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      Markers of inflammation and stress distinguish subsets of individuals with schizophrenia and bipolar disorder

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          Abstract

          Schizophrenia and bipolar disorder share a number of common features, both symptomatically and biologically. Abnormalities in the neuroimmune and the stress-signaling pathways have been previously identified in brains of individuals with both diseases. However, the possible relationship between abnormalities in stress and neuroimmune signaling within the cortex of people with psychotic illness has not been defined. To test the hypothesis that combined alterations in brain stress responsiveness and neuroimmune/inflammatory status are characteristic of some individuals suffering from major mental illness, we examined gene expression in the Stanley Array Cohort of 35 controls, 35 individuals with schizophrenia and 34 individuals with bipolar disorder. We used levels of 8 inflammatory-related transcripts, of which SERPINA3 was significantly elevated in individuals with schizophrenia (F(2,88)=4.137, P<0.05), and 12 glucocorticoid receptor signaling (stress) pathway transcripts previously examined, to identify two clusters of individuals: a high inflammation/stress group ( n=32) and a low ( n=68) inflammation/stress group. The high inflammation/stress group has a significantly greater number of individuals with schizophrenia ( n=15), and a trend toward having more bipolar disorder individuals ( n=11), when compared with controls ( n=6). Using these subgroups, we tested which microarray-assessed transcriptional changes may be associated with high inflammatory/stress groups using ingenuity analysis and found that an extended network of gene expression changes involving immune, growth factors, inhibitory signaling and cell death factors also distinguished these groups. Our work demonstrates that some of the heterogeneity in schizophrenia and bipolar disorder may be partially explained by inflammation/stress interactions, and that this biological subtype cuts across Diagnostic and Statistical Manual of Mental Disorders (DSM)-defined categories.

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          Meta-analysis of cytokine alterations in schizophrenia: clinical status and antipsychotic effects.

          Brian Miller, Peter Buckley, Wesley Seabolt (2011)
          Schizophrenia is associated with immune system dysfunction, including aberrant cytokine levels. We performed a meta-analysis of these associations, considering effects of clinical status and antipsychotic treatment following an acute illness exacerbation. We identified articles by searching PubMed, PsychInfo, and Institute for Scientific Information and the reference lists of identified studies. Forty studies met the inclusion criteria. Effect sizes were similar for studies of acutely relapsed inpatients (AR) and first-episode psychosis (FEP). Interleukin (IL)-1β, IL-6, and transforming growth factor-β (TGF-β) appeared to be state markers, as they were increased in AR and FEP (p < .001 for each) and normalized with antipsychotic treatment (p < .001, p = .008, and p = .005, respectively). In contrast, IL-12, interferon-γ (IFN-γ), tumor necrosis factor-α (TNF-α), and soluble IL-2 receptor (sIL-2R) appeared to be trait markers, as levels remained elevated in acute exacerbations and following antipsychotic treatment. There was no difference in IL-6 levels between stable medicated outpatients and control subjects (p = .69). In the cerebrospinal fluid, IL-1β was significantly decreased in schizophrenia versus controls (p = .01). Similar effect sizes in AR and FEP suggest that the association between cytokine abnormalities and acute exacerbations of schizophrenia is independent of antipsychotic medications. While some cytokines (IL-1β, IL-6, and TGF-β) may be state markers for acute exacerbations, others (IL-12, IFN-γ, TNF-α, and sIL-2R) may be trait markers. Although these results could provide the basis for future hypothesis testing, most studies did not control for potential confounding factors such as body mass index and smoking. Copyright © 2011 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.
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            Regulation of innate immune responses in the brain.

            Serge Rivest (2009)
            Microglial cells are the main innate immune cells of the complex cellular structure of the brain. These cells respond quickly to pathogens and injury, accumulate in regions of degeneration and produce a wide variety of pro-inflammatory molecules. These observations have resulted in active debate regarding the exact role of microglial cells in the brain and whether they have beneficial or detrimental functions. Careful targeting of these cells could have therapeutic benefits for several types of trauma and disease specific to the central nervous system. This Review discusses the molecular details underlying the innate immune response in the brain during infection, injury and disease.
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              Immunological aspects in the neurobiology of suicide: elevated microglial density in schizophrenia and depression is associated with suicide.

