UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lipopolysaccharide (LPS) plays a key role in the pathogenesis of sepsis. Cardiac function and the inotropic response to beta-adrenergic stimulation are impaired in sepsis. We hypothesized that LPS, in clinically relevant levels (1 ng/mL), directly depresses contractility and beta-adrenergic responses in cardiac myocytes. Cardiac myocytes were isolated from the left ventricle of adult rabbits using digestive enzymes (collagenase and protease). We depyrogenated the enzymes (LPS contamination lowered from 100 to 300 ng/mL to < 0.7 ng/mL) to minimize development of LPS tolerance during cell isolation. After 6 hours of incubation with 1 ng/mL LPS, there was a decrease in the extent of active cell shortening with no change in Ca2+ transients (measured with indo 1 fluorescence), indicating decreased myofilament responsiveness to Ca2+. This was related to NO pathways, since cGMP (a second messenger of NO) increased in cardiac myocytes and LPS effects were completely reversed with a 1 mmol/L NG-monomethyl-L-arginine (L-NMMA, a NO synthase inhibitor). LPS did not alter the intracellular Ca2+ response to beta-adrenergic stimulation with isoproterenol but attenuated the contractile response (maximal cell shortening, 15.5 +/- 1.0% versus 23.3 +/- 1.1% in control myocytes; P < .001). LPS attenuation of the contractile response to isoproterenol was restored completely by L-NMMA and almost completely restored (to 86% of the control response) by an inhibitor of cGMP-dependent protein kinase. We conclude that LPS depresses cardiac contractility and the contractile response to beta-adrenergic stimulation by a NO-cGMP-mediated decrease in myofilament responsiveness to Ca2+. The direct effects of low levels of LPS on cardiac myocytes may contribute to cardiac depression and hemodynamic decompensation during sepsis.
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PMID:Lipopolysaccharide depresses cardiac contractility and beta-adrenergic contractile response by decreasing myofilament response to Ca2+ in cardiac myocytes. 940 Mar 82

In this study, cultured glomerular epithelial cells (GEC) were exposed to a diabetic milieu containing glycated proteins to determine whether such proteins cause metabolic alterations that may lead to defects seen in the extracellular matrix in diabetic nephropathy. Cultured glomerular epithelial cells were cloned and maintained in RPMI media containing 10% fetal bovine serum (FBS). The medium was changed to RPMI-1% glycated FBS (experimental) or RPMI-1% control FBS, and cells were incubated for 1 or 4 d. Mitogenicity was tested by 3H-thymidine uptake. The media were collected and analyzed for collagenase activity by a quantitative fluorescence assay and by zymography. The cell layers were processed for matrix antigen (collagen I, glomerular basement membrane antigens, laminin, and fibronectin) and for the proteins of the tight junction (cadherin, desmosomal protein) by quantitative immunoperoxidase and immunofluorescence. Cell lysates were tested for cadherin and desmosomal protein by immunoblotting. Cells were also grown on 0.2-microM filter membranes to test for permeability to 3H-inulin and 125I-albumin. Glycated FBS resulted in a 1.8-fold increase in 3H-thymidine uptake in subconfluent layers accompanied by an increase in cell number. The treatment caused accumulation of laminin (18% above control, P < 0.05) and basement membrane antigens (33% above control, P < 0.05). Collagen I and fibronectin were unchanged. Exposing cells to glycated FBS changed the distribution of cadherin from a linear to a diffuse pattern associated with a decrease in cadherin observed on immunoblots. The media of glycated FBS-treated cells contained 45% lower collagenase activity (72-, 92-, and 150-kD species). Permeability to inulin increased by 550% and to albumin by 320% in glycated FBS-treated monolayers compared with controls. It is concluded that glycated proteins increased the accumulation of matrix proteins in the GEC, associated with a concomitant depression in collagenase activity. There were qualitative and quantitative changes in the tight junction protein cadherin. These matrix changes resulted in a functional defect in the permselective properties of the GEC tight junctions and manifested as increased leakage of inulin and albumin. Thus, the GEC are metabolically sensitive to the presence of glycated proteins, and this could play a role in the pathogenesis of diabetic nephropathy.
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PMID:Effect of glycated proteins on the matrix of glomerular epithelial cells. 959 77

