Na,K-ATPase and V-ATPase in ovarian follicles of Drosophila melanogaster.

Uncovering the cause and meaning of bioelectric phenomena in developing systems requires investigations of the distribution and activity of ion-transport mechanisms. In order to identify and localize ion pumps in ovarian follicles of Drosophila, we used immunofluorescence microscopy, immunoelectron microscopy, subcellular fractionation, immunoblots, and acridine-orange staining. We applied various antibodies directed against the Na,K-pump (Na,K-ATPase) and against vacuolar-type proton pumps (V-ATPase). During all phases of oogenesis, Na,K-ATPase were found in apical and lateral follicle-cell membranes and, during rapid follicle growth (beginning with stage 10), also in nurse-cell membranes and in the oolemma. V-ATPase were detected in various cytoplasmic vesicles and in yolk spheres and, beginning with stage 10, also in apical follicle-cell membranes and in the oolemma. Given these and earlier results, we propose that: 1) V-ATPase coupled to secondary active antiporters represent the ouabain-intensitive potassium pumps described previously; 2) both Na,K-ATPase and V-ATPase are involved in bioelectric phenomena as well as in osmoregulation and follicle growth, especially during stages 10-12; 3) organelle-associated V-ATPase play a role in vesicle acidification and in yolk processing; and 4) the channel-forming protein ductin is a component of both V-ATPase and gap junctions in ovarian follicles of Drosophila.     

Localization of actin and tubulin in developing and adult mammalian photoreceptors

Summary In order to define cytoskeletal domains of the mammalian photoreceptor, actin and tubulin were localized in adult retinae of mouse and human. For light-microscopic localization, actin was labeled using fluorescent phalloidin or monoclonal antibodies against actin, and tubulin was labeled using monoclonal antibodies against alpha- and beta-tubulin in an immunocytochemical method. Actin and tubulin were also localized by ultrastructural immunocytochemistry in the mouse. Filamentous actin was present in the retina at the outer limiting membrane and in synaptic terminals, especially of the cones, while globular actin was observed additionally in the inner segments. Müller cell cytoplasm and apical microvilli at the outer limiting membrane were also labeled for filamentous actin. Alpha- and beta-tubulin were evident throughout the photoreceptors, including the inner segments, but not in the synaptic terminals or at the outer limiting membrane. In the early postnatal retina of mouse, actin and tubulin were present at the ventricular surface. This pattern changed as photoreceptors fully elongated and as synaptogenesis occurred in the outer plexiform layer.     

Localization of Na,K-ATPase in lingual epithelia

Na,K-ATPase was localized in canine fungiform and circumvallfltepapillae by immunocytochemical and histochemical methods. Monoclonalantibodies raised against the -subunit of Na,K-ATPase showedspecific staining in the stratum basale and in the lower layersof the stratum spinosum. Small stained wavy lines, interpretedas trigerrunal fibers, were found in the epithelium near tastebuds. In contrast, conventional histochemical methods showedno staining in the epithelium. In both immunocytochemical and histochemical methods taste budswere densely stained. The histochemical stain in taste budswas essentially eliminated by levamisole and L-cysteine butremained in the presence of 10 mM ouabain or in the absenceof potassium. These data suggest that the majority of the histochemicalstain arises from phosphatases other than Na,K-ATPase.     

Ecdysone signaling in adult Drosophila melanogaster

The steroid hormone 20-hydroxyecdysone and its EcR/USP receptor are vital during arthropod development for coordinating molting and metamorphosis. Traditionally, little attention has been given to potential post-developmental functions for this hormone signaling system. However, recent studies in Drosophila melanogaster indicate that the hormone and receptor are present and active in adults and that mutations decreasing hormone or receptor levels affect diverse processes such as reproduction, behavior, stress resistance, and lifespan. We review the current state of knowledge regarding adult hormone production and titers and discuss receptor expression and activity in order to identify potential mechanisms which explain the observed mutant phenotypes. Finally, we describe future research directions focused on identifying isoform-specific functions of EcR, distinguishing effects from EcR/USP gene activation and repression, and determining how ecdysone signaling impacts different tissue types.     

