Effects of acute or chronic exposure to dietary organic anions on secretion of methotrexate and salicylate by Malpighian tubules of Drosophila melanogaster larvae

The effects of dietary exposure to organic anions on the physiology of isolated Malpighian tubules and on tubule gene expression were examined using larvae of Drosophila melanogaster. Acute (24 h) or chronic (7 d) exposure to type I organic anions (fluorescein or salicylate) was associated with increased fluid secretion rates and increased fluxes of both salicylate and the type II organic anion methotrexate. By contrast, chronic exposure to dietary methotrexate was associated with increased fluid secretion rate and increased flux of methotrexate, but not salicylate. Exposure to methotrexate in the diet resulted in increases in the expression of a multidrug efflux transporter gene (MET; CG30344) in the Malpighian tubules. There were also increases in expression of genes for either a Drosophila multidrug resistance–associated protein (dMRP; CG6214) or an organic anion transporting polypeptide (OATP; CG3380), depending on the concentration of methotrexate in the diet. Exposure to salicylate in the diet was associated with an increase in expression of dMRP and with decreases of MET and OATP. Exposure to dietary salicylate or methotrexate was also associated with different patterns of expression of heat shock protein genes. The results suggest that exposure to specific type I or type II organic anions has multiple effects and results not only in increased organic anion transport but also in increased rates of inorganic ion transport, which drives osmotically‐obliged fluid secretion. Increased fluid secretion may enhance secretion of organic anions by eliminating diffusive backflux from the tubule lumen to the hemolymph. © 2010 Wiley Periodicals, Inc.     

Effects of the microbial metabolite destruxin A on ion transport by the gut and renal epithelia of Drosophila melanogaster

Destruxins have been implicated in the infection process by entomopathogenic fungi and have been also found to be highly toxic when applied topically or ingested by different insect species. To gain insight into the mechanism of action of this toxin on insect internal organs, we have evaluated the effects of destruxin A on Drosophila melanogaster Malpighian tubules and gut tissues. Destruxin A was toxic when injected into adults; the calculated EC₅₀ was 0.11 mM. Destruxin A significantly inhibited fluid secretion rate by Malpighian tubules as well; the calculated IC₅₀ was 0.25 μM. The Na⁺ concentration in the secreted fluid increased significantly when tubules were exposed to 0.25 μM destruxin A, whereas pH and the concentrations of Ca²⁺ and K⁺ did not change. In gut, there was no effect of destruxin on H⁺ flux, but there was a significant decrease in K⁺ and Ca²⁺ absorption. The concentration of Ca²⁺ and K⁺ in the hemolymph of destruxin A‐injected flies was not significantly different from those of control flies after 3 h. Taken together, these results show that destruxin A produces differential effects on ion transport by renal and gut tissues. © 2012 Wiley Periodicals, Inc.     

The effects of altered expression of the Keap1/CncC pathway on the secretion of fluid and salicylate by Malpighian tubules of Drosophila melanogaster

The Keap1‐Nrf2 pathway is a major upstream regulator of xenobiotic detoxification. In Drosophila melanogaster Meigen, targeted expression of Keap1 and CncC (the latter the orthologue of human Nrf2) in the Malpighian (renal) tubules is known to confer resistance to lethal doses of the pesticide malathion, which is metabolized into organic anions. Dietary exposure to organic anions such as salicylate (10 mm ) causes increases in the fluid secretion rate and salicylate flux across Malpighian tubules. In the present study, salicylate‐selective microelectrodes and Ramsay assays are used to determine the role of Keap1/Nrf2 in regulating these responses. Genetic manipulations designed to increase Nrf2 activity (by knockdown of the repressor Keap1 or overexpression of the Nrf2 coactivator MafS) or to decrease Nrf2 activity (by overexpression of Keap1) are also studied. Although the results of the Keap1 manipulations are inconclusive, there is no increase in the fluid secretion rate or salicylate flux in tubules isolated from flies in which MafS expression is increased.     

Drosophila hemolymph proteins: Purification,characterization, and genetic mapping of larval serum protein 2 in D. melanogaster

Three of the major protein species present in the hemolymph of Drosophila melanogaster larvae just prior to pupation are absent from second instar larvae but accumulate rapidly during the third instar. This article describes the purification and characterization of one of these, larval serum protein (LSP) 2, using an immunological assay. It is a homohexamer of molecular weight about 450,000, with a polypeptide molecular weight of 78,000–83,000. Fast and slow electrophoretic variants of this protein map between the markers vin and gs, at 36–37 on chromosome 3.This work was partially supported by M.R.C. Research Studentships to J.W. and M.E.A.     

