ON THE INVOLVEMENT OF INORGANIC IONS IN THE EFFECT OF γ-AMINOBUTYRIC ACID ON BRAIN SEROTONIN AND NOREPINEPHRINE

Abstract— The loss of GABA, norepinephrine and serotonin and the uptake of GABA (in the presence of 1 mM-GABA) and the effect of GABA on the loss of norepinephrine and serotonin were investigated in rat midbrain slices incubated in media of various compositions. In a medium of low Na⁺ concentration the loss of serotonin from incubated slices was markedly inhibited while that of norepinephrine and GABA was significantly increased. Conversely the most pronounced loss of serotonin from slices was observed on the addition of ouabain to a medium of a balanced ionic composition. Whereas the loss of serotonin from slices increased in a medium of high K⁺ content, it was significantly reduced after 45 min incubation in a high K⁺-low Na⁺ medium. In all the modified media used, a significant loss of norepinephrine was observed while that of GABA was not affected by the omission of Ca2⁺ and was slightly reduced in the absence of K⁺. GABA enhanced the loss of norepinephrine and inhibited that of serotonin in a high-K⁺ medium and in one with a balanced ionic composition. A deficiency of Na⁺ in the medium had a differential effect on the loss of norepinephrine and serotonin similar to that observed with 1 mM-GABA. These results suggest that Na⁺ may be of crucial importance in the release of serotonin from midbrain slices and that an enhancement of the Na+ extrusion mechanism at the synaptosomal level may be involved in the effect of GABA on brain monoamines.     

Dynamics of glial fibrillary acidic protein distribution in cultured glomerular podocytes and mesangial cells of the rat kidney

Glial fibrillary acidic protein (GFAP) has recently been shown to be expressed in the glomerular podocytes and mesangial cells (MC) of kidney (Buniatian et al (1998) Biol Cell 90, 53-61). The different localization of GFAP in podocytes and MC has raised the question whether this might reflect specific cellular functions. To address this question, in the present study podocytes and MC in early (2, 3 day-old), prolonged (5, 7 day-old) and late (14, 21 day-old) primary cultures from out-growths of glomerular explants were used. Double-immunolabeling studies demonstrated that podocytes transiently acquire myofibroblastic features, characterized by the expression of smooth muscle alpha-actin (SMAA) and increased perinuclear reaction of GFAP in prolonged cultures. The morphological differentiation of cobblestone-like podocytes into process-bearing cells was followed by loss of the myofibroblastic marker, SMAA, de novo expression of desmin, and distribution of GFAP, vimentin and desmin into the processes. In late culture, GFAP and SMAA were nearly absent from the podocytes which maintained the cobblestone-like morphology. By contrast, the myofibroblastic features gained by MC during prolonged culturing increased with time. A myofibroblast-like cytoskeleton of podocytes and MC similar to that of healthy astrocytes suggest an increased spectrum of functional activities of these cells during the acquisition of myofibroblastic features. In addition, the present study provides a new combination of biochemical and biological features by which podocytes and MC can be distinguished in culture.     

Intestinal colonization of newborns treated in intensive care units by multiple drug resistant microorganisms

The aim of the study was to examine the digestive tract colonisation of the newborns by multiple drug resistant bacteria during hospitalization. On the day of admission, after 5 days of hospitalization and at the day of discharge swabs from the anus of the 31 newborns hospitalized in OITiPN were taken and cultured on nutrient and selective media for staphylococci, enterococci, gram negative bacilli and fungi. Susceptibility to antibiotics of bacteria was determined, with giving attention to such resistance mechanisms as: methicillin resistant staphylococci (MRS), high level aminoglycoside resistant (HLAR) and vancomycin resistant enterococci (VRE) and the production of extended spectrum beta-lactamases (type ESBL) by gram negative bacilli. On the day of admission in 7 newborns methicillin resistant staphylococci (MRSCN) were grown in 24 no multiple drug resistant bacteria were found. Among those in 23 already after 5 days of hospitalization, colonization by multiple drug resistant strains was determined: coagulase-negative methicillin resistant staphylococci (MRSCN) were found in 16 children, strains of enterococci (HLAR) in 3 newborns and gram negative ESBL (+) bacilli also in 3 cases. On the day of discharge from hospital (after 13-141 days) in 23 out of 24 newborns enteric tract colonization by multiple drug resistant strains was assessed. In the enteric tract of 3 newborns hospitalized up to 2 weeks coagulase-negative methicillin resistant staphylococci (MRSCN) and/or HLAR enterococci were found; gram negative bacilli that produce ESBL appeared in newborns hospitalized for longer than 14 days. They were isolated in 12 out of 21 newborns. Forming of the enteric tract bacterial flora of the long hospitalized newborns depends on the time of hospitalization as well as on the used therapy.     

