Fine structure of intramembranous particle aggregates in ADH-treated frog urinary bladder and skin: Influence of glutaraldehyde and N-ethyl maleimide

Summary The fine structure of ADH-induced intramembrane particle aggregates has been studied in different tissues and under different experimental conditions. Particle aggregates similar to those previously observed in the amphibian urinary bladder and in the mammalian collecting duct were also found in the frog skin, another ADH target tissue. In the frog urinary bladder, typical aggregates were observed in the absence of glutaraldehyde fixation. Two experimental approaches were used a) the absence of both fixative and cryoprotectant treatments and b) the absence of only glutaraldehyde treatment. In the latter case the reversal of hydrosmotic action was prevented by exposing the preparations to N-ethyl maleimide. In specimens of frog urinary bladder conventionally fixed with glutaraldehyde, two fracture levels could be observed in the aggregates, suggesting that the aggregated particles span an appreciable part of the membrane thickness.J. Chevalier is a career investigator from the Institut National de la Santé et de la Recherche Médicale, INSERM U 48, France     

Otolith morphology varies between populations,sexes and male alternative reproductive tactics in a vocal toadfish Porichthys notatus

In this study, the morphology of sagittal otoliths of the plainfin midshipman fish Porichthys notatus was compared between populations, sexes and male alternative reproductive phenotypes (known as ‘type I males or guarders’ and ‘type II males or sneakers’). Sagitta size increased with P. notatus size and changes in shape were also detected with increasing body size. Porichthys notatus sagittae begin as simple rounded structures, but then elongate as they grow and take on a more triangular and complex shape with several prominent notches and indentations along the dorsal and caudal edges. Moreover, the sagittae of the two geographically and genetically distinct populations of P. notatus (northern and southern) differed in shape. Porichthys notatus from the north possessed taller sagittae with deeper caudal indentations compared to P. notatus from the south. Sagitta shape also differed between females and males of the conventional guarder tactic. Furthermore, guarder males had smaller sagittae for their body size than did sneaker males or females. These differences in sagittal otolith morphology are discussed in relation to ecological and life history differences between the sexes and male tactics of this species. This is the first study to investigate teleost otolith morphology from the perspective of alternative reproductive tactics.     

GSH depletion, K-Cl cotransport, and regulatory volume decrease in high-K/high-GSH dog red blood cells

Thiol reagents activateK-Cl cotransport (K-Cl COT), the Cl-dependent and Na-independentouabain-resistant K flux, in red blood cells (RBCs) of several species,upon depletion of cellular glutathione (GSH). K-Cl COT isphysiologically active in high potassium (HK), high GSH (HG) dog RBCs.In this unique model, we studied whether the same inverse relationshipexists between GSH levels and K-Cl COT activity found in other species.The effects of GSH depletion by three different chemical reactions[nitrite (NO₂)-mediated oxidation, diazene dicarboxylicacid bis-N,N-dimethylamide (diamide)-induceddithiol formation, and glutathione S-transferase (GST)-catalyzed conjugation of GSH with 1-chloro-2,4-dinitrobenzene (CDNB)] were tested on K-Cl COT and regulatory volume decrease (RVD).After 85% GSH depletion, all three interventions stimulated K-Cl COThalf-maximally with the following order of potency: diamide > NO₂ > CDNB. Repletion of GSH reversed K-Cl COTstimulation by 50%. Cl-dependent RVD accompanied K-Cl COT activationby NO₂ and diamide. K-Cl COT activation at concentrationratios of oxidant/GSH greater than unity was irreversible, suggestingeither nitrosothiolation, heterodithiol formation, or GST-mediateddinitrophenylation of protein thiols. The data support the hypothesisthat an intact redox system, rather than the absolute GSH levels,protects K-Cl COT activity and cell volume regulation from thiol modification.

     

NONOates regulate KCl cotransporter-1 and -3 mRNA expression in vascular smooth muscle cells

Nitric oxide (NO) donors regulate KCl cotransport (KCC) activity and cotransporter-1 and -3 (KCC1 and KCC3) mRNA expression in sheep erythrocytes and in primary cultures of rat vascular smooth muscle cells (VSMCs), respectively. In this study, we used NONOates as rapid and slow NO releasers to provide direct evidence implicating NO as a regulator of KCC3 gene expression at the mRNA level. In addition, we used the expression of KCC3 mRNA to further investigate the mechanism of action of these NO donors at the cellular level. Treatment of VSMCs with rapid NO releasers, like NOC-5 and NOC-9, as well as with the direct NO-independent soluble guanylyl cyclase (sGC) stimulator YC-1, acutely increased KCC3 mRNA expression in a concentration- and time-dependent manner. The slow NO releaser NOC-18 had no effect on KCC3 gene expression. A specific NO scavenger completely prevented the NONOate-induced KCC3 mRNA expression. Inhibition of sGC with LY-83583 blocked the NONOate- and YC-1-induced KCC3 mRNA expression. This study shows that in primary cultures of rat VSMCs, the fast NO releasers NOC-9 and NOC-5, but not the slow NO releaser NOC-18, acutely upregulate KCC3 mRNA expression in a NO/sGC-dependent manner.     

