Dengue virus 3 genotype I shows natural changes in heparan sulphate binding sites, cell interactions, and neurovirulence in a mouse model.

Dengue virus (DENV) is the most prevalent pathogen of the Flaviviridae family. Due to the considerable increase in DENV incidence and spread, symptoms such as CNS involvement have increased. Heparan sulphate (HS) was the first molecule identified as an adhesion factor for DENV in mammalian cells. Viral phenotypes with different HS interactions are associated with various clinical symptoms, including neurological alterations. Here, using in silico analyses, in vitro studies, and the in vivo mouse model, we characterized two natural circulating DENV3 genotype I (GI) lineage 1 (L1) in Brazil-DENV3 MG-20 (from Minas Gerais) and DENV3 PV_BR (from Rondônia) that present divergent neurovirulent profiles and sensitivity to sulphated molecules. We identified substitutions at the viral envelope (E) in positions 62 and 123 as likely responsible for the differences in neurovirulence. The E62K and E123Q substitutions in DENV3 MG-20 and DENV3 PV_BR, respectively, greatly influenced in silico electrostatic density and heparin docking results. In vivo, mice inoculated with DENV3 MG-20 died, but not those infected with DENV3 PV_BR. The clinical symptoms, such as paralysis of the lower limbs and meningoencephalitis, and histopathology, also differed between the inoculated groups. In vitro heparin and heparinases assays further demonstrated the biological impact of these substitutions. Other characteristics that have been previously associated with alterations in cell tropism and neurovirulence, such as changes in the size of lysis plaques and differences in cytopathic effects in glioblastoma cells, were also observed.

Potential for in vitro mesoderm differentiation of Wharton's jelly cells from ovine umbilical cord isolated in different culture media / Potencial de diferenciação in vitro de células provenientes da geleia de Wharton de cordões umbilicais ovinos isolados em diferentes meios de cultivo

The mammalian Wharton's jelly of umbilical cord (WJUC) is a promising source of multipotent cells, providing advantages due to ethical implications, ease of collection and the absence of teratomas in pre-clinical trials. Ovine multipotent cells have already been isolated from various tissues, however there are no reports using umbilical cords in this species. This study aimed to investigate the best medium to transport the umbilical cord, to isolate and maintain ovine WJUC cells and to compare in vitro growth and mesodermal differentiation potential. Eight ovine umbilical cords were obtained during parturition, sectioned and transported in six different media: MEM, low glucose DMEM, M199, RPMI 1640, PBS and saline. For each transportation medium, four culture media were used and the tissue was explanted in 24-well plates and cultured in MEM, low glucose DMEM, M199 and RPMI 1640, all with 10% FBS. Every experiment was conducted with low-passage (P2), investigating MTT viability during four days and adipogenic, chondrogenic and osteogenesis differentiation was induced in vitro. The most effective transport medium (p<0.1) was low glucose DMEM. There was no bacterial or fungal contamination from collection. Cells from Wharton's jelly of ovine umbilical cords collected at natural birth possess fibroblastic morphology and the capacity for in vitro differentiation into adipogenic, chondrogenic and osteogenic cell lines. MTT tests and in vitro differentiation experiments revealed that cell culture medium modulates the behavior of cells and is an important factor for proliferation and maintenance of multipotency. Low glucose DMEM was the most suitable medium for the isolation of cells from Wharton's jelly of ovine umbilical cord.(AU)

A geleia de Wharton do cordão umbilical (GWCU) de mamíferos é uma fonte promissora de células multipotentes, sendo vantajosa por aspectos éticos, facilidade de coleta e não causar teratomas em ensaios pré-clínicos. Em ovinos, células multipotentes já foram isoladas de vários tecidos, no entanto, não existem relatos do isolamento a partir do cordão umbilical nesta espécie. O objetivo do presente estudo foi investigar o melhor meio para o transporte do cordão umbilical, isolar e manter as células da GWCU ovino em diferentes meios e comparar a proliferação e o potencial de diferenciação mesodermal in vitro. Oito cordões umbilicais foram obtidos, por ocasião do parto natural, seccionados e transportados em seis diferentes meios que consistiram em MEM, DMEM baixa glicose, M199, RPMI 1640, PBS e soro fisiológico. Para cada meio de transporte foram utilizados quatro meios de cultivo, sendo o tecido explantado em placas de 24 poços e cultivados em MEM, DMEM baixa glicose, M199 e RPMI 1640, todos com 10% SFB. Todo o experimento foi realizado em baixa passagem (P2) investigando viabilidade pelo MTT por quatro dias além da indução à diferenciação adipogênica, condrogênica e osteogênica in vitro. O meio de transporte mais efetivo (P<0,10) foi o DMEM baixa glicose. Não houve contaminações bacterianas ou fúngicas decorrentes da coleta. Células oriundas da geleia de Wharton do cordão umbilical ovino colhido por ocasião do parto natural possuem morfologia fibroblastóide e capacidade de diferenciação in vitro nas linhagens adipogênica, condrogênica e osteogênica. Os ensaios de MTT e diferenciação in vitro, revelaram que o meio de cultura celular modula o comportamento destas células, sendo um fator importante tanto para a proliferação como para a manutenção da multipotência, destacando o DMEM baixa glicose como o meio mais adequado para o transporte e isolamento de células da geleia de Wharton do cordão umbilical ovino.(AU)