Characterization of transepithelial transport of salicylate by the Malpighian tubules of Drosophila melanogaster and the effects of changes in fluid secretion rate

Abstract.  A radioisotope tracer technique is used to study mechanisms and regulation of transepithelial transport of the plant allelochemical salicylate by the Malpighian tubules of Drosophila melanogaster . Transepithelial transport of salicylate is nearly abolished in Na⁺-free saline, and inhibited by ouabain, low K⁺ or K⁺-free bathing saline. In addition, the carboxylates probenecid, unlabelled salicylate, fluorescein, and p -aminohippuric acid (PAH) significantly inhibit transepithelial transport of salicylate. The sulphonates taurocholate and phenol red also inhibit transepithelial transport of salicylate, whereas amaranth has no effect. Stimulation of fluid secretion by cAMP, cGMP or leucokinin I increases transepithelial transport of salicylate, particularly when the concentration of salicylate in the bathing saline is high. The correlation between the fluid secretion rate and transepithelial transport of salicylate shows that 64% of the changes in salicylate transport can be explained on the basis of changes in fluid secretion rate. The results show that naturally-occurring plant secondary metabolite salicylate is transported into the lumen of the Mapighian tubules of D. melanogaster by a mechanism similar to that previously described for the prototypical organic anions PAH and fluorescein. In addition, the transepithelial transport of salicylate increases in response to increases in fluid secretion rate.     

Segment-specific Ca2+ transport by isolated Malpighian tubules of Drosophila melanogaster: A comparison of larval and adult stages

Haemolymph calcium homeostasis in insects is achieved through the regulation of calcium excretion by Malpighian tubules in two ways: (1) sequestration of calcium within biomineralized granules and (2) secretion of calcium in soluble form within the primary urine. Using the scanning ion-selective electrode technique (SIET), basolateral Ca²⁺ transport was measured at the distal, transitional, main and proximal tubular segments of anterior tubules isolated from both 3rd instar larvae and adults of the fruit fly Drosophila melanogaster. Basolateral Ca²⁺ transport exceeded transepithelial secretion by 800-fold and 11-fold in anterior tubules of larvae and adults, respectively. The magnitude of Ca²⁺ fluxes across the distal tubule of larvae and adults were larger than fluxes across the downstream segments by 10 and 40 times, respectively, indicating a dominant role for the distal segment in whole animal Ca²⁺ regulation. Basolateral Ca²⁺ transport across distal tubules of Drosophila varied throughout the life cycle; Ca²⁺ was released by distal tubules of larvae, taken up by distal tubules of young adults and was released once again by tubules of adults ⩾168 h post-eclosion. In adults and larvae, SIET measurements revealed sites of both Ca²⁺ uptake and Ca²⁺ release across the basolateral surface of the distal segment of the same tubule, indicating that Ca²⁺ transport is bidirectional. Ca²⁺ uptake across the distal segment of tubules of young adults and Ca²⁺ release across the distal segment of tubules of older adults was also suggestive of reversible Ca²⁺ storage. Our results suggest that the distal tubules of D. melanogaster are dynamic calcium stores which allow efficient haemolymph calcium regulation through active Ca²⁺ sequestration during periods of high dietary calcium intake and passive Ca²⁺ release during periods of calcium deficiency.     

Secretion of Na+, K+ and fluid by the Malpighian (renal) tubule of the larval cabbage looper Trichoplusia ni (Lepidoptera: Noctuidae)