              Johann Steiner, Hendrik Bielau, Ralf Brisch (2008)
              Suicide has a high prevalence in patients with schizophrenia and affective disorder. Our recent postmortem study [Steiner J, Mawrin C, Ziegeler A, Bielau H, Ullrich O, Bernstein HG, Bogerts B. Distribution of HLA-DR-positive microglia in schizophrenia reflects impaired cerebral lateralization. Acta Neuropathologica (Berl) 2006;112:305-16.] revealed increased microglial densities in two schizophrenic patients who had committed suicide. Therefore, the hypothesis of microglial activation during acute psychosis was proposed. Alternatively, "suicide" could be a diagnosis-independent factor leading to microgliosis. To clarify this question, microglial HLA-DR expression was analyzed by immunohistochemistry in the dorsolateral prefrontal cortex (DLPFC), anterior cingulate cortex (ACC), mediodorsal thalamus (MD) and hippocampus of 16 schizophrenics, 14 depressed patients with affective disorder and 10 matched controls. A subgroup of six schizophrenics and seven patients with affective disorder who committed suicide was included. ANOVA revealed no effect of diagnosis on microglial density (DLPFC: P=0.469; ACC: P=0.349; MD: P=0.569; hippocampus: P=0.497). However, significant microgliosis was observed in the DLPFC (P=0.004), ACC (P=0.012) and MD (P=0.004) of suicide patients. A similar trend was seen in the hippocampus (P=0.057). In conclusion, immunological factors may play a hitherto underestimated role in suicide. First, microglial activation might be interpreted as a consequence of presuicidal stress. Second, one might speculate a causal link between microglial activation and suicidal behaviour, such as neuroendocrine factors, cytokines, and nitric oxide, which are released from microglial cells and are known to modulate noradrenergic or serotonergic neurotransmission and thus may trigger suicidality.
              Article 0 comments Cited 225 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-ta): Transl Psychiatry
                Journal ID (iso-abbrev): Transl Psychiatry
                Title: Translational Psychiatry
                Publisher: Nature Publishing Group
                ISSN (Electronic): 2158-3188
                Publication date (Print): February 2014
                Publication date (Electronic): 25 February 2014
                Publication date PMC-release: 1 February 2014
                Volume: 4
                Issue: 2
                Page: e365
                Affiliations
                [1 ]Schizophrenia Research Institute , Sydney, NSW, Australia
                [2 ]Schizophrenia Research Laboratory, Neuroscience Research Australia , Sydney, NSW, Australia
                [3 ]School of Psychiatry, University of New South Wales , Sydney, NSW, Australia
                [4 ]Department of Psychiatry, Neuropsychiatric Signaling Program, Center for Neurobiology and Behavior, University of Pennsylvania , Philadelphia, PA, USA
                [5 ]Laboratory of Brain Research, Stanley Medical Research Institute, 9800 Medical Center Drive , Rockville, MD, USA
                Author notes
                [* ]Macquarie Group Chair of Schizophrenia Research, Neuroscience Research Australia , Barker Street, Randwick, 2031 NSW, Australia. E-mail: cyndi@ 123456neura.edu.au
                Article
                Publisher Item ID: tp20148
                DOI: 10.1038/tp.2014.8
                PMC ID: 3944638
                PubMed ID: 24569695
                SO-VID: e2ef3106-5ee5-44ca-b0e8-9bb80469f74d
                Copyright © Copyright © 2014 Macmillan Publishers Limited
                License:

                This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/

                History
                Date received : 07 November 2013
                Date revision received : 15 December 2013
                Date accepted : 09 January 2014
                Categories
                Subject: Original Article

                ScienceOpen disciplines: Clinical Psychology & Psychiatry
                Keywords: bipolar disorder,glucocorticoid receptor,heterogeneity,inflammation,personalized medicine,schizophrenia
                Data availability:
                ScienceOpen disciplines: Clinical Psychology & Psychiatry
                Keywords: bipolar disorder, glucocorticoid receptor, heterogeneity, inflammation, personalized medicine, schizophrenia

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