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Confocal Analysis (confocal + analysis)

Distribution by Scientific Domains
Medical Sciences53%
Life Sciences46%

Selected Abstracts

Abstinence From Moderate Alcohol Self-Administration Alters Progenitor Cell Proliferation and Differentiation in Multiple Brain Regions of Male and Female P Rats

ALCOHOLISM, Issue 1 2009
Jun He
Background:, Acute and chronic ethanol exposure has been found to decrease hippocampal neurogenesis, reduce dendritic differentiation of new neurons, and increase cell death. Interestingly, abstinence from such treatment increases hippocampal neurogenesis and microglial genesis across several brain regions. The goal of the current investigation was to study cellular alterations on neuro- and cell-genesis during abstinence following alcohol self-administration using alcohol-preferring rats (P rats). Methods:, Male and female P rats were given the choice of drinking 10% alcohol in water or pure water for 7 weeks. Social interaction behavioral assessments were conducted at 5 hours upon removal of alcohol, followed by bromo-deoxyuridine (BrdU, 150 mg/kg × 1/d × 14 d) injections to label proliferating cells. Animals were then killed 4 weeks later to conduct immunohistochemical and confocal analyses using antibodies against BrdU and other phenotypic markers (NeuN for mature neurons; Iba-1 for microglia; GFAP for astrocytes; and NG2 for oligodendrocyte progenitors). Results:, Mild alcohol withdrawal anxiety was detected by reduction in social interactions. The number of hippocampal BrdU+ cells was increased approximately 50% during alcohol abstinence (26 ± 2.8 in controls vs. 39 ± 4 in alcohol group). BrdU+ cells were also increased in the substantia nigra (SN) approximately 65% in the alcohol abstinent group (12 ± 1 in controls vs. 19 ± 1.5 in alcohol group). No gender differences were found. Confocal analyses indicated that approximately 75% of co-localization of BrdU+ cells with NeuN in the hippocampal dentate gyrus (DG) resulting a net increase in neurogenesis in the alcohol abstinent group compared to controls. In cingulum, greater proportion of BrdU+ cells were co-localized with NG2 in the alcohol abstinent group indicating increased differentiation toward oligodendrocyte progenitors in both genders. However, the phenotype of the BrdU+ cells in SN and other brain regions were not identified by NeuN, Iba-1, GFAP, or NG2 suggesting that these BrdU+ cells probably remain in a nondifferentiated stage. Conclusions:, These data indicate that abstinence from moderate alcohol drinking increases hippocampal neurogenesis, cingulate NG2 differentiation, and SN undifferentiated cell proliferation in both males and females. Such cellular alteration during abstinence could contribute to the spontaneous partial restoration of cognitive deficits upon sobriety. [source]

Novel identification of peripheral dopaminergic D2 receptor in male germ cells,

JOURNAL OF CELLULAR BIOCHEMISTRY, Issue 1 2007
Carola Otth
Abstract Dopamine is a recognized modulator in the central nervous system (CNS) and peripheral organ functions. The presence of peripheral dopamine receptors outside the CNS has suggested an intriguing interaction between the nervous system and other functional systems, such as the reproductive system. In the present study we analyzed the expression of D2R receptors in rat testis, rat spermatogenic cells and spermatozoa, in different mammals. The RT-PCR analysis of rat testis mRNA showed specific bands corresponding to the two dopamine receptor D2R (L and S) isoforms previously described in the brain. Using Western blot analysis, we confirmed that the protein is present in rat testis, isolated spermatogenic cells and also in spermatozoa of a range of different mammals, such as rat, mouse, bull, and human. The immunohistochemistry analysis of rat adult testis showed that the receptor was expressed in all germ cells (pre- and post-meiotic phase) of the tubule with staining predominant in spermatogonia. Confocal analysis by indirect immunofluorescence revealed that in non-capacitated spermatozoa of rat, mouse, bull, and human, D2R is mainly localized in the flagellum, and is also observed in the acrosomal region of the sperm head (except in human spermatozoa). Our findings demonstrate that the two D2 receptor isoforms are expressed in rat testis and that the receptor protein is present in different mammalian spermatozoa. The presence of D2R receptors in male germ cells implies new and unsuspected roles for dopamine signaling in testicular and sperm physiology. J. Cell. Biochem. 100: 141,150, 2007. © 2006 Wiley-Liss, Inc. [source]