The Malpighian (renal) tubules play important roles in ionic and osmotic homeostasis in insects. In Lepidoptera, the Malpighian tubules are structurally regionalized and the concentration of Na⁺ and K⁺ in the secreted fluid varies depending on the segment of tubule analyzed. In this work, we have characterized fluid and ion (Na⁺, K⁺, H⁺) transport by tubules of the larval stage of the cabbage looper Trichoplusia ni; we have also evaluated the effects of fluid secretion inhibitors and stimulants on fluid and ion transport. Ramsay assays showed that fluid was secreted by the iliac plexus but not by the yellow and white regions of the tubule. K⁺ and Na⁺ were secreted by the distal iliac plexus (DIP) and K⁺ was reabsorbed in downstream regions. The fluid secretion rate decreased > 50% after 25 μM bafilomycin A1, 500 μM amiloride or 50 μM bumetanide was added to the bath. The concentration of K⁺ in the secreted fluid did not change, whereas the concentration of Na⁺ in the secreted fluid decreased significantly when tubules were exposed to bafilomycin A1 or amiloride. Addition of 500 μM cAMP or 1 μM 5-HT to the bath stimulated fluid secretion and resulted in a decrease in K⁺ concentration in the secreted fluid. An increase in Na⁺ concentration in the secreted fluid was observed only in cAMP-stimulated tubules. Secreted fluid pH and the transepithelial electrical potential (TEP) did not change when tubules were stimulated. Taken together, our results show that the secretion of fluid is carried out by the upper regions (DIP) in T. ni Malpighian tubules. Upper regions of the tubules secrete K⁺, whereas lower regions reabsorb it. Stimulation of fluid secretion is correlated with a decrease in the K⁺/Na⁺ ratio.     

Characterization of salicylate uptake across the basolateral membrane of the malpighian tubules of Drosophila melanogaster

The organic anion salicylate is a plant secondary metabolite that can protect plants against herbivores. Transport of salicylate across the basolateral membrane of the Malpighian tubules of Drosophila melanogaster was studied using a radioisotope tracer technique. The uptake of [(14)C]salicylate by the Malpighian tubules was active, saturable and Na(+)-dependent; the maximum uptake rate (J(max)) and the half saturation concentration (K(t)) were 12.6 pmoltubule(-1)min(-1) and 30.7micromoll(-1), respectively. In contrast to organic anion transport by vertebrate renal tissues, salicylate uptake was not trans-stimulated by glutarate (0.01-1.0 mmoll(-1)) or cis-inhibited by high concentrations (5 mmoll(-1)) of various alpha-keto acids (glutaric acid, alpha-ketoglutaric acid, succinic acid, and citric acid). Changes in basolateral membrane potential or physiologically relevant changes in bathing saline pH did not affect the rate of [(14)C]salicylate uptake. Ring-structure monocarboxylic acids (benzoic acid, nicotinic acid, gentisic acid, unlabelled salicylic acid, alpha-cyano-4-hydroxycinnamic acid, probenecid, fluorescein, and P-aminohippuric acid) strongly inhibited [(14)C]salicylate uptake rate. In contrast, short-chain monocarboxylic acids had little (butyric acid) or no effect (lactic acid, pyruvic acid, and propionic acid). Our results suggest that salicylate uptake across the basolateral membrane of D. melanogaster Malpighian tubules is mediated by a non-electrogenic, alpha-cyano-4-hydroxycinnamic acid-sensitive, Na(+):salicylate cotransport system.     

Purification and properties of two blue biliproteins from the larval hemolymph and integument of Rhodinia fugax (Lepidoptera: Saturniidae)

Blue biliproteins (BPs) are found in the hemolymph and integument of the fifth instar larvae of the saturniid silkworm, Rhodinia fugax. An efficient method of isolating BPs from the hemolymph, epidermis and cuticle using hydrophobic interaction chromatography and ion-exchange chromatography was devised. The BPs from the hemolymph, epidermis and cuticle have molecular weights of approximately 24 000, 48 000 and 23 000 Da by gel-filtration, respectively. Using matrix-assisted laser desorption ionization–time of flight/mass spectrometry (MALDI–TOF/MS), the respective molecular masses were determined to be 22 641, 22 908 and 22 737 Da. Based on these results, BP molecules from the hemolymph and cuticle are assumed to be monomers, whereas the epidermal BP is a dimer. The amino acid composition and N-terminal amino acid sequences of the BPs from the hemolymph and cuticle (BP-I) are very similar, but the BP from the epidermis (BP-II) is quite different. The N-terminal amino acid sequences of these BPs share approximately 50% identity with the biliproteins from other lepidopteran insects. The blue color of BP is due to the presence of bile pigments, which are non-covalently bound to the apoprotein. The absorbance spectrum of BP-I from the hemolymph revealed maxima at 280 and 669 nm, while that of BP-II showed maxima at 280, 385 and 663 nm. The pigment dimethyl esters were extracted from BP-I and BP-II with acidic methanol and dichloromethane. The results of these analyses suggest that the blue pigments of BP-I and BP-II are different; BP-I contains a phorcabilin-like pigment while BP-II contains biliverdin IXγ. In an immunoblot analysis, anti-BP-I antibodies, produced against hemolymph BP-I, reacted with immunoreactive proteins in the hemolymph and cuticle of R. fugax. These anti-BP-I antibodies did not react with BP-II and only cross-reacted weakly with Samia cynthia ricini biliverdin-binding protein (BBP)-II.     