With the aim of explaining a mechanism underlying the dose-dependent change in prevalence of different malformation types (shift in malformation spectra) in a population of chick embryos treated with general cytotoxic agents, we have investigated the effect of cyclophosphamide (CP) on the cell cycle in different organ rudiments. CP was administered intra-amniotically in doses of 2, 4, 8, and 16 micrograms to chick embryos on day 4. Six hours later, the embryos were removed, and limb buds, facial region, brain, and heart rudiments were dissected and treated for isolation of nuclei. The tissues were dissociated mechanically and enzymatically with collagenase-dispase, and suspensions of nuclei were prepared by a detergent and RNAase-mediated cytolysis. Ethidium bromide added to the solution allowed DNA analysis by flow cytometry, which, within the embryotoxic range of doses (4-16 micrograms), revealed a dose-dependent block of cells in the S phase, followed by a decrease of cell numbers in the G2-M phase. The effect of CP on the cell cycle was associated with the degree of damage to the embryo, and dysmorphogenesis appeared proportionate to the magnitude of mitotic inhibition. The results are consistent with the idea that the dose-dependent shift in malformation spectra is causally associated with the dose-dependent and organ-specific depression of mitotic activity.
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PMID:Cell-cycle alterations within chick embryonic anlagen after cyclophosphamide treatment. 970 83

Although a burst of immunoresponsiveness may occur during the early stage of sepsis, late sepsis is characterized by severe immunodepression. In addition, although studies have shown that stimulation of macrophage beta-adrenoceptors results in an increase in cAMP and an associated reduction in macrophage phagocytic activity, it remains unknown whether Kupffer cell beta-adrenoceptor characteristics and cAMP levels are altered during polymicrobial sepsis. To study this, Sprague-Dawley rats were subjected to sepsis by cecal ligation and puncture (CLP). At 5 h (i.e., the early stage of sepsis) or 20 h (late sepsis) after CLP or sham operation, the liver was perfused with collagenase solution and Kupffer cells were isolated. beta-Adrenoceptor characteristics of the isolated Kupffer cells were determined using [125I]iodopindolol, and basal levels of cAMP were measured by radioimmunoassay. The results indicate that while maximum binding capacity (Bmax) of Kupffer cell beta-adrenoceptors was not altered at 5 h, it increased significantly at 20 h after CLP. Similarly, basal levels of cAMP in Kupffer cells did not change at 5 h but increased markedly at 20 h after the onset of sepsis. In contrast, the dissociation constant (Kd, 1/affinity) of Kupffer cell beta-adrenoceptors was not significantly affected by sepsis at both 5 h and 20 h after CLP. Thus, upregulation of beta-adrenoceptors and increase in cAMP levels in Kupffer cells occur during the late stage of polymicrobial sepsis, and this may contribute to the depression of macrophage phagocytic function under such conditions.
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PMID:Upregulation of Kupffer cell beta-adrenoceptors and cAMP levels during the late stage of sepsis. 973 66

The present study was performed to analyse the structure of non-digested and digested collagen type I molecules by atomic force microscopy (AFM). Collagen type I molecules from the bovine skin were diluted with 0.05 N acetic acid, spread on a mica plate, air-dried and observed by non-contact mode AFM in air. Collagen molecules digested with Clostridium histolyticum collagenase were also examined by AFM. Intact collagen type I molecules were observed as twisted threads ranging mainly between 280 and 310 nm in length. The surface of the molecules was uneven and both ends usually slightly bulged like a globule. Depressions on the molecules were found throughout the length, and were most prominent approximately 70 nm from one end of the molecules. The collagenase-treated collagen molecules were degraded into fragments with various lengths, which corresponded to the data from sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis. The end of these fragments often appeared like a tuft, suggesting that the triple-helix unraveled at these regions.
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PMID:Atomic force microscopy of intact and digested collagen molecules. 1110 30

Intracranial bleeding damages the surrounding tissue in a complex fashion that involves contamination by blood-borne products and loss of ionic homeostasis. We used electrophysiological techniques to examine the functional changes in the developing intracerebral bleed and in surrounding regions using an in vivo swine model. Intracerebral hemorrhage (ICH) was induced by collagenase injection into the primary somatosensory cortex (SI). Somatic evoked potential (SEP) elicited by electrical stimulation of the contralateral snout as well as changes in DC-coupled potential were monitored in the SI from the time of collagenase injection in order to measure the effects of ICH. The SEP decreased in amplitude within minutes of the intracerebral injection. Its short-latency component was abolished within the first hour after collagenase injection without any sign of recovery for the duration of the experiment. As the SEP started decreasing in amplitude, we observed spontaneous, recurring episodes of cortical spreading depression (SD) as early as 20 min post-injection. The timing of SDs in SI is consistent with our interpretation that SDs were initially generated at multiple sites adjacent to the lesion core and propagated into the surrounding area. With time, SD became less frequent near the injection site, shifting to more distant electrodes in the surrounding area. Our results indicate that ICH leads to the reduction in SEP amplitude and induces spontaneous episodes of SD. Loss of ionic homeostasis is most likely the physiological basis for the SEP change and for the induction of SD. Recurring SD spontaneously generated in experimental ICH needs further study in humans with ICH.
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PMID:Recurring episodes of spreading depression are spontaneously elicited by an intracerebral hemorrhage in the swine. 1115 Apr 81