In Vivo Dysfunction of the Term Alveolar Macrophage After in Utero Ethanol Exposure

ALCOHOLISM, Issue 2 2007
Xiao-Du Ping
Background: The effects of in utero alcohol exposure on the immune function of the newborn remain under investigation. Fetal ethanol (ETOH) exposure increases oxidative stress in the developing lung, in part due to decreased availability of the antioxidant glutathione (GSH). We have previously shown that in utero ETOH impairs alveolar macrophage phagocytosis and viability in the premature pup, while maintaining GSH availability with maternal supplementation of S -adenosyl-methionine (SAM) during ETOH ingestion improves macrophage function and viability. We hypothesized that dysfunction of the neonatal alveolar macrophage exposed to ETOH in utero would persist at term gestation. Methods: Using a guinea-pig model of fetal ETOH exposure, timed-pregnant guinea-pigs were pair-fed ETOH±the GSH precursor SAM and the diet continued until spontaneous delivery. Term alveolar macrophages were evaluated using fluorescent microscopy for phagocytosis and apoptosis after in vitro incubation with Staphalococcus aureus. Using an in vivo model of intranasal Staph. aureus inoculation, the in vivo function of the term alveolar macrophage was also investigated using confocal fluorescent analysis. Results: In utero ETOH exposure increased oxidant stress in the alveolar macrophage and decreased phagocytosis and viability in vitro and in vivo. Confocal analysis of phagocytosis in vivo demonstrated a marked impairment of internalization of the bacteria by the ETOH-exposed alveolar macrophage. The addition of SAM during maternal ETOH ingestion prevented loss of alveolar macrophage function and viability in vitro and in vivo. Conclusions: In utero ETOH exposure impairs alveolar macrophage function and viability in vitro and in vivo even at term gestation. The ETOH-induced changes in macrophage function and viability can be ablated with maternal SAM supplementation. Further investigations are required to identify the mechanisms of ETOH-induced derangement of phagocytosis in the neonatal alveolar macrophage and the clinical ramifications of altered immune function after in utero alcohol exposure for the newborn. [source]

Effects of femtosecond laser irradiation on osseous tissues

LASERS IN SURGERY AND MEDICINE, Issue 3 2007
B. Girard DMD
Abstract Background and Objective Few studies have investigated femtosecond (fs) lasers for cutting bone tissue. Study Design/Materials and Methods A 775 nm, 1 kHz, 200 femtosecond, up to 400 µJ laser system was used to irradiate in vitro calcified cortical bone samples and bone tissue culture samples. Results The ablation threshold in cortical bone was 0.69±0.08 J/cm2 at 775 nm and 0.19±0.05 J/cm2 at 387 nm. Plasma shielding experiments determined that the ablation plume and the plasma significantly affect material removal at high repetition rates and appear to generate thermal transients in calcified tissue. Confocal analysis revealed intact enzymatic activity on the surface of cells immediately adjacent to cells removed by fs laser irradiation. Conclusions These experiments demonstrate that fs lasers used for bone tissue cutting do not appear to generate significant temperature transients to inactivate proteins and that cellular membrane integrity is disrupted for only a few cell layers. Lasers Surg. Med. 39:273,285, 2007. © 2007 Wiley-Liss, Inc. [source]

Neuronal nitric oxide synthase immunoreactivity in the guinea-pig liver: distribution and colocalization with neuropeptide Y and calcitonin gene-related peptide