Similar protective effects of BQ-123 and erythropoietin on survival of neural cells and generation of neurons upon hypoxic injury

Our recent study [Danielyan et al., 2005. Eur. J. Cell Biol. 84, 567-579] showed an additive protective effect of endothelin (ET) receptor A (ETA-R) blockade and erythropoietin (EPO) on the survival and rejuvenation of rat astroglial cells exposed to hypoxia. Whether the effects observed with rodent astroglial cells can be reproduced in human astrocytes and whether these effects of ETA-R blockade and EPO on astrocytes are associated with neuronal survival remained open. Therefore, in the present study, the effects of the ETA-R antagonist BQ-123 and EPO on the maintenance of the neuronal population and survival of the human fetal astroglial cell line (SV-FHAS) under normoxic and hypoxic conditions (NC and HC, respectively) were investigated. Rat brain primary cultures exposed to BQ-123 and/or EPO revealed an increase in the number of beta-III tubulin-positive neurons under NC. The hypoxia-caused loss of neurons was abolished by administration of BQ-123 or EPO. Simultaneous application of EPO and BQ-123 led to an additive protective effect on the generation of neurons under NC only. By contrast, BQ-788, the selective ETB-R antagonist, diminished the neuronal population both in NC and HC. Both under NC and HC the number of non-differentiated nestin+/GFAP- neural cells increased upon application of EPO or BQ-123. SV-FHAS responded to BQ-123 or EPO by a decrease in LDH activity in the culture medium under NC (35%) and HC (26% LDH decrease). Concomitant effects of EPO and BQ-123 were illustrated in an additional increase in the survival of human astrocytes (33% under NC and 17% under HC). These data hint at a neuroprotective therapeutic potency of ETA-R blockade, which either alone or in combination with EPO may improve the survival of astroglial and neuronal cells upon hypoxic injury.     

Lipid bilayer arrays: Cyclically formed and measured

Artificial lipid bilayers have many uses. They are well established for scientific studies of reconstituted ion channels, used to host engineered pore proteins for sensing, and can potentially be applied in DNA sequencing. Droplet bilayers have significant technological potential for enabling many of these applications due to their compatibility with automation and array platforms. To further develop this potential, we have simplified the formation and electrical measurement of droplet bilayers using an apparatus that only requires fluid dispensation. We achieved simultaneous bilayer formation and measurement over a 32‐element array with ～80% yield and no operator input following fluid addition. Cycling these arrays resulted in the formation and measurement of 96 out of 120 possible bilayers in 80 minutes, a sustainable rate that could significantly increase with automation and greater parallelization. This turn‐key, high‐yield approach to making artificial lipid bilayers requires no training, making the capability of creating and measuring lipid bilayers and ion channels accessible to a much wider audience. In addition, this approach is low‐cost, parallelizable, and automatable, allowing high‐throughput studies of ion channels and pore proteins in lipid bilayers for sensing or screening applications.     

Fecal lactoferrin and Clostridium spp. in stools of autistic children

Stools from autistic and healthy children were studied for fecal lactoferrin, Clostridium difficile toxins, Clostridium perfringens enterotoxin and cultured for Clostridium spp. Elevated level of FLA was demonstrated in 24.4% stools, all from boys (31.25%). No toxins were detected. Clostridium spp. was isolated with similar frequency from all samples. C. perfringens were isolated significantly often from the autistic stools, intermediate sensitive strains to penicillin 19%, to clindamycin 11.3%, and to metronidazole 7.5% were detected. Further studies on fecal microflora and inflammatory mediators, with larger groups of patients, are required in order to explain their role in neurological deficits.     

Age‐dependent magnetosensitivity of heart muscle ouabain receptors

In our previous work we have shown that the age‐dependent decrease in the magnetosensitivity of heart muscle hydration is accompanied by a dysfunction of the Na⁺/K⁺ pump. The reciprocal relation between the Na^+/K⁺ pump and Na⁺/Ca²⁺ exchange in development was suggested as a possible pathway for the age‐dependent decrease in the magnetosensitivity of heart muscle hydration (water content). Because high and low affinity ouabain receptors in cell membranes are involved in Na⁺/Ca²⁺ exchange and Na⁺/K⁺ pump functions, respectively, the effect of a 0.2 T static magnetic field (SMF) on dose‐dependent, ouabain‐induced hydration and [³H]‐ouabain binding with heart muscle tissues in young, adult and older rats was studied. Three populations of receptors in membranes with high (10^?11–10^?9 M), middle (10^?9–10^?7 M) and low (10^?7–10^?4 M) affinity to [³H]‐ouabain were distinguished, which had specific dose‐dependent [³H]‐ouabain binding kinetics and effects on muscle hydration. The magnetosensitivity of [³H]‐ouabain binding kinetics with high affinity receptors was prominent in all the three age groups of animals, while with low affinity receptors it was more expressed only in the young group of animals. All three types of receptors that caused modulations of muscle hydration were age dependent and magnetosensitive. Based on the obtained data we came to the conclusion that heart muscle hydration in young animals is more magnetosensitive due to the intense expression of high affinity ouabain receptors, which declines with aging. Bioelectromagnetics 34:312–322, 2013. © 2012 Wiley Periodicals, Inc.