Multiomics integration in skin diseases with alterations in notch signaling pathway: PlatOMICs phase 1 deployment

The high volume of information produced in the age of omics was and still is an important step to understanding several pathological processes, providing the enlightenment of complex molecular networks and the identification of molecular targets associated with many diseases. Despite these remarkable scientific advances, the majority of the results are disconnected and divergent, making their use limited. Skin diseases with alterations in the Notch signaling pathway were extensively studied during the omics era. In the GWAS Catalog, considering only studies on genomics association (GWAS), several works were deposited, some of which with divergent results. In addition, there are thousands of scientific articles available about these skin diseases. In our study, we focused our attention on skin diseases characterized by the impairment of Notch signaling, this pathway being of pivotal importance in the context of epithelial disorders. We considered the pathologies of five human skin diseases, Hidradenitis Suppurativa, Dowling Degos Disease, Adams-Oliver Syndrome, Psoriasis, and Atopic Dermatitis, in which the molecular alterations in the Notch signaling pathway have been reported. To this end, we started developing a new multiomics platform, PlatOMICs, to integrate and re-analyze omics information, searching for the molecular interactions involved in the pathogenesis of skin diseases with alterations in the Notch signaling pathway.This work was supported by a grant from the Institute for Maternal and Child Health IRCCS “Burlo Garofolo/Italian Ministry of Health” (BioHub 03/20), by the grant Interreg Italia-Slovenia, ISE-EMH 07/2019 and by CNPq (311415/2020-2)

A loss-of-function NCSTN mutation associated with familial Dowling Degos disease and hidradenitis suppurativa

Dowling Degos disease (DDD) is a rare autosomal dominant genodermatosis characterized by acquired, slowly progressive reticulated pigmented lesions primarily involving flexural skin areas. Mutations in KRT5, POGLUT-1 and POFUT-1 genes have been associated with DDD, and loss-of-function mutations in PSENEN, a subunit of the gamma-secretase complex, were found in patients presenting with DDD or DDD comorbid with hidradenitis suppurativa (HS). A nonsense mutation in NCSTN, another subunit of the gamma-secretase, was already described in a patient suffering from HS and DDD but whether NCSTN could be considered a novel gene for DDD is still debated. Here, we enrolled a four-generation family with HS and DDD. Through Whole Exome Sequencing (WES) we identified a novel nonsense mutation in the NCSTN gene in all the affected family members. To study the impact of this variant, we isolated outer root sheath cells from patients' hair follicles. We showed that this variant leads to a premature stop codon, activates a nonsense-mediated mRNA decay, and causes NCSTN haploinsufficiency in affected individuals. In fact, cells treated with gentamicin, a readthrough agent, had the NCSTN levels corrected. Moreover, we observed that this haploinsufficiency also affects other subunits of the gamma-secretase complex, possibly causing DDD. Our findings clearly support NCSTN as a novel DDD gene and suggest carefully investigating this co-occurrence in HS patients carrying a mutation in the NCSTN gene

In silico analysis of molecular interactions between HIV-1 glycoprotein gp120 and TNF receptors

Proinflammatory microenvironmental is crucial for the Human Immunodeficiency Virus Type 1 (HIV-1) pathogenesis. The viral glycoprotein 120 (gp120) must interact with the CD4+ T cell chemokine receptor (CCR5) and a co-receptor C-X-C chemokine receptor type 4 (CXCR4) to let the virus entry into the host cells. However, the interaction of the viral particle with other cell surface receptors is mandatory for its attachment and subsequently entry. Tumor Necrosis Factor receptor type I (TNFR1), type II (TNFR2) and Fas are a superfamily of transmembrane proteins involved in canonical inflammatory pathway and cell death by apoptosis as responses against viral pathogens. In our study, we performed an in silico evaluation of the molecular interactions between viral protein gp120 and TNF receptors (TNFR1, TNFR2 and Fas). Protein structures were retrieved from Protein Databank (PDB), and Molecular Docking and dynamics were performed using ClusPro 2.0 server and GROMACS software, respectively. We observed that gp120 is able to bind TNFR1, TNFR2 and Fas receptors, although only the TNFR2-gp120 complex demonstrated to produce a stable and durable binding. Our findings suggest that gp120 may act as an agonist to TNF-α and also function as an attachment factor in HIV-1 entry process. These molecular interaction by gp120 may be the key to HIV-1 immunopathogenesis. In conclusion, gp120 may stimulate pro-inflammatory and apoptotic signaling transduction pathways mediated by TNFR2 and may act as an attachment factor retaining HIV-1 viral particles on the host cell surface.We acknowledge the financial support by the National Council for the Improvement of Higher Education – Brazil (CAPES) and the National Council for Scientific and Technological Development – Brazil (CNPq)