LIVER INTERNATIONAL, Issue 6 2001
Francisco J. Esteban
Abstract:Aims/Background: The innervation pattern of the guinea-pig liver is similar to that of the human liver. However, many aspects of the distribution of the neuronal isoform of the enzyme nitric oxide synthase (nNOS) in the guinea-pig liver and its colocalization with neuropeptides remain to be elucidated. Methods: The distribution of nNOS was studied in fixed guinea-pig liver by light microscopic immunohistochemistry. Confocal analysis was used to determine its colocalization with neuropeptide Y (NPY) or calcitonin gene-related peptide (CGRP). Results: nNOS-immunoreactive (nNOS-IR) nerves were observed in relation to hilar and interlobar vessels and in Glisson's capsule. A few nNOS-IR ganglia were observed in the extrahepatic bile duct and close to the interlobar portal triads. In addition, nNOS-IR fibers were located in the interlobular portal triads and pervading the parenchyma. Moreover, nNOS-IR nerves were demonstrated for the first time in the larger central veins and in the hepatic vein. nNOS-NPY and nNOS-CGRP colocalizations were detected in the fibromuscular layer of the bile duct and periductal plexus, respectively. Conclusions: These results support the phylogenetic conservation of the nNOS-IR hepatic innervation and its possible contribution to the regulation of hepatic blood flow and certain hepatic functions. [source]

Expression of AMPA Receptor Subunits (GluR1,GluR4) in Gonadotrophin-Releasing Hormone Neurones of Young and Middle-Aged Persistently Oestrous Rats During the Steroid-Induced Luteinising Hormone Surge

JOURNAL OF NEUROENDOCRINOLOGY, Issue 1 2006
J. D. Bailey
Abstract Glutamate provides excitatory input to gonadotrophin-releasing hormone (GnRH) neurones and elicits a response indicative of AMPA receptors. To determine if and which AMPA subunits are expressed by GnRH neurones, we conducted triple-label immunohistochemistry and confocal analyses on tissue obtained at 08.00, 12.00, 16.00 and 20.00 h from young and middle-aged, persistently oestrous (MA-PE) rats that were ovariectomised and primed with oestrogen and progesterone to induce a luteinising hormone (LH) surge. Each AMPA subunit was found in GnRH neurones, but in different patterns across the diurnal cycle, which were influenced by age. GluR1 expression increased earlier in young rats and the percentage of Fos-positive GnRH neurones expressing GluR1 rose significantly and was sustained from 12.00,16.00 h. GluR1 expression was delayed in MA-PE rats and the percentage of Fos-positive GnRH neurones expressing GluR1 peaked at 20.00 h. GluR2 expression in GnRH neurones did not change over time and was not affected by age; however, the percentage of Fos-positive GnRH neurones expressing GluR2 increased earlier and was sustained from 08.00,16.00 h in young rats whereas, in MA-PE rats, this percentage peaked at 20.00 h. GluR3 expression also increased earlier in young rats and peaked at 12.00 h but was delayed in MA-PE rats and peaked at 20.00 h. The number of Fos-positive GnRH neurones that coexpressed GluR3 peaked at 12.00 h in young rats but showed little change from 12.00,20.00 h in MA-PE rats. GluR4 expression was maintained at higher levels at 08.00 and 12.00 h in young rats; although the percentage of Fos-positive GnRH neurones expressing GluR4 peaked at 12.00 h in young rats, it showed little change in MA-PE rats. In summary, our data show that a higher proportion of Fos-positive GnRH neurones coexpressed AMPA receptor subunits in young rats and the expression, particularly of GluR1 and GluR2, was increased and sustained throughout the surge, whereas GluR3 and GluR4 expression peaked just before. In MA-PE rats, the rate of expression of GluR subunits and Fos in GnRH neurones was altered in a manner that may explain the delay and attenuation of the LH surge. [source]

Abstinence From Moderate Alcohol Self-Administration Alters Progenitor Cell Proliferation and Differentiation in Multiple Brain Regions of Male and Female P Rats

