Effect of Trace Levels of Nigericin on Intracellular pH and Acid-Base Transport in Rat Renal Mesangial Cells

Nigericin is an ionophore commonly used at the end of experiments to calibrate intracellularly trapped pH-sensitive dyes. In the present study, we explore the possibility that residual nigericin from dye calibration in one experiment might interfere with intracellular pH (pH _i ) changes in the next. Using the pH-sensitive fluorescent dye 2′,7′-bis(carboxyethyl)-5,6-carboxyfluorescein (BCECF), we measured pH _i in cultured rat renal mesangial cells. Nigericin contamination caused: (i) an increase in acid loading during the pH _i decrease elicited by removing extracellular Na⁺, (ii) an increase in acid extrusion during the pH _i increase caused by elevating extracellular [K⁺], and (iii) an acid shift in the pH _i dependence of the background intracellular acid loading unmasked by inhibiting Na-H exchange with ethylisopropylamiloride (EIPA). However, contamination had no effect on the pH _i dependence of Na-H exchange, computed by adding the pH _i dependencies of total acid extrusion and background acid loading. Nigericin contamination can be conveniently minimized by using a separate line to deliver nigericin to the cells, and by briefly washing the tubing with ethanol and water after each experiment. Received: 14 October 1998/Revised: 2 March 1999     

Variation in calcification rate of Acropora downingi relative to seasonal changes in environmental conditions in the northeastern Persian Gulf

There is a strong interest in understanding how coral calcification varies with changing environmental conditions, especially given the projected changes in temperature and aragonite saturation due to climate change. This study explores in situ variation in calcification rates of Acropora downingi in the northeastern Persian Gulf relative to seasonal changes in temperature, irradiance and aragonite saturation state (Ω _arag). Calcification rates of A. downingi were highest in the spring and lowest in the winter, and intra-annual variation in calcification rate was significantly related to temperature (r ² = 0.30) and irradiance (r ² = 0.36), but not Ω _arag (r ² = 0.02). Seasonal differences in temperature are obviously confounded by differences in other environmental conditions and vice versa. Therefore, we used published relationships from experimental studies to establish which environmental parameter(s) (temperature, irradiance, and/or Ω _arag) placed greatest constraints on calcification rate (relative to the maximum spring rate) in each season. Variation in calcification rates was largely attributable to seasonal changes in irradiance and temperature (possibly ~57.4 and 39.7% respectively). Therefore, we predict that ocean warming may lead to increased rates of calcification during winter, but decelerate calcification during spring, fall and especially summer, resulting in net deceleration of calcification for A. downingi in the Persian Gulf.

     

New frontiers in translational research: Touchscreens,open science,and the mouse translational research accelerator platform

Many neurodegenerative and neuropsychiatric diseases and other brain disorders are accompanied by impairments in high-level cognitive functions including memory, attention, motivation, and decision-making. Despite several decades of extensive research, neuroscience is little closer to discovering new treatments. Key impediments include the absence of validated and robust cognitive assessment tools for facilitating translation from animal models to humans. In this review, we describe a state-of-the-art platform poised to overcome these impediments and improve the success of translational research, the Mouse Translational Research Accelerator Platform (MouseTRAP), which is centered on the touchscreen cognitive testing system for rodents. It integrates touchscreen-based tests of high-level cognitive assessment with state-of-the art neurotechnology to record and manipulate molecular and circuit level activity in vivo in animal models during human-relevant cognitive performance. The platform also is integrated with two Open Science platforms designed to facilitate knowledge and data-sharing practices within the rodent touchscreen community, touchscreencognition.org and mousebytes.ca. Touchscreencognition.org includes the Wall, showcasing touchscreen news and publications, the Forum, for community discussion, and Training, which includes courses, videos, SOPs, and symposia. To get started, interested researchers simply create user accounts. We describe the origins of the touchscreen testing system, the novel lines of research it has facilitated, and its increasingly widespread use in translational research, which is attributable in part to knowledge-sharing efforts over the past decade. We then identify the unique features of MouseTRAP that stand to potentially revolutionize translational research, and describe new initiatives to partner with similar platforms such as McGill's M3 platform (m3platform.org).     

