Evidence and bioassay for diuretic factors in the nervous system of larvalHeliothis virescens

Summary Diuretic factors were studied in the central nervous system of larvae of the tobacco budworm,Heliothis virescens, using [¹⁴C]urea as a sensitive indicator for water movement through isolated Malpighian tubules. The assay required Na⁺ and a pH of 6.0–6.2 for maximum activity. Malpighian tubules had high secretory activity in feeding larvae of the fifth instar, but the activity declined during the burrowing-digging stage that preceded pupation. Malpighian tubules from starved larvae showed a greater response to extracts of nervous tissues than did tubules from feeding larvae, and extracts showed a dose-response relationship with fluid secretion. Diuretic activity was distributed throughout all parts of the central nervous system with the brain having the most activity. Brain extracts increased fluid secretion by in vitro Malpighian tubules by more than 3-fold and doubled the rate of dye clearance from the hemolymph in vivo. Diuretic activity in nervous tissue extracts was unaffected by boiling but sensitive to proteases. Fluid secretion by in vitro tubules was increased by cAMP, dbcAMP, theophylline, octopamine and dopa. These studies provide evidence for the presence of diuretic factors in the central nervous system ofH. virescens larvae and describe a sensitive bioassay for these factors.Abbreviations AR activation ratio - cAMP cyclic AMP - dbcAMP dibutyryl cyclic AMP - dbcGMP dibutyryl cyclic GMP - Dopa dihydroxyphenylalanine - 5-HT 5-hydroxytryptamine - L1 larval instar - VCNS ventral central nervous system     

The conversion of injected glucose into renal glycogen and mucopolysaccharides

Summary Tritiated glucose has been injected into rabbits in various states of hydration. The renal papilla of all animals showed an uptake of the label, converted into glycogen, and into mucopolysaccharides, in a manner dependent on the water balance of the animal.In papillae of control animals, the glycogen of the collecting duct epithelial cells and the mucopolysaccharides of the interstitium were labelled.In papillae of animals in an aqueous diuresis, the collecting duct glycogen was lightly labelled and there was no label over the interstitium.Antidiuretic hormone caused a diversion of label from the collecting ducts into interstitial mucopolysaccharides.The significance of these findings, with respect to renal concentrating ability, is discussed.The author wishes to thank Dr. M. K. S. Hathorn for help with the statistical analysis. Mr. K. Gamblin and Mr. P. L. Hyam gave valuable technical assistance. This research formed a part of the work approved for the degree of Ph. D. (London).     

The kinin receptor is expressed in the Malpighian tubule stellate cells in the mosquito Aedes aegypti (L.): a new model needed to explain ion transport?

It is known that insect kinins increase diuresis and fluid secretion in the Aedes aegypti Malpighian tubule, causing a rapid drop of the transepithelial resistance and increasing chloride conductance from the hemolymph towards the tubule lumen. The tubule is composed of both principal and stellate cells. The main route for increased chloride influx upon kinin treatment is proposed to be paracellular, with septate junctions acquiring increased chloride selectivity and conductance. Therefore, kinin treatment renders the Ae. aegypti tubule a “leaky epithelium”, and under this model the kinin receptor is postulated to be expressed in principal cells. However, in another dipteran, the fruit fly Drosophila melanogaster, the main route for chloride transport is transcellular through stellate cells. In both the fruit fly and the mosquito Anopheles stephensi the kinin receptor has been immunolocalized in stellate cells, where it regulates transepithelial chloride permeability. Here we show that in Ae. aegypti, similarly, the stellate cells express the kinin receptor. This was confirmed through immunohistochemistry with two specific anti-kinin receptor antibodies and confocal analysis. The receptor is detected as a 75 kDa band in western blot. These results indicate that the currently accepted model for chloride transport must be re-evaluated in Ae. aegypti and suggest the kinin regulatory signals controlling intercellular junctions originate in the stellate cells.     

