Extracellular pH determines the rate of Ca2+ entry into Madin-Darby canine kidney-focus cells

We investigated the relationship between intracellular Ca²⁺ and pH homeostasis in Madin-Darby canine kidney-focus (MDCK-F) cells, a cell line exhibiting spontaneous oscillations of intracellular Ca²⁺ concentration (Ca _i ²⁺ ). Ca _i ²⁺ and intracellular pH (pH _i ) were measured with the fluorescent dyes Fura-2 and BCECF by means of video imaging techniques. Ca²⁺ influx from the extracellular space into the cell was determined with the Mn²⁺ quenching technique. Cells were superfused with HEPES-buffered solutions. Under control conditions (pH 7.2), spontaneous Ca _i ²⁺ oscillations were observed in virtually all cells investigated. Successive alkalinization and acidification of the cytoplasm induced by an ammonia ion prepulse had no apparent effect on Ca _i ²⁺ oscillations. On the contrary, changes of extracellular pH value strongly affected Ca _i ²⁺ oscillations. Extracellular alkalinization to pH 7.6 completely suppressed oscillations, whereas extracellular acidification to pH 6.8 decreased their frequency by 40%. Under the same conditions, the respective pH _i changes were less than 0. 1 pH units. However, experiments with the Mn²⁺ quenching technique revealed that extracellular alkalinization significantly reduced Ca²⁺ entry from the extracellular space. Large increases of Ca _i ²⁺ triggered by the blocker of the cytoplasmic Ca²⁺-ATPase, thapsigargin, had no effect on pH _i We conclude: intracellular Ca²⁺ homeostasis in MDCK-F cells is pH dependent. pH controls Ca²⁺ homeostasis mainly by effects on the level of Ca²⁺ entry across the plasma membrane. On the contrary, the intracellular pH value seems to be insensitive to rapid changes of Ca _i ²⁺ .The project was supported by the Deutsche Forschungsgemeinschaft, SFB-176 (A6) and by the Jubilämusstiftung of the University of Würzburg.The authors gratefully acknowledge the valuable discussions with Drs. M.J. Berridge, M. Carew, I. Davidson, G. Law and B. Somasundraman. We are grateful to Applied Imaging for financial and technical support and to the Medical Research Council for financial support.     

Principles and practices of medicine

The medical textbooks in our university library present ‘principles’ as the basis which underlies medical ‘practice’. In this article it is argued that this helps different medical logics to co-exist. The example analyzed is that of anemia in the Netherlands. Currently this is defined pathophysiologically, statistically and clinically. These three definitions are intertwined with different strategies for the creation of normal hemoglobin levels and the detection of patients with anemia. The discrepancies between them, however, do not lead to the controversies that might be expected by those who believe in consistency. Instead, the rhetoric of principles-and-practice helps to bring about peaceful co-existence.     

20-OH-ecdysone swells nuclear volume by alkalinization in salivary glands of Drosophila melanogaster

Ecdysteroids play an important role in the larval moulting process of insects. Ecdysone-induced stimulation causes specific puffs in polytene chromosomes of salivary gland cells resulting in nuclear swelling. During this process, changes of intracellular ion composition are thought to act as an early regulatory mechanism of gene activation. By use of video-imaging analysis and electrophysiological techniques, we examined ecdysone-induced nuclear swelling in Drosophila salivary glands in situ and its dependence on pH and calcium. Isolated glands of the third larval stage were superfused with a solution mimicking the haemolymph. Addition of 5×10^–6 mol/l 20-OH-ecdysone led, after a lag period of 50 min, to a sustained Ca²⁺-dependent increase of nuclear volume by 23.0±2.3%. Amiloride, a blocker of plasma membrane Na⁺/H⁺ exchange, prevented 20-OH-ecdysone-induced nuclear swelling. Decreasing pH in the superfusate from 7.15 to 6.8 led to nuclear shrinkage by 16.9±3.9%. Measurments of pH in salivary gland cells with ion-sensitive microelectrodes disclosed an alkalinization of 0.23±0.05 pH units after stimulation with 20-OH-ecdysone. We postulate that 20-OH-ecdysone activates the amilorde-sensitive plasma membrane Na⁺/H⁺ exchanger. This leads to intracellular alkalinization and concomitant decondensation of the nuclear chromatin visible as nuclear swelling. Thus, cell alkalinization could be a potentially important stimulatory mechanism in mediating ecdysteroid-induced activation of the cell nucleus.     