Transcriptome Meta-Analysis Confirms the Hidradenitis Suppurativa Pathogenic Triad: Upregulated Inflammation, Altered Epithelial Organization, and Dysregulated Metabolic Signaling

Hidradenitis suppurativa (HS) is an inflammatory skin condition clinically characterized by recurrent painful deep-seated nodules, abscesses, and sinus tracks in areas bearing apocrine glands, such as axillae, breasts, groins, and buttocks. Despite many recent advances, the pathophysiological landscape of HS still demands further clarification. To elucidate HS pathogenesis, we performed a meta-analysis, set analysis, and a variant calling on selected RNA-Sequencing (RNA-Seq) studies on HS skin. Our findings corroborate the HS triad composed of upregulated inflammation, altered epithelial differentiation, and dysregulated metabolism signaling. Upregulation of specific genes, such as KRT6, KRT16, serpin-family genes, and SPRR3 confirms the early involvement of hair follicles and the impairment of barrier function in HS lesioned skin. In addition, our results suggest that adipokines could be regarded as biomarkers of HS and metabolic-related disorders. Finally, the RNA-Seq variant calling identified several mutations in HS patients, suggesting potential new HS-related genes associated with the sporadic form of this disease. Overall, this study provides insights into the molecular pathways involved in HS and identifies potential HS-related biomarkers.This work was supported by “Coordenação de Aperfeiçoamento de Pessoal de Nível Superior—Brasil (CAPES)”—Finance Code 001, Fondation René Touraine, “Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)” (311415/2020-2 and 430353/2018-9), and EraPerMed 2018-17 European Community funds. L.A.C.B. is supported by CNPq (311415/2020-2). This work was also supported by the Italian Ministry of Health, through the contribution given to the Institute for Maternal and Child Health IRCCS Burlo Garofolo, Trieste, Italy for the Starting Grant (SG-2019-12369421) and for RC03/2020

Cianobactérias e microcistina em águas de rio destinadas ao abastecimento de centro industrial de Caruaru, PE, Brasil

Cyanotoxin producing Cyanobacteria can cause serious harm to human and animal health. Microcystins, the most common type of cyanotoxins, promote liver tumors in men. Thus, we aimed at verifying the occurrence of cyanobacteria in water samples from the Ipojuca’s river at the perimeter of Caruaru-PE, Brazil, and determining if the toxin was also present. Water samples were collected at five strategic points over thirteen consecutive months. High Performance Liquid Chromatography (HPLC) was used to obtain microcystins. The Utermöhl sedimentation method was used to identify and quantify species. This approach found that the toxin was present in 100% of the samples, and pointed to three genera of microcystin producers. The river provides the one of the source for public water supply in the region, confirming the relevance of continuous monitoring of cyanobacteria and cyanotoxins. As observed in the Ipojuca river, several water sources at Pernambuco also present recurrent cyanobacterial blooms, which may contain toxin producers. The blooms occur mainly in the dry season, when water is an invaluable commodity for humans and life stock. Finally, this study showed the importance of monitoring microcystin to support preventive actions in environmental and public health surveillance.As cianobactérias são responsáveis pela produção de cianotoxinas que, uma vez acumuladas, podem causar sérios danos à saúde humana e animal. As microcistinas são o tipo mais comum de cianotoxinas e são promotoras de tumores hepáticos. O objetivo deste trabalho foi verificar a ocorrência de cianobactérias e determinar a presença da toxina microcistina em amostras de água do rio Ipojuca no perímetro da cidade de Caruaru, PE, Brasil. Amostras de água foram coletadas em cinco pontos estratégicos deste manancial durante treze meses consecutivos. Para a pesquisa de cianobactérias, foi utilizado o método de sedimentação de Utermöhl para quantificação e identificação das espécies. Para a pesquisa de microcistina foi utilizada a Cromatografia Líquida de Alta Eficiência (CLAE). Os resultados mostraram três gêneros produtores de microcistinas e a presença desta toxina em 100% das amostras analisadas, confirmando a relevância do monitoramento de cianobactérias e cianotoxinas em águas de abastecimento público, pois assim como o rio Ipojuca, vários mananciais de Pernambuco apresentam florações de cianobactérias que podem ser tóxicas. Este trabalho mostrou a importância do estudo destes organismos e a detecção de suas toxinas fornecendo subsídios às ações preventivas de vigilância ambiental em saúde

