamine on juvenile hormone biosynthesis,electrophysiology, and cAMP content of the corpora allata of the cockroach Diploptera punctata

Summary Juvenile hormone production by the corpora allata of the adult female cockroach, Diploptera punctata, can be modulated by treatment with the biogenic amine, octopamine. Endogenous octopamine has been identified within the CA, using HPLC and electrochemical detection. Treatment with octopamine results in a sinusoidal, dose-dependent inhibition of JH biosynthesis by CA from day 2 virgin females, with maximal inhibition occurring at 10^-10 M and 10^-4 M. In day 4 and day 8 mated female corpora allata octopamine inhibited JH biosynthesis at 5·10^-5 M. Although the elevation of either cAMP or cGMP within the CA is known to be associated with an inhibition of JH biosynthesis, treatment with high concentrations of octopamine results in an increase in the level of cAMP but not cGMP. This effect is both dose- and time-dependent.Octopamine treatment also initiates changes in the passive membrane responses of the CA. Superfusion of CA with octopamine results in a pronounced hyperpolarization of CA cells and an increase in the electrotonic potential (indicative of the degree of electrical coupling between CA cells). This effect could be blocked by the octopamine receptor blocker phentolamine. Treatment with octopamine or phentolamine also blocked the hyperpolarization of CA cells normally associated with electrical stimulation of the axon tracts innervating the CA.We hypothesize that octopamine may be a natural neuromodulator of JH production by CA, regulating ion channels in CA cells themselves as well as release of the inhibitory neuropeptide, allatostatin, from the terminals within the CA.Abbreviations 4-AP 4-aminopyridine - CA corpora allata - CC corpora cardiaca - cAMP cyclic adenosine monophosphate - cGMP cyclic guanosine monophosphate - EDTA ethylenediamine tetraacetic acid - HEPES N-2-hydroxyethylpiperazine-N2-ethanesulfonic acid - HPLC high pressure liquid chromatography - IBMX 3-isobutyl-1-methylxanthine - JH juvenile hormone - ms millisecond - nA nanoampere - NCA I nervi corporis allati I - OCT octopamine - TEA tetraethyl ammonium     

Farnesoic acid stimulation of C16 juvenile hormone biosynthesis by corpora allata of adult female Diploptera punctata

Biosynthesis of C₁₆ juvenile hormone (C₁₆JH) by isolated corpora allata (CA) of the viviparous cockroach Diploptera punctata has been studied by a radiochemical assay. This assay uses the incorporation from methyl labelled l-methionine in the methyl ester moiety of C₁₆JH. The optimal concentration of l-methionine in the medium has been determined. When varying proportions of (methyl-³H)- and (methyl-¹⁴C)-labelled l-methionine are used in the assay, no isotope effect was observed indicating that labelled l-methionine can be used as a mass marker to quantify C₁₆JH synthesis in D. punctata. C₁₆JH synthesis was stimulated by addition of farnesoic acid (FA) to the medium (maximum at 30–40 μM). When stimulated with 30 μM FA, the C₁₆JH release rate was directly dependent on C₁₆JH synthesis rate, and no intraglandular accumulation of either C₁₆JH or its immediate precursor methyl farnesoate were observed. Spontaneous and FA-stimulated rates of C₁₆JH release were studied during the first reproductive cycle of the adult female. The two final steps of C₁₆JH biosynthesis are not physiologically rate-limiting, as the ratio of spontaneous to FA-stimulated C₁₆JH release (fractional endocrine activity ratio) is always lower than unity. There is a precise relationship between the length of the basal oöcytes and the rate of C₁₆JH release.     

Comparison of the inhibitory effects of brain extract,high K+ and forskolin on juvenile hormone synthesis by Diploptera punctata corpora allata

We compared the effects of three treatments (brain extracts, high K⁺, forskolin) which inhibit JH synthesis by corpora allata of the cockroach Diploptera punctata incubated in vitro. Corpora allata showed a similar developmental sensitivity to all three treatments, with a high level of inhibition in glands of low activity. Inhibition of JH III synthesis by forskolin, high K⁺ or brain extract was antagonized by mevalonate and farnesoic acid, thus implicating an early biosynthetic step as the target of inhibition. All three treatments were also antagonized by Mn²⁺, suggesting that the inhibitory mode of action may be dependent upon Ca²⁺. Inhibition for forskolin and by high K⁺ was not only reversible, but caused a stimulation of JH synthesis upon removal of the inhibitor, suggesting that more than one regulatory mechanism is affected by these treatments.     

Assay of HMG-CoA synthase in Diploptera punctata corpora allata

The conversion of acetyl-CoA to HMG-CoA was measured by a radioenzymatic assay in which the product is derivatized to its bis(p-nitrobenzyl)ester and separated from the substrate by TLC. The enzymatic assay was applied to post-mitochondrial supernatants of corpora allata homogenates from the cockroach, Diploptera punctata. The apparent K_M for the conversion of acetyl-CoA to HMG-CoA was 200 μM. The enzyme activity was measured during a cycle of JH synthesis in adult mated females. HMG-CoA synthase followed the pattern of juvenile hormone III synthesis closely with a peak on day 5 (1.89 ± 0.07 nmol/h/pair-eq.), and the decline of its activity occurred earlier than that of HMG-CoA reductase.     

