Mechanisms and clinical significance of cell volume regulation

A wide variety of factors challenge constancy of cell volume. Alterations of cell volume activate diverse cell volume regulatory mechanisms including ion transport, osmolyte accumulation, metabolism and expression of appropriate genes. A wealth of cellular signalling pathways link cell volume to the respective regulatory mechanisms. Cell volume emerges as a pathophysiologically important parameter in several diseases including diabetes mellitus, uraemia, hepatic insufficiency and hypercatabolic states. The role of altered cell volume in disease is a challenge which requires more experimental research and clinical investigation.     

Transmembrane phospholipid distribution in blood cells: control mechanisms and pathophysiological significance

This review deals with current concepts on the regulation and function of phospholipid asymmetry in biological membranes. This ubiquitous phenomenon is characterized by a distinctly different lipid composition between the inner and outer leaflet of the membrane bilayer. Transbilayer asymmetry is controlled by different membrane proteins that function as lipid transporters, catalyzing uni- or bi-directional transbilayer movement of lipids. Under normal conditions, an ATP-dependent protein (aminophospholipid translocase) generates and maintains phospholipid asymmetry by promoting unidirectional transport of aminophospholipids from the outer- to the inner leaflet. The membrane lipid asymmetry may be compromised during cellular activation by a Ca2+-dependent transporter (lipid scramblase) that facilitates rapid bi-directional movement of all major phospholipid classes. A major consequence of this collapse of lipid asymmetry is the exposure of phosphatidylserine (PS) at the outer membrane surface. Surface exposure of PS has important physiological and pathological implications for blood coagulation, apoptosis, and cell-cell recognition.     

Intermittent ischemia: energy metabolism, cellular volume regulation, adenosine and insights into preconditioning

Interruption of ischemia by brief reperfusions (I/R) is better tolerated by the heart than continuous ischemia. The present study aims to determine the metabolic profiles of isolated rat hearts during intermittent ischemia, the possible cardioprotective role of adenosine and the influence of I/R on intracellular volumes, using multinuclear NMR spectroscopy. After five I/R (5/5 min) episodes, hearts paced at 5 Hz developed pressures comparable to those of hearts continuously perfused for 50 min at 37 degrees C (CP). Following the first 5 min episode of no-flow ischemia, [ADP] dropped from 72 +/- 9 to 43 +/- 5 microM (P < 0.001) and remained stable at the end of the following reperfusions, despite a 2.5-4-fold increase during each episode of 5 min ischemia. Intracellular volumes were stable during CP at a value of 2.50 +/- 0.06 ml/g dry weight, and decreased by 4, 8, and 12% after 1, 3, and 5 I/R episodes. The phosphorylation potentials decreased from 54 +/- 8 to 4 mM-1 during each period of 5 min ischemia and were 40 +/- 6 and 28 +/- 6 mM-1 after CP and I/R5, respectively. Cardiac glycogen had decreased during 50 min of CP from 103 +/- 13 to 81 +/- 9 mumol/g dry weight and lactate production was 116 +/- 15 mumol/heart. Five I/R episodes decreased glycogen to 46 +/- 7 mumol/g dry weight (P < 0.005 v CP) and increased lactate efflux to 262 +/- 31 mumol/ heart (P < 0.005 v CP). These findings suggest that a brief ischemia/reperfusion episode increases anaerobic metabolism of exogenous glucose, reduces [ADP] and induces cellular shrinkage. Administration of the adenosine receptor blocker 8-phenyl theophylline (8PT) during intermittent perfusion depressed the developed pressure to 78 +/- 7%, accentuated the decrease in phosphorylation potential (14 +/- 4 mM-1), abolished cellular shrinkage, reduced lactate efflux and blunted the decrease in ADP following the first I/R episode. In variance, no detectable changes were observed during intermittent ischemia when the ATP-sensitive potassium channel blocker glibenclamide was administered. These data demonstrate: (a) a brief episode of ischemia/reperfusion stimulates anaerobic metabolism of exogenous glucose and lowers intracellular ADP concentration: (b) adenosine receptors are partially responsible for the glycolytic stimulation during intermittent ischemia; (c) cellular shrinkage is related to the rate of glycolysis during intermittent ischemia/reperfusion.     

Synapse elimination in the central nervous system: functional significance and cellular mechanisms

Recent research into the developmental elimination of supernumerary synapses has increased understanding of this process. In this review we discuss synapse elimination both at the neuromuscular junction and in the central nervous system, considering some possible underlying mechanisms suggested by recent studies. In addition a well-described example of central nervous system synapse elimination, the climbing fiber-Purkinje cell synapse of the cerebellum, is used to explore the functional significance of synaptic regression during brain development.     