Autophagy in Zika Virus Infection: A Possible Therapeutic Target to Counteract Viral Replication

Zika virus (ZIKV) still constitutes a public health concern, however, no vaccines or therapies are currently approved for treatment. A fundamental process involved in ZIKV infection is autophagy, a cellular catabolic pathway delivering cytoplasmic cargo to the lysosome for degradation—considered as a primordial form of innate immunity against invading microorganisms. ZIKV is thought to inhibit the Akt-mTOR signaling pathway, which causes aberrant activation of autophagy promoting viral replication and propagation. It is therefore appealing to study the role of autophagic molecular effectors during viral infection to identify potential targets for anti-ZIKV therapeutic intervention

ZIKA virus entry mechanisms in human cells

Zika virus (ZIKV) is an enveloped, mosquito-borne Flavivirus, which infects cells through clathrin-mediated endocytosis and fusion employing acidic endosomes. Cell entry is mostly mediated by the viral glycoprotein E, although incomplete particle maturation enables viral protein prM and anionic lipids present in the viral membrane to mediate this process. Incomplete proteolytic maturation results in a set of highly heterogeneous particles. These heterogeneous and dynamic infectious particles offer a variety of possible receptor interaction sites on their surfaces, thus contributing to the wide range of cells susceptible to ZIKV as well as to variation in tissue tropism. This review addresses recent advances in the understanding of ZIKV entry process into cells and put together fundamental questions about viral replication, maturation and host-cell interactions

Notch Signaling Regulation in Autoinflammatory Diseases

Notch pathway is a highly conserved intracellular signaling route that modulates a vast variety of cellular processes including proliferation, differentiation, migration, cell fate and death. Recently, the presence of a strict crosstalk between Notch signaling and inflammation has been described, although the precise molecular mechanisms underlying this interplay have not yet been fully unravelled. Disruptions in Notch cascade, due both to direct mutations and/or to an altered regulation in the core components of Notch signaling, might lead to hypo- or hyperactivation of Notch target genes and signaling molecules, ultimately contributing to the onset of autoinflammatory diseases. To date, alterations in Notch signaling have been reported as associated with three autoinflammatory disorders, therefore, suggesting a possible role of Notch in the pathogenesis of the following diseases: hidradenitis suppurativa (HS), Beh\ue7et disease (BD), and giant cell arteritis (GCA). In this review, we aim at better characterizing the interplay between Notch and autoinflammatory diseases, trying to identify the role of this signaling route in the context of these disorders

An overview of Zika virus genotypes and their infectivity

Zika virus (ZIKV) is an enveloped, single-stranded RNA arbovirus belonging to the genus Flavivirus. It was first isolated from a sentinel monkey in Uganda in 1947. More recently, ZIKV has undergone rapid geographic expansion and has been responsible for outbreaks in Southeast Asia, the Pacific Islands, and America. In this review, we have highlighted the influence of viral genetic variants on ZIKV pathogenesis. Two major ZIKV genotypes (African and Asian) have been identified. The Asian genotype is subdivided into Southwest Asia, Pacific Island, and American strains, and is responsible for most outbreaks. Non-synonymous mutations in ZIKV proteins C, prM, E, NS1, NS2A, NS2B, NS3, and NS4B were found to have a higher prevalence and association with virulent strains of the Asian genotype. Consequently, the Asian genotype appears to have acquired higher cellular permissiveness, tissue persistence, and viral tropism in human neural cells. Therefore, mutations in specific coding regions of the Asian genotype may enhance ZIKV infectivity. Considering that mutations in the genomes of emerging viruses may lead to new virulent variants in humans, there is a potential for the re-emergence of new ZIKV cases in the future.This study was financed by the National Council for the Improvement of Higher Education – Brazil (CAPES) – Finance Code 001, National Council for Scientific and Technological Development – Brazil (CNPq) and the Department of Science and Technology of the Ministry of Health – Brazil (Decit/SCTIE/MS)