Action des ions atmosphériques positifs sur le complexe hypothalamo-hypophysaire et la régulation du métabolisme hydrominéral chez le rat albinos

Résumé Les noyaux supra-optiques et paraventriculaires de l'hypothalamus du Rat albinos soumis aux ions atmosphériques positifs pendant 20 et 40 jours, présentent des signes d'hypo-activité: tendance à la diminution des volumes nucléaires et nucléolaires, augmentation des granules de neurosécrétat dans le cytoplasme des cellules neurosécrétrices, et diminution du matériel neurosécrétoire au long des axones. Corrélativement, la post-hypophyse est très appauvrie (surtout après 40 jours) en matériel coloré par l'hématoxyline chromique.On peut admettre, à la lumière de résultats antérieurs ou non publiés, que cette hypoactivité des neurones hypothalamiques est liée à une hyposécrétion d'hormone antidiurétique (A.D.H.).Cependant, on ne note pas de polyurie, mais une oligurie qui tend à disparaître une quinzaine de jours après le début du traitement; ceci suggère l'idée d'une réponse homéostatique hypothalamo-hypophysaire consécutive à un trouble du métabolisme hydrique induit par un autre facteur oligurique.Par ailleurs, Krueger a trouvé que l'aéro-ionisation positive entraine une augmentation du taux sanguin de sérotonine dont l'action antidiurétique au niveau rénal est bien connue. Ceci permet d'expliquer une composante oligurique initiale, provoquant en retour une inhibition hypothalamo-post-hypophysaire, de signification diurétique, cette réaction hypothalamique, ne normalisant la diurèse qu'au bout d'une quinzaine de jours, lors de l'épuisement de la réserve en ADH de la neuro-hypophyse.L'ensemble des modifications du métabolisme hydrominéral observées après aéro-ionisation positive peut s'expliquer de façon satisfaisante par l'augmentation du taux sanguin de sérotonine, contrebalancée progressivement par la réduction du taux d'ADH.

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Action of positive atmospheric ions upon hypothalamo-hypophysial complex, and regulation of water and electrolyte metabolism in the albino rat

Summary In the hypothalamus of albino rats submitted to positive air ions for 20 to 40 days, supra-optic and paraventricular nuclei exhibit various signs of hypo-activity: a slight decrease of nuclear and nucleolar volumes, an increase of the amount of neurosecretory granules in these neurones, while the migration of the neurosecretory material in the axons is diminished, almost no staining substance being detected along the axons. Simultaneously, the chrome-haematoxylin positive material is greatly reduced in the neurohypophysis, mainly after 40 days.Considering these data and other results, either unpublished or previously reported by various authors, it appears that the hypo-activity observed in the hypothalamo-neurohypophysial system may be correlated with a hyposecretion of antidiuretic hormone (ADH).There is no increase of diuresis; instead, an antidiuresis was noted which tends to disappear after about two weeks of treatment. This finding suggests that the hypothalamo-hypophysial response observed may be due to a disturbance of water metabolism induced by another antidiuretic factor.Besides, it was established that a treatment with positive air ions induces a significant increase of the serotonin level of the blood (Krueger). As an antidiuretic effect is directly exerted by serotonin on the kidneys, it may be responsible for the antidiuresis observed in this experiment. The inhibition of hypothalamic nuclei according to histological criteria would represent a homeostatic response trying to compensate the antidiuresis initially produced by serotonin, the neurohypophysial storage of ADH delaying the efficiency of this hypothalamic inhibition.All the available data on the modifications of water and electrolyte metabolism detected after a positive aero-ionization may be explained satisfactorily by an increase of the serotonin level of the blood, progressively counteracted by a decrease of ADH.

     

Leucokinin and diuretic hormone immunoreactivity of neurons in the tobacco hornworm,Manduca sexta,and co-localization of this immunoreactivity in lateral neurosecretory cells of abdominal ganglia

Because leucokinins stimulate diuresis in some insects, we wished to identify the neurosecretory cells in Manduca sexta that might be a source of leucokinin-like neurohormones. Immunostaining was done at various stages of development, using an antiserum to leucokinin IV. Bilateral pairs of neurosecretory cells in abdominal ganglia 3–7 of larvae and adults are immunoreactive; these cells project via the ipsilateral ventral nerves to the neurohemal transverse nerves. The immunoreactivity and size of these lateral cells greatly increases in the pharate adult, and this change appears to be related to a period of intensive diuresis occurring a few days before adult eclosion. Relationships of these neurons to cells that are immunoreactive to a M. sexta diuretic hormone were also investigated. Diuretic hormone and leucokinin immunoreactivity are co-localized in the lateral neurosecretory cells and their neurohemal projections. A median pair of leucokinin-immunoreactive, and a lateral pair of diuretic hormone-immunoreactive neurons in the larval terminal abdominal ganglion project to neurohemal release sites within the cryptonephridium. The immunoreactivity of these cells is lost as the cryptonephridium is eliminated during metamorphosis. This loss appears to be related to the change from the larval to adult pattern of diuresis.     