Neutrophil priming: pathophysiological consequences and underlying mechanisms

1. Neutrophil priming by agents such as tumour necrosis factor-alpha, granulocyte/macrophage colony-stimulating factor and lipopolysaccharide causes a dramatic increase in the response of these cells to an activating agent; this process has been shown to be critical for neutrophil-mediated tissue injury both in vitro and in vivo. 2. The principle consequence of priming, aside from a direct effect on cell polarization, deformability and integrin/selectin expression, is to permit secretagogue-induced superoxide anion generation, degranulation and lipid mediator (e.g. leukotriene B4 and arachidonic acid) release. It is now recognized that most priming agents also serve an additional function of delaying apoptosis and hence increasing the functional longevity of these cells at the inflamed site. 3. The potential mechanisms underlying priming are discussed; current data suggest a dissociation between priming and changes in receptor number and/or affinity, G-protein expression, phospholipase C and phospholipase A2 activation and changes in intracellular Ca2+ concentration. However, more recent studies support a key role for protein tyrosine phosphorylation and enhanced phospholipase D and phosphoinositide 3-kinase activity in neutrophil priming. 4. Recent work has also revealed the potential for neutrophils to spontaneously and fully 'de-prime' after an initial challenge with platelet-activating factor. This ability of neutrophils to undergo a complete cycle of priming-de-priming (and re-priming) reveals a previously unrecognized flexibility in the control of neutrophil behaviour at an inflamed site.     

Definition, function and pathophysiological significance of chemokine receptors

This study examined the relationship between smoking and participation in unhealthy behaviors among Mexican-American adolescents through a secondary analysis of national data. Mexican-American adolescents (N = 580), ages 10 through 18 years who were interviewed as part of the 1993 Teenage Attitudes and Practices Survey (TAPS II), were selected for analysis. Data collected included smoking status of the adolescent and participation in certain unhealthy behaviors. Among girls in the study, smokers were more likely to not wear a seat belt, be involved in physical fighting, not be involved in organized sports, perform poorly in school, say they like to do risky things, and ride in a car with a drunk or high driver. For boys, smoking was significantly associated with liking to do risky things, fighting, not attending church, and poor academic performance. These results suggest that Mexican-American adolescents who smoke may be at higher risk for engaging in behaviors that could compromise their health and safety, and for not being involved in activities that may exert a protective influence.     

The significance of task significance: Job performance effects, relational mechanisms, and boundary conditions.

Does task significance increase job performance? Correlational designs and confounded manipulations have prevented researchers from assessing the causal impact of task significance on job performance. To address this gap, 3 field experiments examined the performance effects, relational mechanisms, and boundary conditions of task significance. In Experiment 1, fundraising callers who received a task significance intervention increased their levels of job performance relative to callers in 2 other conditions and to their own prior performance. In Experiment 2, task significance increased the job dedication and helping behavior of lifeguards, and these effects were mediated by increases in perceptions of social impact and social worth. In Experiment 3, conscientiousness and prosocial values moderated the effects of task significance on the performance of new fundraising callers. The results provide fresh insights into the effects, relational mechanisms, and boundary conditions of task significance, offering noteworthy implications for theory, research, and practice on job design, social information processing, and work motivation and performance. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Physiological and pathophysiological regulation of cytochrome P450

This article is a report on a symposium sponsored by the American Society for Pharmacology and Experimental Therapeutics and held at the April 1998 Experimental Biology '98 meeting in San Francisco. The presentations focused on the mechanisms of regulation of cytochrome P450 gene expression by developmental factors and by hormones and cytokines, as well as on the interplay between physiological and chemical regulation. Approaches and systems used to address these questions included conditional gene knockouts in mice, primary hepatocyte cultures, immunofluorescence imaging of cells, and cell lines stably expressing reporter gene constructs.     

The diversity of volume regulatory mechanisms

Mammalian cells utilize a wide variety of cell volume regulatory mechanisms. For rapid adjustment of cell volume cells release or accumulate ions through respective channels and transport systems across the cell membrane. The most widely used mechanisms of cell volume regulatory ion release include ion channels and KCl symport. Ion uptake is most frequently mediated by Na+ channels, Na+, K+, 2Cl- cotransport, and Na+/H+ exchange. Chronic adjustment of cell osmolarity is accomplished by the formation or accumulation of organic osmolytes, molecules specifically designed to create intracellular osmolarity without interfering with cellular function. The most widely occurring osmolytes are sorbitol, inositol, glycerophosphorylcholine, betaine, taurine, and amino acids. The osmolytes are either synthesized by or transported into shrunken cells. During cell swelling osmolytes can be rapidly degraded or released. Any given cell may utilize several volume-regulatory mechanisms. Moreover, different mechanisms are utilized in different tissues. The diversity of cell volume regulatory mechanisms allows the cells to defend the constancy of cell volume against a myriad of challenges with relatively little impairment of cellular function.     