Localization of endogenous and recombinant Na+-driven anion exchanger protein NDAE1 from Drosophila melanogaster

Na⁺-dependent Cl/HCOexchange activity helps maintain intracellular pH (pH_i)homeostasis in many invertebrate and vertebrate cell types. Ourlaboratory cloned and characterized a Na⁺-dependentCl/HCO exchanger (NDAE1) fromDrosophila melanogaster (Romero MF, Henry D, Nelson S, HartePJ, and Sciortino CM. J Biol Chem 275:24552-24559, 2000). In the present study we usedimmunohistochemical and Western blot techniques to characterize thedevelopmental expression, subcellular localization, and tissue distribution of NDAE1 protein in D. melanogaster. We haveshown that a polyclonal antibody raised against the NH₂terminus of NDAE1 (CWR57) recognizes NDAE1 electrophysiologicallycharacterized in Xenopus oocytes. Moreover, our resultsbegin to delineate the NDAE1 topology, i.e., both the NH₂and COOH termini are intracellular. NDAE1 is expressed throughoutDrosophila development in the central and peripheral nervoussystems, sensilla, and the alimentary tract (Malpighian tubules, gut,and salivary glands). Coimmunolabeling of larval tissues with NDAE1antibody and a monoclonal antibody to theNa⁺-K⁺-ATPase -subunit revealed that themajority of NDAE1 is located at the basolateral membranes of Malpighiantubule cells. These results suggest that NDAE1 may be a keypH_i regulatory protein and may contribute to basolateralion transport in epithelia and nervous system of Drosophila.

     

Regulation of Na,K-ATPase biosynthesis in developing Artemia salina

Regulation of the biosynthesis of the sodium- and potassium-activated adenosine triphosphatase (Na,K-ATPase) (EC 3.6.1.3) was studied in the developing brine shrimp, Artemia salina. Measurement of levels of the subunits of the Na,K-ATPase by radioimmunoassay indicated the presence of both alpha and beta subunits in undeveloped cysts and developing embryos prior to the appearance of enzymatic activity. The quantity of each subunit increased dramatically between 8 and 24 h of development and then reached a plateau at about 32 h. The quantities of translationally active mRNA alpha and mRNA beta were also determined. Undeveloped cysts contained mRNA alpha and mRNA beta, and the amounts increased 9- and 3-fold, respectively, during the first 24 h of development. The data suggest that the increase in Na,K-ATPase activity was at least in part due to increases in protein synthesis related to changes in mRNA levels. The data also suggest involvement of additional regulatory mechanisms. The alpha-subunit has been detected as two molecular weight forms (alpha 1 and alpha 2) which demonstrate changes in relative amounts during development (Peterson, G. L., Churchill, L., Fisher, J. A., and Hokin, L. E. (1982) J. Exp. Zool. 221, 295-308). We show here that this was not due to changes in mRNA alpha 1 and mRNA alpha 2.     

Age-dependent behavior loss in adult Drosophila melanogaster

The use of Drosophila as an organism in which to study aging has been limited by the fact that few biomarkers of aging exist in the adult. In this paper we examine behavior loss relative to longevity in wild-type populations maintained at 22°C and 29°C to determine whether behavior loss—that is, loss of ability to perform certain innate behavioral responses within a defined test interval—can be used as biomarkers of aging. We find that under controlled conditions behavior loss can be used as a landmark of aging in populations maintained at either 22°C or 29°C. The ability to perform normal geotactic and phototactic responses is lost during the reproductive phase of the adult populations, whereas motor activity is not lost until well into the death phase. We feel that the use of behavior loss, together with other parameters of longevity in Drosophila, will allow comparisons to be made between different strains or between different environmental conditions to test their effect on aging. In the companion paper we demonstrate the use of behavior loss to identify a mutation which may accelerate the aging process.     

Lectin activity in adult and larval Drosophila melanogaster

A soluble lectin activity is described in extracts prepared from adult and third instar larval stages of Drosophila melanogaster. Based on erythrocyte specificity and hapten inhibition studies the lectin from both sources appears to be identical. Extracts from both sources were found to contain an endogenous inhibitor of lectin activity which may serve as the natural receptor for the lectin.     

Calcium homeostasis in larval and adult Drosophila melanogaster

Calcium homeostasis in Drosophila melanogaster was examined in response to the challenges imposed by growth, reproduction and variations in dietary calcium content. Turnover time for calcium, calculated as the time for (45)Ca(2+)to accumulate to half the steady state value of 3.46 nmol/fly, was 3.3 days. Although larvae weighed 2x as much as adults, they contained 3-4x as much calcium. Anterior Malpighian tubules (Mts) contain much more calcium than posterior Mts, accounting for 25-30% of the calcium content of the whole fly. In response to a 6.2-fold increase in dietary calcium level, calcium content of whole flies increased only 10%. Hemolymph calcium concentration ( approximately 0.5 mM) was similar in males and females and in animals raised on diets differing in calcium content. Fluid secretion rate, secreted fluid calcium concentration, and transepithelial calcium flux in tubules isolated from flies raised on high and low calcium diets did not differ significantly. Malpighian tubules secrete calcium at rates sufficient to eliminate whole body calcium content in 0.5 and 3 days for tubules secreting fluid at basal and maximal rates, respectively. It is suggested that flies absorb high quantities of calcium from the diet and maintain homeostasis through the combined effects of elimination of calcium in fluid secreted by the Malpighian tubules and the sequestration of calcium in granules, especially within the distal segment of the anterior pair of Malpighian tubules.     

