Your search keyword '"Melo CF"' showing total 2 results

1. Persistence of chikungunya ECSA genotype and local outbreak in an upper medium class neighborhood in Northeast Brazil.

Author

Goes de Jesus J, da Luz Wallau G, Lima Maia M, Xavier J, Oliveira Lima MA, Fonseca V, Salgado de Abreu A, Fraga de Oliveira Tosta S, Ramos do Amaral H, Andrade Barbosa Lima I, Viana Silva P, Carlos Dos Santos D, Sousa de Oliveira A, Campos de Souza S, Barreto Falcão M, Cerqueira E, Ceschini Machado L, Sobral MC, Teodoro Rezende TM, Ribeiro Pereira M, Mota Pereira F, Pereira Gusmão Maia Z, Freitas de Oliveira França R, Luiz de Abreu A, Campelo de Albuquerque E Melo CF, Rodrigues Faria N, Venâncio da Cunha R, Giovanetti M, and Alcantara LCJ

Subjects

Adult, Brazil epidemiology, Chikungunya virus classification, Female, Humans, Male, Phylogeny, Young Adult, Chikungunya Fever epidemiology, Chikungunya virus genetics, Chikungunya virus physiology, Disease Outbreaks, Genotype, Residence Characteristics statistics & numerical data, Social Class

Abstract

The chikungunya East/Central/South/Africa virus lineage (CHIKV-ECSA) was first detected in Brazil in the municipality of Feira de Santana (FS) by mid 2014. Following that, a large number of CHIKV cases have been notified in FS, which is the second-most populous city in Bahia state, northeastern Brazil, and plays an important role on the spread to other Brazilian states due to climate conditions and the abundance of competent vectors. To better understand CHIKV dynamics in Bahia state, we generated 5 complete genome sequences from a local outbreak raised in Serraria Brasil, a neighbourhood in FS, by next-generation sequencing using Illumina approach. Phylogenetic reconstructions revealed that the new FS genomes belongs to the ECSA genotype and falls within a single strongly supported monophyletic clade that includes other older CHIKV sequences from the same location, suggesting the persistence of the virus during distinct epidemic seasons. We also performed minor variants analysis and found a small number of SNPs per sample (b_29L and e_45SR = 16 SNPs, c_29SR = 29 and d_45PL and f_45FL = 21 SNPs). Out of the 93 SNPs found, 71 are synonymous, 21 are non-synonymous and one generated a stop codon. Although those mutations are not related to the increase of virus replication and/or infectivity, some SNPs were found in non-structural proteins which may have an effect on viral evasion from the mammal immunological system. These findings reinforce the needing of further studies on those variants and of continued genomic surveillance strategies to track viral adaptations and to monitor CHIKV epidemics for improved public health control., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

2. A Lipidomics Approach in the Characterization of Zika-Infected Mosquito Cells: Potential Targets for Breaking the Transmission Cycle.

Author

Melo CF, de Oliveira DN, Lima EO, Guerreiro TM, Esteves CZ, Beck RM, Padilla MA, Milanez GP, Arns CW, Proença-Modena JL, Souza-Neto JA, and Catharino RR

Subjects

Animals, Cell Line, Female, Humans, Latin America epidemiology, Male, Oceania epidemiology, Zika Virus Infection epidemiology, Zika Virus Infection transmission, Aedes metabolism, Aedes virology, Lipid Metabolism, Zika Virus metabolism, Zika Virus Infection metabolism

Abstract

Recent outbreaks of Zika virus in Oceania and Latin America, accompanied by unexpected clinical complications, made this infection a global public health concern. This virus has tropism to neural tissue, leading to microcephaly in newborns in a significant proportion of infected mothers. The clinical relevance of this infection, the difficulty to perform accurate diagnosis and the small amount of data in literature indicate the necessity of studies on Zika infection in order to characterize new biomarkers of this infection and to establish new targets for viral control in vertebrates and invertebrate vectors. Thus, this study aims at establishing a lipidomics profile of infected mosquito cells compared to a control group to define potential targets for viral control in mosquitoes. Thirteen lipids were elected as specific markers for Zika virus infection (Brazilian strain), which were identified as putatively linked to the intracellular mechanism of viral replication and/or cell recognition. Our findings bring biochemical information that may translate into useful targets for breaking the transmission cycle., Competing Interests: The authors declare no competing financial interests.

Published

2016