Prevalence and trends of common mental disorders from 2007-2009 to 2019-2022: results from the Netherlands Mental Health Survey and Incidence Studies (NEMESIS), including comparison of prevalence rates before vs. during the COVID-19 pandemic

Up-to-date information on the prevalence and trends of common mental disorders is relevant to health care policy and planning, owing to the high burden associated with these disorders. In the first wave of the third Netherlands Mental Health Survey and Incidence Study (NEMESIS-3), a nationally representative sample was interviewed face-to-face from November 2019 to March 2022 (6,194 subjects; 1,576 interviewed before and 4,618 during the COVID-19 pandemic; age range: 18-75 years). A slightly modified version of the Composite International Diagnostic Interview 3.0 was used to assess DSM-IV and DSM-5 diagnoses. Trends in 12-month prevalence rates of DSM-IV mental disorders were examined by comparing these rates between NEMESIS-3 and NEMESIS-2 (6,646 subjects; age range: 18-64 years; interviewed from November 2007 to July 2009). Lifetime DSM-5 prevalence estimates in NEMESIS-3 were 28.6% for anxiety disorders, 27.6% for mood disorders, 16.7% for substance use disorders, and 3.6% for attention-deficit/hyperactivity disorder. Over the last 12 months, prevalence rates were 15.2%, 9.8%, 7.1%, and 3.2%, respectively. No differences in 12-month prevalence rates before vs. during the COVID-19 pandemic were found (26.7% pre-pandemic vs. 25.7% during the pandemic), even after controlling for differences in socio-demographic characteristics of the respondents interviewed in these two periods. This was the case for all four disorder categories. From 2007-2009 to 2019-2022, the 12-month prevalence rate of any DSM-IV disorder significantly increased from 17.4% to 26.1%. A stronger increase in prevalence was found for students, younger adults (18-34 years) and city dwellers. These data suggest that the prevalence of mental disorders has increased in the past decade, but this is not explained by the COVID-19 pandemic. The already high mental disorder risk of young adults has particularly further increased in recent years.     

Secondary structure of β-hydroxydecanoyl thiol ester dehydrase, a 39-kDa protein, derived from Hα, Cα, Cβ and CO signal assignments and the Chemical Shift Index: Comparison with the crystal structure

Summary Nearly complete backbone ¹H, ¹⁵N and ¹³C signal assignments are reported for -hydroxydecanoyl thiol ester dehydrase, a 39-kDa homodimer containing 342 amino acids. Although ¹⁵N relaxation data show that the protein has a rotational correlation time of 18 ns, assignments were derived from triple-resonance experiments recorded at 500 MHz and pH 6.8, without deuteration. The Chemical Shift Index, CSI, identified two long helices and numerous -strands in dehydrase. The CSI predictions are in close agreement with the secondary structure identified in the recently derived crystal structure, particularly when one takes account of the numerous bulges in the -strands. The assignment of dehydrase and a large deuterated protein [Yamazaki et al. (1994) J. Am. Chem. Soc., 116, 11655–11666] suggest that assignment of 40–60 kDa proteins is feasible. Hence, further progress in understanding the chemical shift/structure relationship could open the way to determine the structures of such large proteins. Supplementary Material is available on request, comprising Table S1 listing the spectral parameters; Table S2 listing the assignments; Fig. S1 showing the 2D ¹H–¹⁵N HSQC spectrum; Fig. S2 showing sequential NOEs, secondary shifts, H-exchange and ³J_HN data; and Fig. S3 showing plots of the H, C, CO and C Chemical Shift Indexes.To whom correspondence should be addressed.     