Apoptosis in developing and adult D. melanogaster

We studied apoptosis-associated cell death in various organs of developing and adult Drosophila using selective staining with acridine orange. Apoptotic cells have been found in the fat body and salivary glands during metamorphosis 2-3 h after the activation of ecdysone-dependent late puffs. The activation of genes and apoptosis in the fat body take place earlier than in salivary glands. In the adult insects, apoptosis has been observed in the distal region of testicles, as well as in ovarian follicles at stages 7-8 of development. Mutation-associated disturbances of mitosis and meiosis result in apoptosis at early stages of ovarian development, as well as in proliferating neuroblasts of the cerebral ganglion of Drosophila larvae. Similar effects have also been observed after irradiation. We discuss the results in connection with the identification of genes involved in apoptosis.     

Oxidative Resistance of Na/K-ATPase

1. Oxidative modification of Na/K-ATPase from brain and kidney has been studied. Brain enzyme has been found to be more sensitive than kidney enzyme to inhibition by both H₂O₂ and NaOCl.2. The inhibition of Na/K-ATPase correlates well with the decrease in a number of SH groups, suggesting that the latter belong mainly to ATPase protein and are essential for the enzyme activity. We suggest that the differences in the number, location, and accessibility of SH groups in Na/K-ATPase isozymes predict their oxidative stability.3. The hydrophilic natural antioxidant carnosine, the hydrophobic natural antioxidant -tocopherol, and the synthetic antioxidant ionol as well as the ferrous ion chelating agent deferoxamine were found to protect Na/K-ATPase from oxidation by different concentrations of H₂O₂. The data suggest that these antioxidants are effective due to their ability to neutralize or to prevent formation of hydroxyl radicals.     

Terahertz vibration modes in Na/K-ATPase

Mechanical vibration in the Terahertz range is believed to be connected with protein functions. In this paper, we present the results of a normal-mode analysis (modal analysis) of a Na/K-ATPase all-atom model, focusing the attention on low-frequency vibration modes. The numerical model helps in the interpretation of experimental results previously obtained by the authors via Raman spectroscopy of Na/K-ATPase samples, where several unassigned peaks were found in the sub-500 cm^?1 range. In particular, vibration modes corresponding to peaks at 27, 190 and 300 cm^?1, found experimentally, are confirmed here numerically, together with some other modes at lower frequencies (wavenumbers) that were not possible to observe in the experimental test. All the aforementioned modes correspond to vibrations involving the protein ends, i.e. portions directly related to the operating mechanism of the sodium-potassium pump.     

Ecdysone receptor expression and activity in adult Drosophila melanogaster

Disrupting components of the ecdysone/EcR/USP signaling pathway in insects leads to morphological defects and developmental arrest. In adult Drosophila melanogaster decreased EcR function affects fertility, lifespan, behavior, learning, and memory; however we lack a clear understanding of how EcR/USP expression and activity impacts these phenotypes. To shed light on this issue, we characterized the wild-type expression patterns and activity of EcR/USP in individual tissues during early adult life. EcR and usp were expressed in numerous adult tissues, but receptor activity varied depending on tissue type and adult age. Receptor activity did not detectably change in response to mating status, environmental stress, ecdysone treatment or gender but is reduced when a constitutively inactive ecdysone receptor is present. Since only a subset of adult tissues expressing EcR and usp contain active receptors, it appears that an important adult function of EcR/USP in some tissues may be repression of genes containing EcRE's.     

Localization of serotonin/tryptophan-hydroxylase-immunoreactive cells in the brain and suboesophageal ganglion of Drosophila melanogaster

We previously demonstrated that tryptophan hydroxylase (TPH), the rate-limiting enzyme of serotonin (5-HT) synthesis, was commonly present in the brains of some insects. The current study was aimed at determining the number of serotonergic neurons in the brain and suboesophageal ganglion of adult Drosophila melanogaster and to investigate further the differences in immunoreactivity between 5-HT and TPH. Brain sections of Drosophila were immunostaind with sheep anti-TPH polyclonal antibody and rabbit anti-5-HT antiserum. The 5-HT-like immunoreactive neurons were also immunoreactive for TPH and bilaterally symmetrical; 83 neurons were found in each hemisphere of the brain and suboesophageal ganglion of adult Drosophila. This technique of colocalizing 5-HT and TPH revealed a larger number of serotonergic neurons in the brain and suboesophageal ganglion than that previous reported, thus updating our knowledge of the 5-HT neuronal system of Drosophila.     