Interaction of sodium nitroprusside/liposome system with bovine serum albumin: a short-cut determination

A rapid determination of protein-liposome binding was developed to predict the circulation time of the system within an animal, which is a function of the amount and type of protein bound. The binding pattern of albumin to liposomes, with and without sodium nitroprusside (SNP), was analyzed by SDS-PAGE. Liposomes were made of egg yolk lecithin, soybean lecithin and dimyristoyl lecithin, and contained SNP. They bound 58%, 26% and 100% bovine serum albumin, respectively, when compared to their corresponding controls lacking SNP. The method applied is simpler and significantly faster than ordinary chemical determinations.     

Evidence for aquaporin-mediated water transport in nematocytes of the jellyfish Pelagia noctiluca

Nematocytes, the stinging cells of Cnidarians, have a cytoplasm confined to a thin rim. The main cell body is occupied by an organoid, the nematocyst, containing the stinging tubule and venom. Exposed to hypotonic shock, nematocytes initially swell during an osmotic phase (OP) and then undergo regulatory volume decrease (RVD) driven by K(+), Cl(-) and obligatory water extrusion mechanisms. The purpose of this report is to characterize the OP. Nematocytes were isolated by the NaSCN/Ca(2+) method from tentacles of the jellyfish Pelagia noctiluca, collected in the Strait of Messina, Italy. Isolated nematocytes were subjected to hyposmotic shock in 65% artificial seawater (ASW) for 15 min. The selective aquaporin water channel inhibitor HgCl(2) (0.1-25 μM) applied prior to osmotic shock prevented the OP and thus RVD. These effects were attenuated in the presence of 1mM dithiothreitol (DTT), a mercaptide bond reducing agent. AgNO(3) (1 μM) and TEA (tetraethylammonium, 100 μM), also reported to inhibit water transport, did not alter the OP but significantly diminished RVD, suggesting different modes of action for the inhibitors tested. Based on estimates of the nematocyte surface area and volume, and OP duration, a relative water permeability of ~10(-7) cm/sec was calculated and the number of putative aquaporin molecules mediating the OP was estimated. This water permeability is 3-4 orders of magnitude lower in comparison to higher order animals and may constitute an evolutionary advantage for Cnidarian survival.     

KCl Cotransport Regulation and Protein Kinase G in Cultured Vascular Smooth Muscle Cells

K-Cl cotransport is activated by vasodilators in erythrocytes and vascular smooth muscle cells and its regulation involves putative kinase/phosphatase cascades. N-ethylmaleimide (NEM) activates the system presumably by inhibiting a protein kinase. Nitrovasodilators relax smooth muscle via cGMP-dependent activation of protein kinase G (PKG), a regulator of membrane channels and transporters. We investigated whether PKG regulates K-Cl cotransport activity or mRNA expression in normal, PKG-deficient-vector-only-transfected (PKG-) and PKG-catalytic-domain-transfected (PKG+) rat aortic smooth muscle cells. K-Cl cotransport was calculated as the Cl-dependent Rb influx, and mRNA was determined by semiquantitative RT-PCR. Baseline K-Cl cotransport was higher in PKG+ than in PKG- cells (p <0.01). At 0.5 mM, NEM stimulated K-Cl cotransport by 5-fold in PKG- but not in PKG+ cells. However, NEM was more potent although less effective to activate K-Cl cotransport in normal (passage 1-3) and PKG+ than in PKG- cells. In PKG- cells, [(dihydroindenyl) oxy] alkanoic acid (300 mM) but not furosemide (1 mM) inhibited K-Cl cotransport. Furthermore, no difference in K-Cl cotransport mRNA expression was observed between these cells. In conclusion, this study shows that manipulation of PKG expression in vascular smooth muscle cells affects K-Cl cotransport activity and its activation by NEM.     

Platelet-derived growth factor regulates K-Cl cotransport in vascular smooth muscle cells

Platelet-derived growth factor (PDGF), apotent serum mitogen for vascular smooth muscle cells (VSMCs), plays animportant role in membrane transport regulation and in atherosclerosis. K-Cl cotransport (K-Cl COT/KCC), the coupled-movement of K and Cl, isinvolved in ion homeostasis. VSMCs possess K-Cl COT activity and theKCC1 and KCC3 isoforms. Here, we report on the effect of PDGF on K-ClCOT activity and mRNA expression in primary cultures of rat VSMCs. K-ClCOT was determined as the Cl-dependent Rb influx and mRNA expression bysemiquantitative RT-PCR. Twenty four-hour serum deprivation inhibitedbasal K-Cl COT activity. Addition of PDGF increased total proteincontent and K-Cl COT activity in a time-dependent manner. PDGFactivated K-Cl COT in a dose-dependent manner, both acutely (10 min)and chronically (12 h). AG-1296, a selective inhibitor of the PDGFreceptor tyrosine kinase, abolished these effects. Actinomycin D andcycloheximide had no effect on the acute PDGF activation of K-Cl COT,suggesting posttranslational regulation by the drug. Furthermore, PDGFincreased KCC1 and decreased KCC3 mRNA expression in a time-dependentmanner. These results indicate that chronic activation of K-Cl COTactivity by PDGF may involve regulation of the two KCC mRNA isoforms,with KCC1 playing a dominant role in the mechanism of PDGF-mediated activation.