Use of the Ramsay Assay to Measure Fluid Secretion and Ion Flux Rates in the Drosophila melanogaster Malpighian Tubule

Modulation of renal epithelial ion transport allows organisms to maintain ionic and osmotic homeostasis in the face of varying external conditions. The Drosophila melanogaster Malpighian (renal) tubule offers an unparalleled opportunity to study the molecular mechanisms of epithelial ion transport, due to the powerful genetics of this organism and the accessibility of its renal tubules to physiological study. Here, we describe the use of the Ramsay assay to measure fluid secretion rates from isolated fly renal tubules, with the use of ion-specific electrodes to measure sodium and potassium concentrations in the secreted fluid. This assay allows study of transepithelial fluid and ion fluxes of ~20 tubules at a time, without the need to transfer the secreted fluid to a separate apparatus to measure ion concentrations. Genetically distinct tubules can be analyzed to assess the role of specific genes in transport processes. Additionally, the bathing saline can be modified to examine the effects of its chemical characteristics, or drugs or hormones added. In summary, this technique allows the molecular characterization of basic mechanisms of epithelial ion transport in the Drosophila tubule, as well as regulation of these transport mechanisms.     

Effects of photoperiod on the timing of larval wandering in Drosophila melanogaster

ABSTRACT. A rearing method is described that will allow the use of well-timed larvae of Drosophila melanogaster (Canton S) in physiological investigations. Using a LD 16:8 h cycle and uncrowded rearing conditions, it was shown that photoperiod influences the departure of third instar larvae from the food (i.e. post-feeding larvae or wandering behaviour). Larval wandering occurs during the scotophase, suggesting a gated event, and does not occur in larvae raised under constant light or in overcrowded cultures reared in a LD 1623 h cycle. Although the data suggest, but do not prove, the existence of circadian gating, the rearing regimen described will provide well-timed post-feeding larvae for future studies.     

Effects of nystatin on intracellular contents and membrane transport of alkali cations,and cell volume in HeLa cells

Summary Nystatin (50 g/ml) had strong influence on the intracellular contents and membrane transports of monovalent ions and water in HeLa cells. The nystatin-induced changes in the intracellular ion content and cell volume were inhibited by sucrose, and Donnan and osmotic equilibria were attained. Using cells under conditions for these equilibria, the concentrations of intracellular impermeant solutes, their mean valence, the differences of their intra- and extracellular osmotic concentrations, and the circumferential tension of the cell membrane were determined. Stimulation by nystatin of the influx of one cation species, e.g. Rb, was inhibited by another cation species, e.g. Na. The stimulatory effect of nystatin on cation fluxes was reversible within 1 hr after ionophore addition, and after 1-hr treatment the intracellular contents of Na and K became proportional to their extracellular concentrations, provided that the sum of these concentrations was constant (300mm). Similar proportionality was also observed in the presence of choline, provided that the choline concentration was less than those of the alkali cations. The implications of these results in relation to the osmotic properties of cultured cells, and the experimental regulation of alkali cations in the cells, are discussed.     

Sex pheromone levels in pheromone glands and identification of the pheromone and hydrocarbons in the hemolymph of the moth Scoliopteryx libatrix L. (Lepidoptera: Noctuidae)

The hydrocarbon sex pheromone (13-methyl-Z6-heneicosene) of Scoliopteryx libatrix L. (Lepidoptera: Noctuidae) was found to reach its highest levels on pheromone glands of 3-day-old females. Pheromone levels were not different between the time of maximum calling (end of scotophase) and at the middle of photophase. Overwintering females collected in October had sex pheromone present. Decapitation did not lower the amount of pheromone present, indicating that a head factor is not involved in maintaining pheromone titers. Hemolymph also contained the pheromone, indicating that it is made by oenocytes and transported to the sex pheromone gland. Longer chain length hydrocarbons were also identified from the hemolymph and on the cuticular surface. Quantitative differences in hydrocarbon profiles were found with more methyl-branched hydrocarbons found in the hemolymph than on the cuticular surface. Arch.     