Regional differences in the developing foreleg of Drosophila melanogaster

We transplanted imaginal disks of Drosophila melanogaster from larvae of the second half of the third larval instar into prepupae. Disks from the youngest donors differentiated bristles of only the distal segments of the leg. These disks also produced unusually large areas of cuticle that had no bristles. Disks from older donors differentiated bristles of more proximal segments and the area of cuticle with no bristles was reduced. To account for the regional variation in these results, there must be regional differences among the prospective leg cells at some time during the period from the second half of the third larval instar to the end of adult bristle differentiation. We asked whether prospective distal cells were more advanced than prospective proximal cells during bristle differentiation. We estimated when bristle precursor cells undergo their final cell divisions by heavily irradiating prepupae and pupae. We assumed that cells that were insensitive to the radiation had completed their cell divisions. The distal segments were the first to have insensitive bristles. Most leg bristles became insensitive between 12 and 18 hr after pupariation. The tarsus had a larger proportion of its bristles insensitive than the femur at 15 hr after pupariation. We also investigated when bristle-forming cells begin elongating their bristle shafts. We used the length of bristle rudiments as an indicator of when elongation is initiated. At 35 hr after pupariation, bristle rudiments of distal segments were two to three times longer than bristle rudiments of proximal segments. We discuss how these intersegmental differences observed during bristle differentiation can account for the regional variation in response of discs transplanted into older hosts. However, we do not exclude the possibility that regional differences among cells of the leg tissue exist at stages earlier than the time of bristle differentiation.     

Persistent larval sensory neurons in adult Drosophila melanogaster

Using a combination of lineage tracing and laser ablation, we have identified a segmentally repeated array of embryonically produced sensory neurons that persist through metamorphosis into adult stages of Drosophila development. The persistent sensory neurons are found in all unfused abdominal segments, but there is segment-specific variation in the number of neurons observed. There are 12 persistent neurons in the first abdominal segment (A1), 18 in the second (A2), and 16 in segments A3-A7. Most are internal sensory neurons (dendritic arborization neurons and bipolar dendrite neurons), but two are associated with external sensilla on the sternite. All of these neurons and their axons define specific adult sensory pathways in the periphery and their locations and persistence through metamorphosis suggest a role in guiding the growth of adult sensory and motor axons.     

Genomic imprinting absent in Drosophila melanogaster adult females

Genomic imprinting occurs when expression of an allele differs based on the sex of the parent that transmitted the allele. In D. melanogaster, imprinting can occur, but its impact on allelic expression genome-wide is unclear. Here, we search for imprinted genes in D. melanogaster using RNA-seq to compare allele-specific expression between pools of 7- to 10-day-old adult female progeny from reciprocal crosses. We identified 119 genes with allelic expression consistent with imprinting, and these genes showed significant clustering within the genome. Surprisingly, additional analysis of several of these genes showed that either genomic heterogeneity or high levels of intrinsic noise caused imprinting-like allelic expression. Consequently, our data provide no convincing evidence of imprinting for D. melanogaster genes in their native genomic context. Elucidating sources of false-positive signals for imprinting in allele-specific RNA-seq data, as done here, is critical given the growing popularity of this method for identifying imprinted genes.     

Mutation that selectively affects rhodopsin concentration in the peripheral photoreceptors of Drosophila melanogaster

A Drosophila mutant (ninaAP228) that is low in rhodopsin concentration but identical to the wild-type fly in photoreceptor morphology has been isolated. R1-6 photoreceptors of the mutant differ from those of wild type in that (a) the prolonged depolarizing afterpotential (PDA) is absent, (b) concentrations of rhodopsin and opsin are substantially reduced, and (c) intramembrane particle density in the membranes of the rhabdomeres is low. Each of these traits is mimicked by depriving wild- type flies of vitamin A. The ninaAP228 mutation differs from vitamin A deprivation in that in the mutant (a) the rhabdomeric membrane particle density is reduced only in the R1-6 photoreceptors and not in R7 or R8, (b) the PDA can be elicited from the R7 photoreceptors, and (c) photoconversion of R1-6 rhodopsin to metarhodopsin by ultraviolet (UV) light is considerably more efficient than in vitamin A-deprived flies. The absorption properties of the mutant rhodopsin in the R1-6 photoreceptors appear to be identical to those of wild type as judged from rhodopsin difference spectra. The results suggest that the mutation affects the opsin, rather than the chromophore, component of rhodopsin molecules in the R1-6 photoreceptors. The interaction between the chromophore and R1-6 opsin, however, appears to be normal.