The mechanisms of the emotiogenic regulation of memory

The determining mechanism of memory regulation is a system involving the right temporal region and two anterior frontal regions. This is a cortical part of the integral system of the emotional regulation of memory. The dopaminergic mechanism forms the basis for fortifying the emotiogenic memory system, promoting the facilitation of retrieval. The selective emotional set of aggressive and submissive mice determines both the processes of extinction, development of amnesia, and subsequent reactivation of a memory trace induced by neuropharmacological agents. The GABA system is shown to enter the mechanism that controls the activity of dopamine system--dopamine release from the terminals of the nigrostriatal and mesolimbic dopaminergic systems is stimulated. The neurochemical background in the development of amnesia or forgetting determines the subsequent retrieval of a memory trace. The dopamine and GABA systems are common links in the retrieval of amnestic and forgetting memory traces, respectively. A substantial rise of met-enkephaline levels along with the maximum increase of D2-receptor density in the frontal cortex, amygdala, striatum, and hippocampus were observed in rats after learning. In vitro experiments indicated that met-enkephaline and beta-endorphine stabilized the kinetics of dopamine-receptor interactions.     

Regulatory mechanisms in maintenance and modulation of transmembrane lipid asymmetry: pathophysiological implications

The two leaflets of the plasma membrane of eukaryotic cells differ in lipid composition: the outer leaflet comprises mainly neutral choline containing phospholipids, whereas the aminophospholipids reside almost exclusively in the cytoplasmic leaflet. The importance of transmembrane lipid asymmetry may be judged from the fact that the cell invests energy to maintain this situation for which at least two regulatory mechanisms are held responsible. A translocase, selective for aminophospholipids, acts as an ATP-dependent pump for rapid inward movement of phosphatidylserine (PS) and phosphatidylethanolamine; in addition, a non-selective, but also ATP-dependent pump causes outward movement of phospholipids, be it at a much lower rate compared to the inward transport by the aminophospholipid translocase. These two systems, acting in concert, are thought to be the main players in the maintenance of a dynamic equilibrium of the phospholipids over both membrane leaflets. Dissipation of membrane lipid asymmetry can be elicited in different cell types under a variety of conditions; in particular, platelets upon activation rapidly lose their normal plasma membrane lipid distribution, but also in other blood cells, lipid asymmetry can be lost, be it at a much lower rate and extent than in platelets. A putative protein, referred to as "scramblase' has been described, which requires the continuous presence of elevated intracellular Ca(2+)-levels, to allow a rapid, non-selective and bidirectional transbilayer movement of phospholipids. Although scrambling of lipids does not require ATP as such, preliminary studies suggest the possible involvement of one or more phosphorylated proteins. The most prominent consequence of the loss of phospholipid asymmetry is exposure of PS in the outer leaflet of the plasma membrane. Surface-exposed PS serves several important physiological functions: it promotes assembly of enzyme complexes of the coagulation cascade, it forms a signal for cell-cell recognition, which is important for cell scavenging processes. Surface-exposure of PS is an early phenomenon of apoptosis and appears to be involved in efficient removal of these cells. In addition, PS in the outer leaflet of cells is thought to play a role in cell fusion processes. It may be clear from the foregoing, that the amount of PS present at the cell surface needs to be tightly controlled, and that an impairment of this process leads to either excessive- or diminished exposition of PS which may have several pathophysiological consequences.     

Nitric-oxidergic mechanisms in the regulation of the bronchi and their significance in the pathogenesis of bronchial asthma

AIM: Assessment of NO-synthase (NOS) activity in bronchial asthma (BA) basing on cytochemical identification and quantitation of NADPN-diaphorase. MATERIALS AND METHODS: Operative samples from 12 BA patients and biopsies from 8 patients free of bronchial inflammation or obstruction. Experimental data on control and BA rat males injected either with NOS agonist acetyl choline (AC) or beta-2-agonist fenoterol (F). RESULTS: A direct relationship was found between BA severity and activity of NADPN-diaphorase resultant from activation of inducible NOS (iNOS) mediating constrictive effect via different cellular and humoral mechanisms. AC treatment caused bronchial relaxation and severe constriction in control and BA rats, respectively, though NADPN-diaphorase activity was enhanced in both groups. Introduction of F brought about bronchial relaxation in both groups. However, there were some cases of constriction in the bronchi with impaired epithelium and high baseline iNOS activity. CONCLUSION: In intact bronchial epithelium, administration of cholino- and adrenoreceptors agonists induced bronchial myocyte relaxation due to activation of constitutive NOS. In impaired bronchial epithelium, AC stimulates iNOS induction provoking severe constriction of small bronchi.     