Continuous recording of excretory water loss from Musca domestica using a flow-through humidity meter: hormonal control of diuresis

Water loss from adult male houseflies was continuously recorded using a flow-through humidity meter, which enabled losses to be apportioned between the sum of cuticular and respiratory transpiration, salivation and excretion. Transpiration accounted for >95% of water lost from sham-injected flies, compared with excretion (3.0%) and salivation (2.4%). In contrast, excretion accounted for 40% of water lost from flies injected with > or =3 microl of saline, whereas salivary losses were unchanged. Saline injections (1-5 microl) expanded the abdomen in the dorsal-ventral plane, and this expansion was positively correlated with the magnitude of the ensuing diuresis, suggesting the signal for diuretic hormone release originates from stretch receptors in abdominal tergal-sternal muscles. The effects of decapitation, severing the ventral nerve cord within the neck or ligaturing the neck, showed the head was needed to initiate and maintain diuresis, but was neither the source of diuretic hormone nor did it control the discharge of urine from the anus. These findings indicate the head is part of the neural-endocrine pathway between abdominal stretch receptors and sites for diuretic hormone release from the thoracic-abdominal ganglion mass. Evidence is presented for Musdo-K having a hormonal role in the control of diuresis, although other neuropeptides may also be implicated.     

GLP-1受体激动剂肾功能调节作用的研究进展

GLP-1受体是广泛分布于人体多个组织和器官中的一种G蛋白偶联受体,它参与体内糖代谢的调控,是糖尿病领域的研究热点。GLP-1受体激动剂能够作用于胰岛,调节胰岛素和胰高血糖素的分泌,促进胰岛B细胞增殖并抑制其凋亡;作用于胃肠道,延缓胃排空和抑制糖脂吸收;作用于中枢神经细胞发挥神经保护作用。越来越多的研究发现,GLP-1受体激动剂对肾脏功能具有调节作用。在动物实验中,大鼠给予GLP-1受体激动剂后尿排出量显著增加,尿液中钠离子浓度大幅度升高,此外,钾、碳酸氢等离子的排泄量均有不同程度地增加;同时,肾小球滤过率和肾血流量均明显升高。其作用机制可能涉及两个方面:GLP-1受体激动剂直接作用于肾脏GLP-1受体调节电解质的转运以及作用于肾脏脉管系统影响肾脏血流动力学。本文将对此作用的研究现状做简要综述。     

Zea mays L. extracts modify glomerular function and potassium urinary excretion in conscious rats

Diuretic and uricosuric properties have traditionally been attributed to corn silk, stigma/style of Zea mays L. Although the diuretic effect was confirmed, studies of the plant's effects on renal function or solute excretion were lacking. Thus, we studied the effects of corn silk aqueous extract on the urinary excretion of water, Na+, K+, and uric acid. Glomerular and proximal tubular function and Na+ tubular handling were also studied. Conscious, unrestrained adult male rats were housed in individual metabolic cages (IMC) with continuous urine collection for 5 and 3 h, following two protocols. The effects of 25, 50, 200, 350, and 500 mg/kg body wt. corn silk extract on urine volume plus Na+ and K+ excretions were studied in water-loaded conscious rats (2.5 ml/100 g body wt.) in the IMC for 5 h (Protocol 1). Kaliuresis was observed with doses of 350 (100.42 +/- 22.32-120.28 +/- 19.70 microEq/5 h/100 g body wt.; n = 13) and 500 mg/kg body wt. (94.97+/- 29.30-134.32 +/- 39.98 microEq/5h/100 g body wt.; n = 12; p<0.01), and the latter dose resulted in diuresis as well (1.98 +/- 0.44-2.41 +/- 0.41 ml/5 h/100 g body wt.; n = 12; p<0.05). The effects of a 500 mg/kg body wt. dose of corn silk extract on urine volume, Na+, K+ and uric acid excretions, and glomerular and proximal tubular function, were measured respectively by creatinine (Cler) and Li+ (ClLi) clearances and Na+ tubular handling, in water-loaded rats (5 ml/100 g body wt.) in the IMC for 3 h (Protocol 2). Clcr (294.6 +/- 73.2, n = 12, to 241.7 +/- 48.0 microl/ min/100 g body wt.; n = 13; p<0.05) and the Na+ filtered load (41.9 +/- 10.3, n = 12, to 34.3 +/- .8, n = 13, p<0.05) decreased and ClLi and Na+ excretion were unchanged, while K+ excretion (0.1044 +/- 0.0458, n=12, to 0.2289 +/- 0.0583 microEq/min/100 body wt.; n = 13; p<0.001) increased. For Na+ tubular handling, the fractional proximal tubular reabsorption (91.5 +/- 3.5, n = 12, to 87.5 +/- 3.4%; n = 13; p<0.01) decreased, and both fractional distal reabsorptions--I and II--increased (96.5 +/- 1.5, n = 12, to 97.8 +/- 0.9%; n = 13; p<0.01; and 8.2 +/- 3.5, n = 12, to 12.2 +/- 3.4%, n = 13, p<0.01, respectively). To summarize, in water-loaded conscious rats (2.5 ml/100 body wt.), corn silk aqueous extract is diuretic at a dose of 500 mg/kg body wt. and kaliuretic at doses of 350 and 500 mg/kg body wt. In water-loaded conscious rats (5.0 ml/100 g body wt.), corn silk aqueous extract is kaliuretic at a dose of 500 mg/kg body wt., but glomerular filtration and filtered load decrease without affecting proximal tubular function, Na+, or uric acid excretion.     