ALCOHOLISM, Issue 1 2009
Jun He
Background:, Acute and chronic ethanol exposure has been found to decrease hippocampal neurogenesis, reduce dendritic differentiation of new neurons, and increase cell death. Interestingly, abstinence from such treatment increases hippocampal neurogenesis and microglial genesis across several brain regions. The goal of the current investigation was to study cellular alterations on neuro- and cell-genesis during abstinence following alcohol self-administration using alcohol-preferring rats (P rats). Methods:, Male and female P rats were given the choice of drinking 10% alcohol in water or pure water for 7 weeks. Social interaction behavioral assessments were conducted at 5 hours upon removal of alcohol, followed by bromo-deoxyuridine (BrdU, 150 mg/kg × 1/d × 14 d) injections to label proliferating cells. Animals were then killed 4 weeks later to conduct immunohistochemical and confocal analyses using antibodies against BrdU and other phenotypic markers (NeuN for mature neurons; Iba-1 for microglia; GFAP for astrocytes; and NG2 for oligodendrocyte progenitors). Results:, Mild alcohol withdrawal anxiety was detected by reduction in social interactions. The number of hippocampal BrdU+ cells was increased approximately 50% during alcohol abstinence (26 ± 2.8 in controls vs. 39 ± 4 in alcohol group). BrdU+ cells were also increased in the substantia nigra (SN) approximately 65% in the alcohol abstinent group (12 ± 1 in controls vs. 19 ± 1.5 in alcohol group). No gender differences were found. Confocal analyses indicated that approximately 75% of co-localization of BrdU+ cells with NeuN in the hippocampal dentate gyrus (DG) resulting a net increase in neurogenesis in the alcohol abstinent group compared to controls. In cingulum, greater proportion of BrdU+ cells were co-localized with NG2 in the alcohol abstinent group indicating increased differentiation toward oligodendrocyte progenitors in both genders. However, the phenotype of the BrdU+ cells in SN and other brain regions were not identified by NeuN, Iba-1, GFAP, or NG2 suggesting that these BrdU+ cells probably remain in a nondifferentiated stage. Conclusions:, These data indicate that abstinence from moderate alcohol drinking increases hippocampal neurogenesis, cingulate NG2 differentiation, and SN undifferentiated cell proliferation in both males and females. Such cellular alteration during abstinence could contribute to the spontaneous partial restoration of cognitive deficits upon sobriety. [source]

PRECLINICAL STUDY: FULL ARTICLE: Altered architecture and functional consequences of the mesolimbic dopamine system in cannabis dependence

ADDICTION BIOLOGY, Issue 3 2010
Saturnino Spiga
ABSTRACT Cannabinoid withdrawal produces a hypofunction of mesencephalic dopamine neurons that impinge upon medium spiny neurons (MSN) of the forebrain. After chronic treatment with two structurally different cannabinoid agonists, ,9 -tetrahydrocannabinol and CP55 940 (CP) rats were withdrawn spontaneously and pharmacologically with the CB1 antagonist SR141716A (SR). In these two conditions, evaluation of tyrosine hydroxylase (TH)-positive neurons revealed significant morphometrical reductions in the ventrotegmental area but not substantia nigra pars compacta of withdrawn rats. Similarly, confocal analysis of Golgi,Cox-stained sections of the nucleus accumbens revealed a decrease in the shell, but not the core, of the spines' density of withdrawn rats. Administration of the CB1 antagonist SR to control rats, provoked structural abnormalities reminiscent of those observed in withdrawal conditions and support the regulatory role of cannabinoids in neurogenesis, axonal growth and synaptogenesis by acting as eu-proliferative signals through the CB1 receptors. Further, these measures were incorporated into a realistic computational model that predicts a strong reduction in the excitability of morphologically altered MSN, yielding a significant reduction in action potential output. These pieces of evidence support the tenet that withdrawal from addictive compounds alters functioning of the mesolimbic system and provide direct morphological evidence for functional abnormalities associated with cannabinoid dependence at the level of dopaminergic neurons and their postsynaptic counterpart and are coherent with recent hypothesis underscoring a hypodopaminergic state as a distinctive feature of the ,addicted brain'. [source]

Distinct pattern of microglial response, cyclooxygenase-2, and inducible nitric oxide synthase expression in the aged rat brain after excitotoxic damage