In vitro inhibition of the corpora allata by a larval brain factor in the cockroach Diploptera punctata

The inhibitory activity of extracts of brains from final instar male and female larvae on release of newly synthesized juvenile hormone (JH) was examined, as was the responsiveness of corpora allata (CA) from males and females to brain extract. Aqueous extracts of protocerebra from day 0 and day 14 final instar larvae (in which the CA are active and inactive, respectively) were tested on CA from adult females in vitro. For comparison, protocerebra from day 0 adult males and females were also tested. Dose responses were similar for protocerebra from all animals tested. In each case a dose of 1–2 protocerebral equivalents was required for maximal response.CA from penultimate instar females were inhibited to a greater extent by brain extract than those of males. The response of CA from final instar larvae to brain extract declined in the first few days of the stadium as the ability of the glands to biosynthesize JH declined.     

Photoaffinity labeling of allatostatin receptor proteins in the corpora allata of the cockroach, Diploptera punctata.

Membranes of corpora allata, obtained from Diploptera punctata virgin females, were incubated for 45 min with a bioactive, radioiodinated azidosalicylamide photoaffinity analogue of allatostatin-1. Irradiation of the incubation mixture at 254 nm, followed by sodium dodecyl sulfate polyacrylamide gel electrophoresis and autoradiography, revealed the presence of two bands (59 and 39 kDa) whose specific labeling was demonstrated by addition of excess allatostatin. In brain preparations, clear competition by excess allatostatin was shown for a 41 kDa protein. The abdominal fat body also contained proteins (38, 41, 60 kDa) which bound specifically to the photoaffinity analogue. The proteins identified in corpora allata are likely involved in allatostatin recognition, but the functions of those identified in the brain and fat body are as yet undetermined.     

Distribution of allatostatin in the adult cockroach,Diploptera punctata and effects on corpora allata in vitro

Direct radiochemical measurements of juvenile hormone synthesis showed that corpora allata from adult female Diploptera punctata can be inhibited in vitro by neuropeptides extracted from several ganglia of the central nervous system of females at many stages of the reproductive cycle. Extracts of protocerebra, corpora cardiaca, suboesophageal, thoracic and ventral ganglia all elicited dose-depedent reductions in juvenile hormone synthesis. On a ‘per organ’ basis, the protocerebrum contains the most extractable material. Inhibitory activity of extracts of suboesophageal, thoracic and 6th abdominal ganglia, like that of protocerebra (Rankin et al., 1986) was trypsin sensitive.Glands of high activity were less sensitive to protocerebral extract than those of low activity. The inhibitory effect on glands of low activity was maximal within 1 h, persisted in the presence of protocerebral extract for at least 46 h, and was abolished within 1 h after corpora allata were placed in normal medium. The inhibitory effect of protocerebral extract was not altered by the addition of magnesium to the medium. The extract had a specific effect on synthetic step(s) prior to methylation and epoxidation as demonstrated by enhanced juvenile hormone synthesis in the presence of inhibitory factor and the juvenile hormone precursor, farnesoic acid.     

Ultrastructure of corpora allata of known activity during the vitellogenic cycle in the cockroach Diploptera punctata

Summary Ultrastructure was correlated with rates of juvenile hormone synthesis in corpora allata from females of the viviparous cockroach Diploptera punctata at seven daily intervals during the first vitellogenic cycle. Synthetic activity of the glands was determined by in vitro radiochemical assay before the glands were fixed for electron microscopic analysis. The cycle in rates of juvenile hormone synthesis progressed from about 20 pmol h^-1 per gland pair (oocytes 0.60 mm long) to a maximum mean rate of 140 pmol h^-1 per pair (oocytes 1.40–1.47 mm long) and declined to about 20 pmol h^-1 per pair at ovulation (oocytes about 1.65 mm long). Conspicuous ultrastructural changes occurred with changing synthetic rates. In glands with increasing rates of synthesis, mitochondria showed less electron-dense matrix, greater diameter and more irregular shape. Smooth endoplasmic reticulum changed from easily seen to obscure tubules, networks, and vesicles. Rough endoplasmic reticulum appeared in longer, more curved segments. Newly formed autophagic vacuoles appeared in all glands of highest activity rates. In glands with decreasing rates of synthesis, the mitochondrial matrix became denser, width smaller, and shapes less irregular. Smooth endoplasmic reticulum again appeared tubular and distinct. Golgi complexes were more conspicuous. Rough endoplasmic reticulum in whorls and large numbers of autophagic vacuoles continued to be present.This work was supported by USPH Grant AI 15230. We thank Kuen-Kuen Chan for skillful and thoughtful technical assistance     

Structure-activity relationships in corpora allata of the cockroach Diploptera punctata: roles of mating and the ovary