The 30-kD domain of protein 4.1 mediates its binding to the carboxyl terminus of pICln, a protein involved in cellular volume regulation

Erythrocyte protein 4.1 (P4.1) is an 80-kD cytoskeletal protein that is important for the maintenance of the structural integrity and flexibility of the red blood cell membrane. Limited chymotryptic digestion of erythroid P4.1 yields 4 structural domains corresponding to the 30-, 16-, 10-, and 22/24-kD domains. Using a yeast two-hybrid system, we isolated cDNA clones encoding pICln that specifically interacts with the 30-kD domain of P4.1. In this report, we show that the carboxyl-terminus (amino acid residues 103-237) of pICln binds to the 30-kD domain of P4.1 in a yeast two-hybrid system. The direct association between the 30-kD domain of P4.1 and pICln was further confirmed by the following findings: (1) the S35-methione-labeled pICln specifically bound to both GST/P4.1-80 (80 kD) and GST/P4.1-30 (30 kD) fusion proteins, but not to the proteins that lack the 30-kD domain; (2) coimmunoprecipitation analysis of the cell extracts from transfected SiHa cells showed that pICln and P4.1 associate in transfected cells. It was reported that pICln can form a complex with actin and may play a role involved in cellular volume regulation. The direct association between P4.1 and pICln suggests that pICln may link P4.1-bound cytoskeletal elements to an unidentified volume-sensitive chloride channel.     

The importance of growth hormone in the regulation of erythropoiesis, red cell mass, and plasma volume in adults with growth hormone deficiency

Total body water (TBW) is reduced in adult GH deficiency (GHD) largely due to a reduction of extracellular water. It is unknown whether total blood volume (TBV) contributes to the reduced extracellular water in GHD. GH and insulin-like growth factor I (IGF-I) have been demonstrated to stimulate erythropoiesis in vitro, in animal models, and in growing children. Whether GH has a regulatory effect on red cell mass (RCM) in adults is not known. We analyzed body composition by bioelectrical impedance and used standard radionuclide dilution methods to measure RCM and plasma volume (PV) along with measuring full blood count, ferritin, vitamin B12, red cell folate, IGF-I, IGF-binding protein-3, and erythropoietin in 13 adult patients with GHD as part of a 3-month, double blind, placebo-controlled trial of GH (0.036 U/kg.day). TBW and lean body mass significantly increased by 2.5 +/- 0.53 kg (mean +/- SEM; P < 0.004) and 3.4 +/- 0.73 kg (P < 0.004), respectively, and fat mass significantly decreased by 2.4 +/- 0.32 kg (P < 0.001) in the GH-treated group. The baseline RCM of all patients with GHD was lower than the predicted normal values (1635 +/- 108 vs. 1850 +/- 104 mL; P < 0.002). GH significantly increased RCM, PV, and TBV by 183 +/- 43 (P < 0.006), 350 +/- 117 (P < 0.03), and 515 +/- 109 (P < 0.004) mL, respectively. The red cell count increased by 0.36 +/- 0.116 x 10(12)/L (P < 0.03) with a decrease in ferritin levels by 39.1 +/- 4.84 micrograms/L (P < 0.001) after GH treatment. Serum IGF-I and IGF-binding protein-3 concentrations increased by 3.0 +/- 0.43 (P < 0.001) and 1.3 +/- 0.15 (P < 0.001) SD, respectively, but the erythropoietin concentration was unchanged after GH treatment. No significant changes in body composition or blood volume were recorded in the placebo group. Significant positive correlations could be established between changes in TBW and TBV, lean body mass and TBV (r = 0.78; P < 0.04 and r = 0.77; P < 0.04, respectively), and a significant negative correlation existed between changes in fat mass and changes in TBV in the GH-treated group (r = -0.95; P < 0.02). We conclude that 1) erythropoiesis is impaired in GHD; 2) GH stimulates erythropoiesis in adult GHD; and 3) GH increases PV and TBV, which may contribute to the increased exercise performance seen in these patients.