The present work describes an isozyme-related effect of collagenase perfusion on hepatocyte microsomal cytochrome (CYP)-dependent monooxygenase activities: CYP 1A1/2-, 2B1/2-, 3A1/2- and 2E1-dependent activities in microsomes from rat hepatocytes after isolation were about 60% of that of liver microsomes, and CYP 4A1-dependent activity was equivalent to liver microsomes. In contrast, the microsomal protein content of the various CYP isoforms was not affected by hepatocyte isolation. This is in accordance with the hypothesis of CYP inactivation during the process of hepatocyte isolation by collagenase digestion. L-NAME (1 mM) was found unable to protect from the decline of CYP-dependent monooxygenase activities following hepatocyte isolation. It is possible that the decrease in glutathione peroxidase activity observed in the presence of L-NAME, namely depression of defense against peroxynitrite, could counteract the beneficial effect of L-NAME on nitric oxide synthesis inhibition. The present work also shows that L-NAME could not avoid the progressive, isoform-specific, most probably turnover-related, decline of CYP proteins and related monooxygenase activities in cultured hepatocytes. Dysregulations in the mechanisms of CYP expression in rat hepatocyte cultures, presently unknown but nitric oxide independent, thus appear to occur in cultured rat hepatocytes.
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PMID:Time course of cytochromes P450 decline during rat hepatocyte isolation and culture: effect of L-NAME. 1253 63

We examined how acute diabetes mellitus and acute ethanol intoxication modulate factors that mediate immune responses as a basis for explaining the increased susceptibility to infection in these two conditions. Our working hypothesis is that ethanol intoxication in diabetes compromises host defense mechanisms to a greater extent than observed in each condition alone. Male and female rats were made diabetic with streptozotocin (65 mg/kg, i.p.). Forty-eight hours after administration of streptozotocin, rats either received no treatment (control group) or were treated with (1) ethanol (bolus injection of 1.75 g/kg, followed by a 3-h infusion at the rate of 300 mg/kg/h), (2) lipopolysaccharide [(LPS); 0.9 mg/kg], or (3) a combination of LPS+ethanol. At the end of 3 h, rats were killed, and the livers were digested by perfusion with collagenase-containing Hanks' balanced salt solution to isolate hepatocytes and Kupffer cells. To measure chemokine generation, hepatocytes (2.5x10(5) cells per well) and Kupffer cells (1x10(6) cells per well) were cultured for 20 h, and the supernatant was used to measure cytokine-induced neutrophil chemoattractant (CINC) and regulated on activation, normal T-cell expressed and secreted (RANTES) chemokines. Phagocytosis by Kupffer cells was measured by flow cytometry and expressed as mean channel fluorescence intensity (MCF). Induction of diabetes as well as treatment of nondiabetic rats with LPS, ethanol, or LPS+ethanol caused depression of MCF values of Kupffer cells. However, treatment of the diabetic male and female rats with LPS and LPS+ethanol increased the MCF values relative to those of Kupffer cells obtained from untreated diabetic rats, but administration of ethanol to diabetic rats did not have a similar effect. The induction of diabetes caused an increase in CINC generation by Kupffer cells obtained from male rats, but not from female rats. This diabetes-induced elevation of chemoattractant factor was decreased when diabetic animals were treated with LPS, ethanol, or LPS+ethanol, and the sex difference was obliterated. Thus, the induction of diabetes as well as treatment with LPS, ethanol, or LPS+ethanol in nondiabetic rats depressed the phagocytic capability of Kupffer cells, whereas the presence of endotoxemia (administration of the endotoxin LPS) or administration of LPS+ethanol reversed the diabetic effect, but ethanol intoxication did not. These findings seem to indicate a persistence of depression of host defense capacity in the ethanol-intoxicated diabetic condition. This is further reinforced by the depression of the diabetes-induced enhancement of chemotaxis when the diabetic rats became intoxicated.
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PMID:Immune response modulation in acutely ethanol-intoxicated, acutely diabetic male and female rats. 1469 62

