Functional Correlates of Positional and Gender-Specific Renal Asymmetry in Drosophila

Chintapalli, Venkateswara R.; Terhzaz, Selim; Wang, Jing; Bratty, Mohammed Al; Watson, David; Herzyk, Paweł; Davies, Shireen A.; Dow, Julian A. T.

doi:10.1371/journal.pone.0032577

Cited by 54 publications

(51 citation statements)

References 85 publications

(120 reference statements)

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“…Conversely, the lack of Ca 2+ transport by the distal tubules is consistent with the absence of granules. Segment-specific Ca 2+ transport has been demonstrated previously: in specialized tubule segments of the alkali fly, Eulima hians (Herbst & Bradley, 1989), in the upper tubules of the kissing bug, R. prolixus (Maddrell et al, 1991), and in distal tubules of the fruit fly, D. melanogaster (Browne & O'Donnell, 2016 (Chintapalli et al, 2012).…”

Section: Segment-specific Basolateral Ca 2+ Transport-a Primary Role mentioning

confidence: 78%

Mechanisms of calcium sequestration by isolated Malpighian tubules of the house cricket Acheta domesticus

Browne

O’Donnell

2017

Arch Insect Biochem Physiol

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Hemolymph calcium homeostasis in insects is achieved by the McDonald, & O'Donnell, 2000b;Maddrell et al., 1991;O'Donnell & Maddrell, 1995). Hemolymph Ca 2+ concentrations of flies increase < 1.5-fold when fed on diets with > sixfold higher calcium concentrations, demonstrating that Dipterans have the capacity for hemolymph calcium regulation (Dube et al., 2000b;Taylor, 1985). Hemolymph Ca 2+ concentrations are altered by changes in the rates of Ca 2+ absorption (input) or Ca 2+ excretion (removal). Rates of 45 Ca 2+ absorption across isolated midguts of the blowfly, Calliphora vicina, are unaffected by increases in the calcium content of the diet (from 0 to 12.5 mM CaCl 2 ), leading Taylor (1985) to conclude that absorption of dietary Ca 2+ across the midgut is unregulated and therefore modulation of rates of Ca 2+ excretion is the primary means by which hemolymph calcium regulation is achieved in insects.The Malpighian (renal) tubules and hindgut together form the functional "kidney" in insects (Maddrell, 1972).Malpighian tubules generate primary urine by transporting ions and osmotically-obliged water from the hemolymph into the tubule lumen. Several lines of evidence suggest that the tubules play a major role in excreting excess Ca 2+ from the hemolymph, either by secretion or sequestration. Secretion refers to the transport of Ca 2+ in soluble form into the primary urine, whereas sequestration refers to the transport of Ca 2+ into tubule calcium stores. In tubules of adult Drosophila melanogaster, ≥85% of the Ca 2+ which enters the tubules is sequestered and the remaining ≤15% is secreted into the lumen (Browne & O'Donnell, 2016;Dube, McDonald, & O'Donnell, 2000a). A reliance on Ca 2+ sequestration may be an effective strategy for eliminating large quantities of concentrated calcium (and counter ions) with relatively little water loss. Measurements of the calcium content of the Malpighian tubules indicate that they are also sites of physiologically relevant calcium storage. All 4 tubules isolated from larvae of Drosophila hydei contain approximately 88% of the calcium content of the entire flies . The majority of the calcium content within insect Malpighian tubules is correlated with the presence of numerous calcium-rich granules found in the cells and/or lumen (Brown, 1982).In crickets, these granules are spherical, relatively small (0.2 to 5 m in diameter) and are composed of concen-

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Section: Segment-specific Basolateral Ca 2+ Transport-a Primary Role mentioning

confidence: 78%

Mechanisms of calcium sequestration by isolated Malpighian tubules of the house cricket Acheta domesticus

Browne

O’Donnell

2017

Arch Insect Biochem Physiol

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“…By contrast, expression of the kinin receptor is stable between larva and adult in both Anopheles and Drosophila. Data from the gene expression database FlyAtlas shows some similarities with Drosophila, as DH31 receptor (DH31-R1) is massively enriched in the adult tubules compared to the larval tubules, and DH44-R2 isn't enriched in either life-stage (Chintapalli et al, 2007a).…”

Section: Cell Signalling In Larval Versus Adult Tubulesmentioning

confidence: 99%

“…We would expect mechanisms of secretion to be essential for survival, but what about less obvious transport functions of the tubule? We mined the Anopheles microarray data in combination with FlyAtlas (Chintapalli et al, 2007a), to identify transporters that are significantly up-regulated in the Anopheles tubule, that have conserved orthologues that also show up-regulated expression in the Drosophila tubules. We selected four genes for functional analysis: the putative sugar transporters AGAP007752 and CG15406, the inorganic phosphate transporters AGAP011251 and Picot, the zinc transporters AGAP009005 and Znt35c, and the monocarboxylate transporters AGAP002587 and CG8028.…”