JOURNAL OF NEUROSCIENCE RESEARCH, Issue 14 2008
O. Campuzano
Abstract Microglial and inflammatory responses to acute damage in aging are still poorly understood, although the aged brain responds differently to injury, showing poor lesion outcome. In this study, excitotoxicity was induced by intrastriatal injection of N-methyl-D-aspartate in adult (3,4 months) and aged (22,24 months) rats. Cryostat brain sections were processed for the analysis of microglial response by lectin histochemistry and cyclooxygenase 2 (COX2) and inducible nitric oxide synthase (iNOS) expression by immunohistochemistry and confocal analysis. Aged injured animals showed more widespread area of microglial response at 12 hr postlesion (hpl) and greater microglia/macrophage density at 3 days postlesion (dpl). However, aged reactive microglia showed prevalence of ramified morphologies and fewer amoeboid/round forms. Aged injured animals presented a diminished area of COX2 expression, but a significantly larger density of COX2+ cells, with higher numbers of COX2+ neurons during the first 24 hpl and COX2+ microglia/macrophages later. In contrast, the amount of COX2+ neutrophils was diminished in the aged. iNOS was more rapidly induced in the aged injured striatum, with higher cell density at 12 hpl, when expression was mainly neuronal. From 1 dpl, both the iNOS+ area and the density of iNOS+ cells were reduced in the aged, with lower numbers of iNOS+ neurons, microglia/macrophages, neutrophils, and astrocytes. In conclusion, excitotoxic damage in aging induces a distinct pattern of microglia/macrophage response and expression of inflammatory enzymes, which may account for the changes in lesion outcome in the aged, and highlight the importance of using aged animals for the study of acute age-related insults. © 2008 Wiley-Liss, Inc. [source]

Identification of ,- and ,-opioid receptors as potential targets to regulate parasympathetic, sympathetic, and sensory neurons within rat intracardiac ganglia

THE JOURNAL OF COMPARATIVE NEUROLOGY, Issue 18 2010
Shaaban A. Mousa
Abstract Recent interest has been focused on the opioid regulation of heart performance; however, specific allocation of opioid receptors to the parasympathetic, sympathetic, and sensory innervations of the heart is scarce. Therefore, the present study aimed to characterize such specific target sites for opioids in intracardiac ganglia, which act as a complex network for the integration of the heart's neuronal in- and output. Tissue samples from rat heart atria were subjected to RT-PCR, Western blot, radioligand-binding, and double immunofluorescence confocal analysis of , (M)- and , (K)-opioid receptors (ORs) with the neuronal markers vesicular acetylcholine transporter (VAChT), tyrosine hydroxylase (TH), calcitonin gene-related peptide (CGRP), and substance P (SP). Our results demonstrated MOR- and KOR-specific mRNA, receptor protein, and selective membrane ligand binding. By using immunofluorescence confocal microscopy, MOR and KOR immunoreactivity were colocalized with VAChT in large-diameter parasympathetic principal neurons, with TH-immunoreactive small intensely fluorescent (SIF) cells, and on nearby TH-IR varicose terminals. In addition, MOR and KOR immunoreactivity were identified on CGRP- and SP-IR sensory neurons throughout intracardiac ganglia and atrial myocardium. Our findings show that MOR and KOR are expressed as mRNA and translated into specific receptor proteins on cardiac parasympathetic, sympathetic, and sensory neurons as potential binding sites for opioids. Thus, they may well play a role within the complex network for the integration of the heart's neuronal in- and output. J. Comp. Neurol. 518:3836,3847, 2010. © 2010 Wiley-Liss, Inc. [source]