Novel effects of the prototype translocating Escherichia coli, strain C25 on intestinal epithelial structure and barrier function

Intestinal bacteria play an etiologic role in triggering and perpetuating chronic inflammatory bowel disorders. However, the precise mechanisms whereby the gut microflora influences intestinal cell function remain undefined. Therefore, the effects of the non-pathogenic prototype translocating Escherichia coli, strain C25 on the barrier properties of human T84 and Madine-Darby canine kidney type 1 epithelial cells were examined. T-84 cells were also infected with commensal E. coil, strains F18 and HB101, and enterohaemorrhagic E. coli, serotype O157:H7. Strains F18 and HB101 had no effect on transepithelial electrical resistance (TER) of T84 monolayers. By contrast, epithelial cells infected with strain C25 displayed a time-dependent decrease in TER, preceded by an altered distribution of the cytoskeletal protein alpha-actinin, comparable to infection with E. coli O157:H7. E. coli C25 infection also led to activation of nuclear factor kappaB (NF-kappaB), interleukin-8 secretion and alterations in localization of claudin-1, but not zona occludens-1 or claudin-4, in T84 cells. There were adherent C25 bacteria on the intact apical surface of infected T84 cells, while mitochondria appeared swollen and vacuolated. These novel findings demonstrate the ability of a translocating commensal bacterium to adhere to and modulate intestinal epithelial barrier function and to induce morphological changes in a manner distinct from the known enteric pathogen, E. coli O157:H7.     

Shrinkage-induced activation of Na+/H+ exchange in rat renal mesangial cells

Using thepH-sensitive dye2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF),we examined the effect of hyperosmolar solutions, which presumablycaused cell shrinkage, on intracellular pH(pH_i) regulation in mesangialcells (single cells or populations) cultured from the rat kidney. Thecalibration of BCECF is identical in shrunken and unshrunken mesangialcells if the extracellular K⁺concentration ([K⁺])is adjusted to match the predicted intracellular[K⁺]. ForpH_i values between ~6.7 and~7.4, the intrinsic buffering power in shrunken cells (600 mosmol/kgH₂O) is threefold larger than in unshrunken cells (~300mosmol/kgH₂O). In the nominalabsence ofCO₂/HCO₃,exposing cell populations to a HEPES-buffered solution supplementedwith ~300 mM mannitol (600 mosmol/kgH₂O) causes steady-statepH_i to increase by ~0.4. The pH_i increase is due to activationofNa⁺/H⁺exchange because, in single cells, it is blocked in the absence ofexternal Na⁺ or in the presence of50 µM ethylisopropylamiloride (EIPA). Preincubating cells in aCl-free solution for atleast 14 min inhibits the shrinkage-induced pH_i increase by 80%. Wecalculated the pH_i dependence oftheNa⁺/H⁺exchange rate in cell populations under normosmolar and hyperosmolar conditions by summing 1) thepH_i dependence of the totalacid-extrusion rate and 2) thepH_i dependence of theEIPA-insensitive acid-loading rate. Shrinkage alkali shifts thepH_i dependence ofNa⁺/H⁺exchange by ~0.7 pH units.     

Comparison of Carnoy's solution and 96% ethyl alcohol fixation in bloody Pap smears

OBJECTIVE: To compare 2 methods of fixation in bloody Pap smears with Carnoy's solution and 96% ethyl alcohol. STUDY DESIGN: After observation of contact bleeding, 2 samples were prepared from cervical cells with conventional Pap smear. One sample was fixed in 96% ethyl alcohol and another sample was fixed in Carnoy's solution. RESULTS: Of 450 slides, 410 were selected for study. In study of cell adequacy, diagnosis of squamous cells and glandular cells was better in Carnoy's-fixed slides. Blood contamination of slides was reduced in Carnoy's-fixed slides (13.85% vs. 49.51%), and clearance of slides was increased in Carnoy's-fixed slides. Diagnosis of inflammatory cells and pathogenic microorganisms in was increased in Carnoy's-fixed slides, but no difference was seen in diagnosis of epithelial cell and glandular cell abnormalities. CONCLUSION: Carnoy's solution can be used as an effective fixative in bloody smears in conventional Pap tests.     

Identification and biochemical characterization of the SLC9A7 interactome

Organellar and cytosolic pH homeostasis is central to most cellular processes, including vesicular trafficking, post-translational modification/processing of proteins, and receptor-ligand interactions. SLC9A7 (NHE7) was identified as a unique (Na+, K+)/H+ exchanger that dynamically cycles between the trans-Golgi network (TGN), endosomes and the plasma membrane. Here we have used mass spectrometry to explore the affinity-captured interactome of NHE7, leading to the identification of cytoskeletal proteins, cell adhesion molecules, membrane transporters, and signaling molecules. Among these binding proteins, calcium-calmodulin, but not apo-calmodulin, binds to NHE7 and regulates the organellar transporter activity. Vimentin was co-immunoprecipitated with endogenous NHE7 protein in human breast cancer MDA-MB-231 cells. A sizable population of NHE7 relocalized to focal complexes in migrating cells and showed colocalization with vimentin and actin in focal complexes. Among the NHE7-binding proteins identified, CD44, a cell surface glycoprotein receptor for hyaluronate and other ligands, showed regulated interaction with NHE7. Pretreatment of the cells with phorbol ester facilitated the NHE7-CD44 interaction and the lipid raft association of CD44. When lipid rafts were chemically disrupted, the NHE7-CD44 interaction was markedly reduced. These results suggest potential dual roles of NHE7 in intracellular compartments and subdomains of cell-surface membranes.