Section: Testing the Functional Significance Of Co-enrichment Betweenmentioning

confidence: 99%

“…Transcriptomic analysis has identified a range of abundantly expressed transporters that have been shown experimentally to underpin tubule function (Chintapalli et al, 2012;Wang et al, 2004); and by comparing epithelial transcriptomes by meta-analysis of the online FlyAtlas.org resource (Chintapalli et al, 2007b;Chintapalli et al, 2013), it has been shown that the key fluid secreting epithelia of Drosophila (salivary glands, midgut, tubules, hindgut) all shared a transcriptomic fingerprint, or 'epitheliome' (Chintapalli et al, 2013). Although unsupported transcriptomic studies should be interpreted cautiously, downstream experimental testing has validated the models so obtained (Allan et al, 2005;Cabrero et al, 2014;Wang et al, 2004).…”

Section: Introduction Ion and Water Homeostasis Is Essential In Insectsmentioning

confidence: 99%

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A comprehensive transcriptomic view of renal function in the malaria vector, Anopheles gambiae

Overend

Cabrero

Halberg

et al. 2015

Insect Biochemistry and Molecular Biology

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Renal function is essential to maintain homeostasis. This is particularly significant for insects that undergo complete metamorphosis; larval mosquitoes must survive a freshwater habitat whereas adults are terrestrial, and mature females must maintain ion and fluid homeostasis after blood feeding. To investigate the physiological adaptations required for successful development to adulthood, we studied the Malpighian tubule transcriptome of Anopheles gambiae using Affymetrix arrays. We assessed transcription under several conditions; as third instar larvae, as adult males fed on sugar, as adult females fed on sugar, and adult females after a blood meal. In addition to providing the most detailed transcriptomic data to date on the Anopheles Malpighian tubules, the data provide unique information on the renal adaptations required for the switch from freshwater to terrestrial habitats, on gender differences, and on the contrast between nectar-feeding and haematophagy. We found clear differences associated with ontogenetic change in lifestyle, gender and diet, particularly in the neuropeptide receptors that control fluid secretion, and the water and ion transporters that impact volume and composition. These data were also combined with transcriptomics from the Drosophila melanogaster tubule, allowing meta-analysis of the genes which underpin tubule function across Diptera. To further investigate renal conservation across species we selected four Drosophila melanogaster genes with orthologues highly enriched in the Anopheles tubules, and generated RNAi knockdown flies. Three of these genes proved essential, showing conservation of critical functions across 150 million years of phylogenetic separation. This extensive data-set is available as an online resource, MozTubules.org, and could potentially be mined for novel insecticide targets that can impact this critical organ in this pest species.

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“…Recent work indicates that the anterior and posterior tubules exhibit transcriptome and functional asymmetry (Chintapalli et al, 2012), suggesting further intriguing possibilities of anterior-and posterior-specific roles for each pair of tubules. Tubules consist of two major cell types, the principal and stellate cells (Dow, 2009), which allow functional separation of ion transport and cell signalling pathways for physiological function.…”

Section: The Malpighian Tubules As Stress Sensorsmentioning

confidence: 99%

Cell signalling mechanisms for insect stress tolerance

Davies

Cabrero

Overend

et al. 2014

Journal of Experimental Biology

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Insects successfully occupy most environmental niches and this success depends on surviving a broad range of environmental stressors including temperature, desiccation, xenobiotic, osmotic and infection stress. Epithelial tissues play key roles as barriers between the external and internal environments and therefore maintain homeostasis and organismal tolerance to multiple stressors. As such, the crucial role of epithelia in organismal stress tolerance cannot be underestimated. At a molecular level, multiple cell-specific signalling pathways including cyclic cAMP, cyclic cGMP and calcium modulate tissue, and hence, organismal responses to stress. Thus, epithelial cell-specific signal transduction can be usefully studied to determine the molecular mechanisms of organismal stress tolerance in vivo. This review will explore cell signalling modulation of stress tolerance in insects by focusing on cell signalling in a fluid transporting epithelium -the Malpighian tubule. Manipulation of specific genes and signalling pathways in only defined tubule cell types can influence the survival outcome in response to multiple environmental stressors including desiccation, immune, salt (ionic) and oxidative stress, suggesting that studies in the genetic model Drosophila melanogaster may reveal novel pathways required for stress tolerance.

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Functional Correlates of Positional and Gender-Specific Renal Asymmetry in Drosophila

Cited by 54 publications

References 85 publications

Mechanisms of calcium sequestration by isolated Malpighian tubules of the house cricket Acheta domesticus

Mechanisms of calcium sequestration by isolated Malpighian tubules of the house cricket Acheta domesticus

A comprehensive transcriptomic view of renal function in the malaria vector, Anopheles gambiae

Cell signalling mechanisms for insect stress tolerance

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