Effects of larval crowding on quantitative variation for development time and viability in Drosophila melanogaster

Competition between individuals belonging to the same species is a universal feature of natural populations and is the process underpinning organismal adaptation. Despite its importance, still comparatively little is known about the genetic variation responsible for competitive traits. Here, we measured the phenotypic variation and quantitative genetics parameters for two fitness‐related traits—egg‐to‐adult viability and development time—across a panel of Drosophila strains under varying larval densities. Both traits exhibited substantial genetic variation at all larval densities, as well as significant genotype‐by‐environment interactions (GEIs). GEI was attributable to changes in the rank order of reaction norms for both traits, and additionally to differences in the between‐line variance for development time. The coefficient of genetic variation increased under stress conditions for development time, while it was higher at both high and low densities for viability. While development time also correlated negatively with fitness at high larval densities—meaning that fast developers have high fitness—there was no correlation with fitness at low density. This result suggests that GEI may be a common feature of fitness‐related genetic variation and, further, that trait values under noncompetitive conditions could be poor indicators of individual fitness. The latter point could have significant implications for animal and plant breeding programs, as well as for conservation genetics.     

Purification and characterization of phenoloxidase from the hemolymph of healthy and diseased Antheraea assamensis Helfer (Lepidoptera: Saturniidae): Effects of certain biological components and chemical agents on enzyme activity

In the current study, a dimeric phenoloxidase (PO) from the hemolymph of healthy and diseased (pebrine infected) larvae of Antheraea assamensis Helfer was extracted and purified. The protein was subjected to purification using Sephacryl S‐100 and CM Sepharose chromatography. The enzyme comprised of two subunits of ~76.8 and 76 kDa that showed PO activity in 6 mM l ‐3,4‐dihydroxyphenylalanine (L ‐DOPA) and 8 mM catechol but not in hydroquinone. Optimum temperature for PO activity was 30°C in l ‐DOPA and 37°C in catechol. Optimum pH ranged from 6.8 to 7.0 in L ‐DOPA and 7.0–7.2 in catechol. Specific activity of the purified PO from healthy larvae was 53.9 µM/min per mg of protein per ml in L ‐DOPA and 50.77 µM/min per mg of protein per ml in catechol. Specific activity of PO from diseased larvae was 30.0 µM/min per mg of protein per ml in L ‐DOPA and 28.55 µM/min per mg of protein per ml in catechol. Purification fold was 3.27–4.21 for healthy and 2.38–2.56 for diseased fractions. The enzyme showed the Michaelis constant (K_m) of 2.46–2.85 mM for healthy and diseased fractions in L ‐DOPA. In catechol K_m of 9.23–17.71 mM was observed. Peptidoglycan was the best activator of purified PO from both healthy and diseased fractions. Interactions between controls and activators appeared statistically significant (F = 767.5; df = 3; P < 0.0001). Na⁺, K⁺, and Cu²⁺ increased, whereas Ca²⁺, Zn²⁺, Mg²⁺, and Co²⁺ decreased PO activity. The overall interactions appeared highly significant (F = 217.0; df = 27; P < 0.0001). Kojic acid, dithiothreitol, thiourea, phenylthiourea, carbendazim, N‐bromosuccinimide, N,N,N′,N′‐tetraacetic acid, and diethyldithiocarbamate inhibited PO activity.     

Effects of dietary protein:carbohydrate balance on life-history traits in six laboratory strains of Drosophila melanogaster