The timely deposition of callose is essential for cytokinesis in Arabidopsis

THE PLANT JOURNAL, Issue 1 2009
Knut Thiele
Summary The primary plant cell wall is laid down over a brief period of time during cytokinesis. Initially, a membrane network forms at the equator of a dividing cell. The cross-wall is then assembled and remodeled within this membrane compartment. Callose is the predominant luminal component of the nascent cross-wall or cell plate, but is not a component of intact mature cell walls, which are composed primarily of cellulose, pectins and xyloglucans. Widely accepted models postulate that callose comprises a transient, rapid spreading force for the expansion of membrane networks during cytokinesis. In this study, we clone and characterize an Arabidopsis gene, MASSUE/AtGSL8, which encodes a putative callose synthase. massue mutants are seedling-lethal and have a striking cytokinesis-defective phenotype. Callose deposition was delayed in the cell plates of massue mutants. Mutant cells were occasionally bi- or multi-nucleate, with cell-wall stubs, and we frequently observed gaps at the junction between cross-walls and parental cell walls. The results suggest that the timely deposition of callose is essential for the completion of plant cytokinesis. Surprisingly, confocal analysis revealed that the cell-plate membrane compartment forms and expands, seemingly as far as the parental wall, prior to the appearance of callose. We discuss the possibility that callose may be required to establish a lasting connection between the nascent cross-wall and the parental cell wall. [source]

Recombinant C1 inhibitor in brain ischemic injury,

ANNALS OF NEUROLOGY, Issue 3 2009
Raffaella Gesuete BD
Objective C1 inhibitor (C1-INH) is an endogenous inhibitor of complement and kinin systems. We have explored the efficacy and the therapeutic window of the recently available human recombinant (rh) C1-INH on ischemic brain injury and investigated its mechanism of action in comparison with that of plasma-derived (pd) C1-INH. Methods rhC1-INH was administered intravenously to C57Bl/6 mice undergoing transient or permanent ischemia, and its protective effects were evaluated by measuring infarct volume and neurodegeneration. The binding profiles of rhC1-INH and pdC1-INH were assessed in vitro using surface plasmon resonance. Their localization in the ischemic brain tissue was determined by immunohistochemistry and confocal analysis. The functional consequences of rhC1-INH and pdC1-INH administration on complement activation were analyzed by enzyme-linked immunosorbent assay on plasma samples. Results rhC1-INH markedly reduced cerebral damage when administered up to 18 hours after transient ischemia and up to 6 hours after permanent ischemia, thus showing a surprisingly wide therapeutic window. In vitro rhC1-INH bound mannose-binding lectin (MBL), a key protein in the lectin complement pathway, with high affinity, whereas pdC1-INH, which has a different glycosylation pattern, did not. In the ischemic brain, rhC1-INH was confined to cerebral vessels, where it colocalized with MBL, whereas pdC1-INH diffused into the brain parenchyma. In addition, rhC1-INH was more active than pdC1-INH in inhibiting MBL-induced complement activation. Interpretation rhC1-INH showed a surprisingly wider time window of efficacy compared with the corresponding plasmatic protein. We propose that the superiority of rhC1-INH is due to its selective binding to MBL, which emerged as a novel target for stroke treatment. Ann Neurol 2009;66:332,342 [source]

Innate immune responses to Mycobacterium ulcerans via toll-like receptors and dectin-1 in human keratinocytes

CELLULAR MICROBIOLOGY, Issue 4 2009
Hye-Mi Lee
Summary Mycobacterium ulcerans (MU), an environmental pathogen, causes Buruli ulcer, a severe skin disease. We hypothesized that epidermal keratinocytes might not be a simple barrier, but play a role during MU infection through pattern-recognition receptors expressed in keratinocytes. We found that keratinocyte Toll-like receptors (TLRs) 2 and 4 and Dectin-1 actively participate in the innate immune response to MU, which includes the internalization of bacteria, the production of reactive oxygen species (ROS), and the expression of chemokines and LL-37. Human keratinocytes constitutively expressed TLRs 2 and 4 and induced Dectin-1 in response to MU. Exposing keratinocytes to MU resulted in rapid ROS production, which in turn contributed to the mRNA and protein expression of LL-37. In addition, TLR2, Dectin-1 and, to an extent, TLR4 are essential for the MU-mediated expression of CXCL8, CCL2 and LL-37 in keratinocytes. Furthermore, confocal analysis showed that the Dectin-1 is necessary for keratinocytes to internalize bacilli. Importantly, blockade of ROS and LL-37 significantly increased the intracellular MU growth in keratinocytes, suggesting an important role of these mediators for cutaneous innate immune responses. Our results demonstrate that TLR2, TLR4 and Dectin-1 actively sense, internalize and respond in an innate way to MU in human epidermal keratinocytes. [source]