Tissue and host species-specific transcriptional changes in models of experimental visceral leishmaniasis [version 2; referees : 4 approved]

Background: Human visceral leishmaniasis, caused by infection with Leishmania donovani or L. infantum, is a potentially fatal disease affecting 50,000-90,000 people yearly in 75 disease endemic countries, with more than 20,000 deaths reported. Experimental models of infection play a major role in understanding parasite biology, host-pathogen interaction, disease pathogenesis, and parasite transmission. In addition, they have an essential role in the identification and pre-clinical evaluation of new drugs and vaccines. However, our understanding of these models remains fragmentary. Although the immune response to Leishmania donovani infection in mice has been extensively characterized, transcriptomic analysis capturing the tissue-specific evolution of disease has yet to be reported. Methods: We provide an analysis of the transcriptome of spleen, liver and peripheral blood of BALB/c mice infected with L. donovani. Where possible, we compare our data in murine experimental visceral leishmaniasis with transcriptomic data in the public domain obtained from the study of L. donovani-infected hamsters and patients with human visceral leishmaniasis. Digitised whole slide images showing the histopathology in spleen and liver are made available via a dedicated website, www.leishpathnet.org. Results: Our analysis confirms marked tissue-specific alterations in the transcriptome of infected mice over time and identifies previously unrecognized parallels and differences between murine, hamster and human responses to infection. We show commonality of interferon-regulated genes whilst confirming a greater activation of type 2 immune pathways in infected hamsters compared to mice. Cytokine genes and genes encoding immune checkpoints were markedly tissue specific and dynamic in their expression, and pathways focused on non-immune cells reflected tissue specific immunopathology. Our data also addresses the value of measuring peripheral blood transcriptomics as a potential window into underlying systemic disease. Conclusions: Our transcriptomic data, coupled with histopathologic analysis of the tissue response, provide an additional resource to underpin future mechanistic studies and to guide clinical research

Comparison of quantitative fluorescent polymerase chain reaction and karyotype analysis for prenatal screening of chromosomal aneuploidies in 270 amniotic fluid samples

Quantitative fluorescent polymerase chain reaction (QF-PCR) technique is a rapid prenatal aneuploidy detection method. This method can diagnose abnormality in chromosome 13, 18, 21, X and Y. Karyotyping is a technique in which, by the process of pairing and painting, all the chromosomes of an organism are displayed under a microscope. In the present study, a statistical comparison was made between karyotyping and QF-PCR for prenatal diagnosis. A total of 270 samples were tested for QF-PCR and the results were compared with karyotyping. We also investigated heterozygosity of short tandem repeat (STR) markers by QF-PCR. Deoxyribonucleic acid (DNA) samples (n = 270) were extracted from amniotic fluid (AF) cells. After PCR amplifications, analysis was performed using GeneMarker. A Devyser QF-PCR kit containing 26 primers was used to estimate the observed heterozygosity of STR markers located on chromosome 13, 18, 21, X and Y. The results of karyotyping and QF-PCR were as follows: Trisomy 13 (one case), trisomy 18 (five cases), trisomy 21 (five cases) and triploidy (one case). Chromosomal rearrangements and mosaicisms were not detected by QF-PCR but were detected by karyotyping. Maternal cell contamination (MCC) made the karyotyping fail but not the QF-PCR. The QF-PCR method is especially important because it is fast, accurate, low cost and has a short turnaround time. This method will avoid ambiguity of karyotype results and parental anxiety. It will also shorten clinical management for high-risk families. © 2019 Walter de Gruyter GmbH, Berlin/Boston

CARD15 gene overexpression reduces effect of etanercept, infliximab, and adalimumab on cytokine secretion from PMA activated U937 cells

Abstract Crohn's disease (CD), a subcategory of inflammatory bowel disease, is an immune-related disorder characterized by inflammation of the gastrointestinal mucosa, which can take place in any region along the alimentary tract. The most important gene involved in the etiology of CD is NOD2/CARD15 located on chromosome 16. It has been shown that CARD15 is overexpressed in monocytes of CD patients. The common treatment for the disease is anti-TNF-alpha drugs, the most hopeful of which are probably infliximab and etanercept. Infliximab rapidly reduces signs and symptoms of active Crohn's disease. In contrast, etanercept shows no such effect. In the present study, we evaluated the effects of the CARD15 gene overexpression in monocytic cell line U937 in the production of anti-inflammatory cytokine, IL-10, and proinflammatory cytokine, Il-1 beta, produced after incubation with infliximab, adalimumab, and etanercept separately. Our results show that infliximab and adalimumab significantly decreased IL-10 and IL-1beta secretion levels. However, etanercept inhibition of secretion was less compared with infliximab or adalimumab. In all three cases, suppression of cytokine production is reduced by CARD15 overexpression. © 2015 Elsevier B.V

Blood transcriptional profiles distinguish different clinical stages of cutaneous leishmaniasis in humans

Cutaneous leishmaniasis (CL) is a neglected tropical disease with severe morbidity and socioeconomic sequelae. A better understanding of underlying immune mechanisms that lead to different clinical outcomes of CL could inform the rational design of intervention measures. While transcriptomic analyses of CL lesions were recently reported by us and others, there is a dearth of information on the expression of immune-related genes in the blood of CL patients. Herein, we investigated immune-related gene expression in whole blood samples collected from individuals with different clinical stages of CL along with healthy volunteers in an endemic CL region where Leishmania (L.) tropica is prevalent. Study participants were categorized into asymptomatic (LST+) and healthy uninfected (LST-) groups based on their leishmanin skin test (LST). Whole blood PAXgene samples were collected from volunteers, who had healed CL lesions, and patients with active L. tropica cutaneous lesions. Quality RNA extracted from 57 blood samples were subjected to Dual-color reverse-transcription multiplex ligation-dependent probe amplification (dcRT-MLPA) assay for profiling 144 immune-related genes. Results show significant changes in the expression of genes involved in interferon signaling pathway in the blood of active CL patients, asymptomatics and healed individuals. Nonetheless, distinct profiles for several immune-related genes were identified in the healed, the asymptomatic, and the CL patients compared to the healthy controls. Among others, IFI16 and CCL11 were found as immune transcript signatures for the healed and the asymptomatic individuals, respectively. These results warrant further exploration to pinpoint novel blood biomarkers for different clinical stages of CL.Immunogenetics and cellular immunology of bacterial infectious disease