Protective role of IL-6 in vascular remodeling in Schistosoma pulmonary hypertension.

Schistosomiasis is one of the most common causes of pulmonary arterial hypertension worldwide, but the pathogenic mechanism by which the host inflammatory response contributes to vascular remodeling is unknown. We sought to identify signaling pathways that play protective or pathogenic roles in experimental Schistosoma-induced pulmonary vascular disease via whole-lung transcriptome analysis. Wild-type mice were experimentally exposed to Schistosoma mansoni ova by intraperitoneal sensitization followed by tail-vein augmentation, and the phenotype was assessed by right ventricular catheterization and tissue histology, as well as RNA and protein analysis. Whole-lung transcriptome analysis by microarray and RNA sequencing was performed, and RNA sequencing was analyzed according to two bioinformatics methods. Functional testing of the candidate IL-6 pathway was determined using IL-6 knockout mice and the signal transducers and activators of transcription protein-3 (STAT3) inhibitor S3I-201. Wild-type mice exposed to S. mansoni demonstrated increased right ventricular systolic pressure and thickness of the pulmonary vascular media. Whole-lung transcriptome analysis determined that the IL-6-STAT3-nuclear factor of activated T cells c2(NFATc2) pathway was up-regulated, as confirmed by PCR and the immunostaining of lung tissue from S. mansoni-exposed mice and patients who died of the disease. Mice lacking IL-6 or treated with S3I-201 developed pulmonary hypertension, associated with significant intima remodeling after exposure to S. mansoni. Whole-lung transcriptome analysis identified the up-regulation of the IL-6-STAT3-NFATc2 pathway, and IL-6 signaling was found to be protective against Schistosoma-induced intimal remodeling.

Elevated DISC1 transcript levels in PBMCs during acute psychosis in patients with schizophrenia.

BACKGROUND: Severe mental disorders like schizophrenia are a leading cause of disability in people in the prime years of their lives (aged 15 to 44 years). Relapse is a primary contributor to schizophrenia disease burden and is frequently attributed to medication noncompliance and inadequate doses. Currently, a patient's neuroleptic dose is titrated to clinical response within recommended dose ranges. Use of unbiased biomarkers of effective neuroleptic treatment-response would greatly facilitate the identification of a person's lowest effective dose to minimize unsafe side effects and improve compliance. Biomarkers may allow precisely tailored adjustments of neuroleptic dose to reduce relapse due to variable disease course. METHODS AND FINDINGS: Biomarkers of active psychosis were sought among persons with schizophrenia hospitalized with acute psychosis. The transcriptional response of peripheral blood mononuclear cells (PBMCs) to treatment of psychosis was measured using RNA expression profiling in 12-paired samples from patients with schizophrenia. The paired samples were collected early after treatment initiation and again just before patients were released from the hospital. Patients showed significant improvement in positive symptoms of psychosis assessed at each sample collection using a brief psychiatric rating scale (BPRS) (P<0.05). Preliminary evidence is presented indicating that decreased transcript levels of isoforms of disrupted in schizophrenia 1 (DISC1) measured in PBMCs were associated with treatment in 91% of samples (P=0.037). CONCLUSION: Further studies are warranted to identify neuroleptic-response biomarkers and to replicate this initial finding of association of DISC1 transcript levels with treatment of psychosis.

Rapid and sensitive detection of 68 unique varicella zoster virus gene transcripts in five multiplex reverse transcription-polymerase chain reactions.

Varicella zoster virus (VZV) becomes latent in ganglionic neurons along the entire neuraxis. Although all predicted VZV open reading frames (ORFs) have been detected by macroarray and microarray analysis in virus-infected cells in culture where virus gene expression is abundant, array technology does not detect all VZV gene transcripts in latently infected human ganglia, where the abundance of ganglionic RNA is low and VZV gene transcription is highly variable. Using reverse transcription-polymerase chain reaction (RT-PCR) and the GenomeLab Genetic Analysis System (GeXPS), transcripts mapping to all 68 predicted unique VZV ORFs were detected in VZV-infected MeWo cells. Oligonucleotide primers contained both VZV- and cell-specific sequences linked to universal DNA sequences such that PCR amplification products were of predetermined sizes. Amplification products were resolved by capillary gel electrophoresis and detected by fluorescence spectrophotometry. Serial dilutions of total RNA extracted from VZV-infected MeWo cells were analyzed in parallel by GeXPS multiplex RT-PCR and real-time RT-PCR. GeXPS technology detected as few as 20 copies of VZV gene-specific transcripts. Only five multiplex RT-PCR assays were needed to analyze the entire VZV transcriptome. This technology will allow rapid analysis of all VZV genes transcribed during latency in human ganglia.