Identification of New Oligodendrocyte- and Myelin-Specific Genes by a Differential Screening Approach

Abstract: We have isolated several new genes that are specifically expressed by oligodendrocytes in the CNS. This was achieved by differential screening of a rat spinal cord cDNA library with probes derived from normal and from oligodendrocyte-free spinal cord mRNAs. Four of these genes are exclusively expressed by oligodendrocytes: Three of these are not related to known genes, whereas one encodes the myelin oligodendrocyte glycoprotein (MOG). Four other genes are expressed by oligodendrocytes as well as by Schwann cells. One gene codes for apolipoprotein D, which is thought to be involved in lipid metabolism. A second cDNA sequence codes for the recently identified galactosylceramide-synthesizing enzyme UDP-galactose:ceramide galactosyl-transferase. The third gene encodes a small protein with four putative transmembrane domains that is related to a T-lymphocyte-specific membrane protein, MAL. The fourth gene encodes the rat homologue of the stearyl-CoA-desaturase 2 (SCD2) gene, which is specifically expressed in the nervous system and involved in the synthesis and regulation of long-chain unsaturated fatty acids essential for myelination. Finally, we found that a member of the β-tubulin family is highly expressed in oligodendrocytes as well as neurons. The identification of several new proteins that may play a role in myelin synthesis and sheath formation will lead to new insight into this complex mechanism.     

The UDP-Galactose:Ceramide Galactosyltransferase: Expression Pattern in Oligodendrocytes and Schwann Cells During Myelination and Substrate Preference for Hydroxyceramide

Abstract: Galactosylceramide ("galactocerebroside"; GalC) is a major glycolipid in the myelin sheath of the CNS and the PNS. The enzyme UDP-galactose:ceramide galactosyltransferase (CGalT) catalyzes the final step of the synthesis of GalC: the transfer of galactose to ceramide. By a differential screening approach, we have isolated a cDNA, the sequence of which is identical to the recently isolated cDNA clones for CGalT. By northern analysis and in situ hybridization we demonstrated that CGalT mRNA is expressed at birth in oligodendrocytes and Schwann cells, an expression pattern corresponding to the onset of myelination. In addition to the high expression levels of CGalT in oligodendrocytes and Schwann cells, in situ hybridization also showed expression in subtypes of neurons in spinal cord, cerebellum, and brainstem in the adult CNS, but at a much lower level than in oligodendrocytes. Expression of CGalT in COS cells demonstrated that CGalT has a preference for hydroxyceramide as a substrate. CGalT-expressing COS cells synthesize and transport GalC to their cell surface as shown by immunofluorescence and by lipid analysis of living cells. Our results suggested that the CGalT specifically uses hydroxyceramide for the synthesis of GalC and that separate (co)enzymes are not needed.     

Nonlinear autoregressive analysis of the 3/s ictal electroencephalogram: implications for underlying dynamics

 In a previous study, nonlinear autoregressive (NLAR) models applied to ictal electroencephalogram (EEG) recordings in six patients revealed nonlinear signal interactions that correlated with seizure type and clinical diagnosis. Here we interpret these models from a theoretical viewpoint. Extended models with multiple nonlinear terms are employed to demonstrate the independence of nonlinear dynamical interactions identified in the ‘NLAR fingerprint’ of patients with 3/s seizure discharges. Analysis of the role of periodicity in the EEG signal reveals that the fingerprints reflect the dynamics not only of the periodic discharge itself, but also of the fluctuations of each cycle about an average waveform. A stability analysis is used to make qualitative inferences concerning the network properties of the ictal generators. Finally, the NLAR fingerprint is analyzed in the context of Volterra-Weiner theory. Received: 6 April 1994/Accepted in revised form: 18 November 1994