Morphometric studies were made on corpora allata of the cockroach Diploptera punctata from animals in which increasing gland size is not coupled to hormone synthesis (ovariectomized mated females; last-instar larvae) and in which gland size is coupled to hormone synthesis (normal mated and virgin females; penultimate-instar larvae). Cell number, gland volume, and juvenile hormone synthesis were measured. From electron micrographs, nuclear, cytoplasmic, and extracellular volumes; and cell membrane area were calculated; and fine structure described. Low-activity glands of ovariectomized mated females resembled high-activity glands from mated females in high cell number, large overall and cytoplasmic volume, and low nuclear-cytoplasmic ratio; they differed in having organelles typical of low-activity glands, mitochondria with dense matrices and large whorls of smooth endoplasmic reticulum. Inactive lastinstar larval glands resembled mated ovariectomized, female glands in increased cell number and organelles characteristic of inactive glands; however, their nuclearcytoplasmic volume ratio was much higher. Penultimate cytoplasmic volume ratio was much higher. Penultimate larval glands with high activity per cell resembled active glands of normal mated females. Ovariectomy did not change morphometric parameters of virgin female glands; thus mating results in increase in size of adult female glands whereas the growing ovary is needed for changes in mitochondria and endoplasmic reticulum associated with high juvenile hormone synthesis.     

Glutamate-gated chloride channels inhibit juvenile hormone biosynthesis in the cockroach, Diploptera punctata

Juvenile hormone (JH) synthesized and released from endocrine gland corpus allatum (CA) plays an important role in insect metamorphosis, vitellogenesis and reproduction. Glutamate is a major neurotransmitter in the nervous system and its activated receptors possess excitatory and inhibitory forms in muscle fibers of invertebrates. Previously, we have shown that the rise of intracellular calcium through excitatory glutamate receptors, N-methyl-d-aspartate (NMDA) and non-NMDA-type channels stimulates JH synthesis in the cockroach, Diploptera punctata. Here, we demonstrate the occurrence of inhibitory chloride permeable glutamate (GluCl) receptors on CA cell membranes. Application of the GluCl channel activators, ibotenic acid (Ibo) and ivermectin, but not gamma-aminobutyric acid caused a decline in JH synthesis in glands of either high or low activity during the gonadotrophic cycle. Also, while recording the membrane potential of the isolated whole CA glands intracellularly, Ibo induced a hyperpolarizated response. Both changes in the membrane potential and inhibition of JH synthesis could be abolished by the application of the chloride channel blocker picrotoxin. Finally, we found both excitatory and inhibitory glutamate receptors cause antagonistic effects on rates of JH synthesis. These results indicate a novel function of GluCl channels in the inhibition of JH synthesis that could be a potential pathway for developing a new generation of insecticides.     

Effects of chilling stress on allatal growth and juvenile hormone synthesis in the cockroach, Diploptera punctata

During the ovarian cycle of the cockroach, Diploptera punctata, a mitotic wave occurs in the corpora allata before an increase in gland volume and juvenile hormone (JH) synthesis. Previous studies have demonstrated that the brain inhibits mitosis and JH synthesis in corpus allatum (CA) cells until adult females have mated. Herein, we report that chilling stress effectively suppresses mating induced proliferation of CA cells. In mated females, chilling on melting ice for 0.5-3 hours caused a strong, dose-dependent decrease in mitotic activity. In insects chilled for 3 hours, although the mitotic wave in the CA was practically abolished, CA volume and JH synthesis finally reached peak levels typical of unchilled insects, despite a 2-day delay. Consequently, oocyte maturation and oviposition were also delayed by 2 days, yet in both chilled and unchilled insects, peak values of basal oocyte length were the same. By allowing virgin females to mate on different days after chilling, we found that the chilling effect could be retained in the insect body for at least 2 days. During this period, signals from mating could not effectively remove inhibition of CA cell proliferation. Unilaterally disconnecting the CA from the brain revealed that chilling stress mediated CA cell proliferation via the brain, and did not directly affect the CA.     

Allatostatin-immunoreactive neurons projecting to the corpora allata of adult Diploptera punctata

Summary A monoclonal antibody against allatostatin I was used to demonstrate the allatostatin-immunoreactive pathways between the brain and the corpus cardiacum-corpus allatum complex in the adult cockroach Diploptera punctata. The antibody was two to three orders of magnitude more sensitive to allatostatin I than to the other four known members of the allatostatin family. Whole and sectioned brains in which immunoreactivity was localized with horseradish peroxidase-H₂O₂-diaminobenzidine reaction showed strongly immunoreactive cells in the pars lateralis of the brain with axons leading to and arborizing in the corpus cardiacum and the corpus allatum. Although many neurosecretory cells of the pars intercerebralis project to the corpora allata only, four strongly immunoreactive cells were evident here (two pairs on either side), and these did not project to the corpus cardiacum and corpus allatum but rather terminated within the protocerebrum in areas in which lateral cells also formed arborizations. Immunoreactivity was found in many other cells in the brain, especially in the tritocerebrum.