Drosophila melanogaster Meigen (Diptera: Drosophilidae) is a key model insect for studying life span and aging. Many laboratory strains of D. melanogaster are currently used by laboratories worldwide, but they are known to vary considerably in their physiology, behavior, and life histories. Although the importance of dietary protein:carbohydrate (P:C) balance as a predominant determinant of life span and other life-history traits has been highlighted in recent research, it remains unexplored whether the impacts of P:C balance on these fitness-related traits vary in a strain-specific manner in D. melanogaster. In this study, we compared the life-history consequences (life span, egg production rate, pre-adult survival, development time, and body mass at eclosion) of six laboratory strains of D. melanogaster (w1118, yw, Oregon-R, white Canton-S, Canton-S-SNU, and Canton-S-Inha) allocated to one of four synthetic diets differing in P:C ratio (1:16, 1:4, 1:1, or 4:1). The effects of dietary P:C balance on various adult and larval life-history traits were qualitatively similar across all strains studied in this study. Regardless of fly strain, adults exhibited a shortened life span and improved egg production on a diet with the highest P:C ratio of 4:1. In all strains, larvae raised on a diet comprising the lowest P:C ratio of 1:16 suffered high mortality, delayed development time, and reduced body mass. Despite the general similarity in the direction of the effect of P:C balance across strains, fly strains differed in the magnitude of their life-history responses to dietary P:C balance, as indicated by a significant interaction between fly strain and dietary P:C ratio for all measured traits except body mass at eclosion. Possible mechanisms explaining such strain-specific responses are discussed.     

Diuretic factors and second messengers stimulate secretion of the organic cation TEA by the Malpighian tubules of Drosophila melanogaster

This study showed that four factors which stimulate transepithelial fluid secretion and inorganic ion transport across the main segment of the Malpighian tubules of Drosophila melanogaster also stimulate transepithelial secretion of the prototypical organic cation tetraethylammonium (TEA). TEA fluxes across the Malpighian tubules and gut were measured using a TEA-selective self-referencing (TEA-SeR) microelectrode. TEA flux across isolated Malpighian tubules was also measured using a TEA-selective microelectrode positioned in droplets of fluid secreted by tubules set up in a modified Ramsay assay. TEA flux was stimulated by the intracellular second messengers cAMP and cGMP, which increase the lumen-positive transepithelial potential (TEP), and also by tyramine and leucokinin-I (LK-I), which decrease TEP. The largest increase was measured in response to 1 micromol l-1 LK-I which increased transepithelial TEA flux by 72%. TEA flux in the lower tubule was stimulated slightly (13%) by 1 micromol l-1 tyramine but not by any of the other factors. TEA flux across the midgut was unaffected by cAMP, cGMP or tyramine. This is the first study to demonstrate the effects of insect diuretic factors and second messengers on excretion of organic cations.     

Effects of adenine on the stability and expression of xanthine dehydrogenase from Drosophila melanogaster

The in vivo effect of adenine on xanthine dehydrogenase from Drosophila melanogaster has been studied by feeding adult flies for 48 hr on regular undefined media buffered with phosphate and containing 15 mM adenine. Extracts of adenine-fed flies show 25–30% reduction in xanthine dehydrogenase activity, and 35–40% reduction in uric acid production. The adenine exposed enzyme, however, is now more stable during overnight dialysis with the loss of activity never more than 30%, while controls show losses of over 50%.Thermal stability studies reveal that the enzyme from adenine-fed flies, in contrast to that from controls, is resistant to high temperature (50°C). During the 48-hr period of feeding, enzyme activity decreases in the control flies whereas this ageing effect is less pronounced in the adenine-fed flies. Column chromatography and gel electrophoresis, using [8-¹⁴C]adenine show that adenine appears to bind to xanthine dehydrogenase, with the radioactivity peaks always corresponding with enzyme activity peaks.     

Body extracts from the forest ant and honeybee: chromatographic comparison of factors affecting the ant Malpighian tubule

Abstract.  Crude trifluoroacetic acid extracts were prepared from different body parts of the forest ant, Formica polyctena Foerster, Hymenoptera, Formicidae, and the honeybee, Apis mellifera carnica Pollmann, Hymenoptera, Apidae. Extracts were prepurified by means of solid phase extraction over reversed-phase cartridges. The effects of the resulting fractions on fluid secretion rates were tested on single preparations of ant Malpighian tubules. Diuretic and antidiuretic factors were shown to be present. High-performance liquid chromatography allowed for the identification of a diuretic factor from the bee-head extract which had a similar elution profile to a previously purified diuretic peptide from ant-head extracts. An antidiuretic factor was also identified from the bee abdominal extract. Similar to an antidiuretic peptide, which was purified from ant abdominal extracts, this antidiuretic factor inhibited fluid secretion and depolarized the transepithelial potential of ant Malpighian tubules.