Investigação de marcadores moleculares sanguíneos durante a infecção pelo vírus Chikungunya / Investigation of blood molecular markers during Chikungunya virus infection

A febre Chikungunya (CHIKF) é uma infecção viral causada pelo vírus Chikungunya (CHIKV). Os sintomas agudos incluem febre alta de início súbito, erupção cutânea, poliartrite e poliartralgia. Embora a infecção geralmente seja resolvida em menos de duas semanas, muitos pacientes experenciam recorrente dor e inflamação nas articulações, que podem persistir por anos. Esse estudo buscou marcadores moleculares no sangue de infectados pelo CHIKV que estejam associados a dor articular e cronicidade da CHIKF. O sequenciamento de receptores de células B (BCR) e T (TCR) demonstrou que a infecção por CHIKV diminui a diversidade desses receptores. Essa diversidade é ainda menor, durante a fase aguda da infecção, naqueles pacientes que irão desenvolver cronicidade. A menor diversidade de BCR em infectados está associada a um aumento na expressão de genes envolvidos na diferenciação e ativação de osteoclastos pela sinalização RANK/RANKL. Em adição, a cronicidade pode estar relacionada um aumento na expressão do gene ZBTB7A cuja expressão confere maior resistência a apoptose em precursores de osteoclastos naqueles pacientes que vão se tornar crônicos. Caso o envolvimento dos osteoclastos durante a patogênese de CHIKF seja confirmado, os pacientes poderão se beneficiar de abordagens terapêuticas já existentes como alternativas adicionais ao tratamento de CHIKF

Chikungunya fever (CHIKF) is a viral infection caused by the Chikungunya virus (CHIKV). Acute symptoms include sudden-onset high fever, rash, polyarthritis, and polyarthralgia. Although the infection usually resolves within two weeks, many patients experience recurrent joint pain and inflammation, which can persist for years. This study sought molecular markers in the blood of CHIKV-infected individuals that are associated with joint pain and chronicity of CHIKF. Sequencing of B (BCR) and T (TCR) cell receptors demonstrated that CHIKV infection decreases the diversity of these receptors. The diversity is even lower, during the acute phase of the infection, in those patients who will develop chronicity. The lower diversity of BCR in infected individuals is associated with an increase in the expression of genes involved in the differentiation and activation of osteoclasts by RANK/RANKL signaling. In addition, chronicity may be related to an increase in the expression of the ZBTB7A gene whose expression confers greater resistance to apoptosis in osteoclast precursors in those patients who will become chronic. If osteoclast role during CHIKF pathogenesis is confirmed, patients may benefit from existing therapeutic approaches as additional alternatives to CHIKF treatment

Immunodominant antibody responses directed to SARS-CoV-2 hotspot mutation sites and risk of immune escape.

Introduction: Considering the likely need for the development of novel effective vaccines adapted to emerging relevant CoV-2 variants, the increasing knowledge of epitope recognition profile among convalescents and afterwards vaccinated with identification of immunodominant regions may provide important information. Methods: We used an RBD peptide microarray to identify IgG and IgA binding regions in serum of 71 COVID-19 convalescents and 18 vaccinated individuals. Results: We found a set of immunodominant RBD antibody epitopes, each recognized by more than 30% of the tested cohort, that differ among the two different groups and are within conserved regions among betacoronavirus. Of those, only one peptide, P44 (S415-429), recognized by 68% of convalescents, presented IgG and IgA antibody reactivity that positively correlated with nAb titers, suggesting that this is a relevant RBD region and a potential target of IgG/IgA neutralizing activity. Discussion: This peptide is localized within the area of contact with ACE-2 and harbors the mutation hotspot site K417 present in gamma (K417T), beta (K417N), and omicron (K417N) variants of concern. The epitope profile of vaccinated individuals differed from convalescents, with a more diverse repertoire of immunodominant peptides, recognized by more than 30% of the cohort. Noteworthy, immunodominant regions of recognition by vaccinated coincide with mutation sites at Omicron BA.1, an important variant emerging after massive vaccination. Together, our data show that immune pressure induced by dominant antibody responses may favor hotspot mutation sites and the selection of variants capable of evading humoral response.