The design and synthesis of novel spirocyclic heterocyclic sulfone ROMK inhibitors as diuretics

A spirocyclic class of ROMK inhibitors was developed containing a structurally diverse heterocyclic sulfone moiety and spirocyclic core starting from lead 1. These compounds not only displayed exquisite ROMK potency but significantly improved selectivity over hERG. The lead compounds were found to have favorable pharmacokinetic properties and displayed robust diuretic, natriuretic and blood pressure lowering effects in spontaneously hypertensive rats.     

The vasopressin-like immunoreactive (VPLI) neurons of the locust,Locusta migratoria. II. Physiology

Summary The two vasopressin-like immunoreactive (VPLI) neurons of the locust, Locusta migratoria, have cell bodies in the suboesophageal ganglion and extensive arborizations throughout the CNS. One of the two peptides responsible for AVP-like immunoreactivity is a vasopressin-related peptide with putative diuretic hormone properties. These neurons also have FLRF-like immunoreactivity, probably due to the FMRF-amide-related peptide, SchistoFLRF-amide, isolated from Schistocerca gregaria. This peptide has cardioinhibitory activity and a dual potentiation/inhibition of slow motoneuron induced muscle-twitch tension. Although haemolymph AVP-like peptide titre fluctuates under various conditions, the mechanism that regulates neurohaemal release of this peptide is not understood. Very little is known of the release of SchistoFLRF-amide. We have used intracellular recording from VPLI neurons in vivo to reveal synaptic inputs that lead to changes in their level of spiking activity, and probably, release of both the AVP-like peptides and SchistoFLRF-amide. This pair of neurosecretory cells has a major, common excitatory input whose sustained rate of activity is inversely related to light intensity; VPLI spiking activity, driven by this input, is greater in the dark than in light. This input is from a pair of descending brain interneurons. Their light-sensitivity persists after ablation of compound eyes, optic lobes and ocelli, showing them to be part of an extra-ocular photoreceptor system. Attempts to record from, and individually stain, the descending neuron have been unsuccessful, although its axon location and diameter in the circumoesophageal connective have been determined. Possible locations for its cell body have been identified; one region, close to the pars intercerebralis, is known to be photosensitive in some insects. Mechanosensory stimuli also lead to brief increases in VPLI spiking activity via the descending interneuron, though this modality rapidly habituates. We detect no changes in VPLI spiking activity that consistently correlate with the osmolality of perfusion salines; such changes might have been expected from their previously proposed role in water homeostasis. Alternative roles for VPLI cells are discussed.Abbreviations AVP arginine-vasopressin - EOP extra-ocular photoreceptor - FLRF Phe-Leu-Arg-Phe - FMRF-amide Phe-Met-Arg-Phe-amide - RH relative humidity - RIA radio-immune assay - SOG suboesophageal ganglion - VPLI vasopressin-like immunoreactive