Injury to the cerebral cortex results in functional deficits not only within the vicinity of the lesion but also in remote brain regions sharing neuronal connections with the injured site. To understand the electrophysiological basis of this phenomenon, we evaluated the effects of a focal intracerebral hemorrhage (ICH) on cortical excitability in a remote, functionally connected brain region. Cortical excitability was assessed by measuring the somatic evoked potential (SEP) elicited by electrical stimulation of the swine snout, which is somatotopically represented in the rostrum area of the primary somatosensory (SI) cortex. The SEP was measured on the SI cortex ipsilateral to the site of ICH and on the contralateral SI cortex during the acute period (< or =11 h) after collagenase-induced ICH. The ICH rapidly attenuated the SEP on the ipsilateral cortex as we reported earlier. Interestingly, the ICH also attenuated the SEP on the contralateral SI cortex. Evoked potentials in the contralateral SI cortex showed a gradual decrease in amplitude during this acute period of ICH. We then investigated whether the interhemispheric connections shared by the contralateral SI and the lesion cortex were responsible for the diminished evoked potentials in the uninjured hemisphere after ICH. A separate group of animals underwent corpus callosal transection prior to electrocorticography (ECoG) recordings and ICH injury. Within hours of hemorrhagic injury, a gradual but marked increase in evoked potential amplitude was observed in the homotopic SI cortex of callosotomized animals as compared to pre-injection recordings. The enhancement suggests that there are additional effects of ICH on remote areas functionally connected to the site of injury. Functional deficits were present in both SI cortices within the first several hours of a unilateral injury indicating that the cessation of brain activity in the lesioned SI is mirrored in the contralateral hemisphere. This electrophysiological depression in the uninjured SI cortex is mediated in part by the interhemispheric connections of the corpus callosum.
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PMID:Acute changes in cortical excitability in the cortex contralateral to focal intracerebral hemorrhage in the swine. 1548 83

Spontaneous episodes of spreading depression (SD) originating in multiple sources adjacent to a focal intracerebral hemorrhage (ICH) propagate into brain regions away from the lesion site soon after injury onset. Although these transient depolarizations have not been established in the opposite hemisphere of the swine ICH model, we have reported a diminishing of sensory responsiveness in this homotopic brain region following induction of a unilateral hemorrhage lesion. This study examined whether transient depolarizations exist in this distant brain region contralateral to the ICH site. Electrocorticographic (ECoG) recordings of brain activity were collected bilaterally from the primary somatosensory (SI) cortices of the swine brain prior to and immediately after an intracerebral injection of collagenase or saline or the insertion of the infusion pipette into the SI cortex of the right hemisphere. Transient depolarizations were present in both hemispheres of all the experimental groups. The earliest negative DC potential shifts were observed in the injured SI cortex within the first hour after collagenase injection, as compared to T = 3 h in the saline-injected group and T = 4 h in the infusion pipette only group. In contrast, transient depolarizations were first detected in the left SI cortex contralateral to the lesioned hemisphere within 2 h after collagenase infusion, by T = 4 h after saline infusion and by T = 3 h in the pipette only group. Propagating waves of negative DC potential shifts continued in both brain hemispheres, particularly in the ICH group, throughout the 11-h recording period. This novel finding of recurrent depolarizing waves in the hemisphere contralateral to the injury site prompted us to examine whether corpus callosal connections may play a role in this transhemispheric phenomenon. In a separate group of animals, the corpus callosum was transected prior to acquiring DC potential recordings and collagenase injection. The onset pattern of negative DC shifts in the callosotomized + collagenase-injected group was similar to the collagenase group with an intact corpus callosum. Initial generation of SD in the callosotomized + collagenase-injected group occurred by T = 1 h in the ICH injured right hemisphere and T = 2 h in the contralateral hemisphere. These transient depolarizations also persisted throughout 11-h recording period indicating that the corpus callosal transection did not hinder these remote propagating waves of depolarization. The presence of SD in the SI cortices of both hemispheres in all experimental groups of this study suggests that a focal mechanical or hemorrhagic injury increases the susceptibility of distant ipsilateral and contralateral brain regions to depolarizing perturbations. The mechanism for these transient depolarizations in the contralateral hemisphere apparently does not involve transhemispheric propagation along corpus callosal fibers.
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PMID:Transhemispheric depolarizations persist in the intracerebral hemorrhage swine brain following corpus callosal transection. 1644 94

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