Zika virus (ZIKV), a mosquito-borne flavivirus, belongs to the
Flaviviridae family, genus Flavivirus. ZIKV was
initially isolated in 1947 from a sentinel monkey in the Zika forest, Uganda. Little
clinical importance was attributed to ZIKV, once only few symptomatic cases were
reported in some African and Southeast Asiatic countries. This situation changed in
2007, when a large outbreak was registered on the Yap Island, Micronesia, caused by
the Asian ZIKV lineage. Between 2013 and 2014, ZIKV spread explosively and caused
many outbreaks in different islands of the Southern Pacific Ocean and in 2015
autochthonous transmission was reported in Brazil. Currently, Brazil is the country
with the highest number of ZIKV-positive cases in Latin America. Moreover, for the
first time after the discovery of ZIKV, the Brazilian scientists are studying the
possibility for the virus to cause severe congenital infection related to
microcephaly and serious birth defects due to the time-spatial coincidence of the
alarming increase of newborns with microcephaly and the Brazilian ZIKV epidemic. The
present review summarizes recent information for ZIKV epidemiology, clinical picture,
transmission, diagnosis and the consequences of this emerging virus in Brazil.
Human parvovirus B19 (B19V) is a small (22-24 nm) nonenveloped DNA virus belonging to the genus Erythrovirus (family Parvoviridae). Although it generally causes self-limiting conditions in healthy people, B19V infection may have a different outcome in patients with inherited hemolytic anemias. In such high-risk individuals, the high-titer replication may result in bone marrow suppression, triggering a life-threatening drop of hemoglobin values (profound anemia, aplastic crisis). To date there is no consensus concerning a B19V screening program either for the blood donations used in the hemotherapy or for high-risk patients. Moreover, questions such as the molecular mechanisms by which B19V produces latency and persistent replication, the primary site (sites) of B19V infection and B19V immunopathology are far from being known. This review summarizes general aspects of B19V molecular characteristics, pathogenesis and diagnostic approaches with a focus on the role of this pathogen in blood transfusions and in patients with some hemoglobinopathies (sickle-cell disease, thalassemia).
Human Parvovirus B19 (B19V) is a recognized cause of life-threatening conditions among patients with hemoglobinopathies. This study investigates B19V infection in patients with sickle cell disease and β-thalassemia using different experimental approaches. A total of 183 individuals (144 with sickle cell disease and 39 with β-thalassemia major) and 100 healthy blood donors were examined for B19V using anti-B19V IgG enzyme immunoassay, quantitative PCR, DNA sequencing, and phylogenetic analysis. Viremia was documented in 18.6% of patients and 1% of donors, and was generally characterized by low viral load (VL); however, acute infections were also observed. Anti-B19V IgG was detected in 65.9% of patients with sickle cell disease and in 60% of donors, whereas the patients with thalassemia exhibited relatively low seroreactivity. The seroprevalence varied among the different age groups. In patients, it progressively increased with age, whereas in donors it reached a plateau. Based on partial NS1 fragments, all isolates detected were classified as subgenotype 1A with a tendency to elicit genetically complex infections. Interestingly, quasispecies occurred in the plasma of not only patients but also donors with even higher heterogeneity. The partial NS1 sequence examined did not exhibit positive selection. Quantitation of B19V with a conservative probe is a technically and practically useful approach. The extensive spread of B19V subgenotype 1A in patients and donors and its recent introduction into the countryside of the São Paulo State, Brazil were demonstrated; however, it is difficult to establish a relationship between viral sequences and the clinical outcomes of the infection.
This is the first study evaluating the prevalence of ZIKV RNA among Brazilian blood donors, which was relatively high and might lead to TT-ZIKV infection. It is unclear whether the simultaneous presence of anti-ZIKV IgM and IgG in RNA-positive donations or the viral load influences transfusion transmission of the infection. This study also adds to the global understanding of ZIKV prevalence in blood donors during outbreaks and the transfusion impact of the infection.
The COVID-19 epidemic in Brazil was driven mainly by the spread of Gamma (P.1), a locally emerged Variant of Concern (VOC) that was first detected in early January 2021. This variant was estimated to be responsible for more than 96% of cases reported between January and June 2021, being associated with increased transmissibility and disease severity, a reduction in neutralization antibodies and effectiveness of treatments or vaccines, as well as diagnostic detection failure. Here we show that, following several importations predominantly from the USA, the Delta variant rapidly replaced Gamma after July 2021. However, in contrast to what was seen in other countries, the rapid spread of Delta did not lead to a large increase in the number of cases and deaths reported in Brazil. We suggest that this was likely due to the relatively successful early vaccination campaign coupled with natural immunity acquired following prior infection with Gamma. Our data reinforces reports of the increased transmissibility of the Delta variant and, considering the increasing concern due to the recently identified Omicron variant, argues for the necessity to strengthen genomic monitoring on a national level to quickly detect the emergence and spread of other VOCs that might threaten global health.
The current COVID-19 pandemic demands massive testing by Real-time RT-PCR (Reverse Transcription Polymerase Chain Reaction), which is considered the gold standard diagnostic test for the detection of the SARS-CoV-2 virus. However, the virus continues to evolve with mutations that lead to phenotypic alterations as higher transmissibility, pathogenicity or vaccine evasion. Another big issue are mutations in the annealing sites of primers and probes of RT-PCR diagnostic kits leading to false-negative results. Therefore, here we identify mutations in the N (Nucleocapsid) gene that affects the use of the GeneFinder COVID-19 Plus RealAmp Kit. We sequenced SARS-CoV-2 genomes from 17 positive samples with no N gene detection but with RDRP (RNA-dependent RNA polymerase) and E (Envelope) genes detection, and observed a set of three different mutations affecting the N detection: a deletion of 18 nucleotides (Del28877-28894), a substitution of GGG to AAC (28881-28883) and a frameshift mutation caused by deletion (Del28877-28878). The last one cause a deletion of six AAs (amino acids) located in the central intrinsic disorder region at protein level. We also found this mutation in 99 of the 14,346 sequenced samples by the Sao Paulo state Network for Pandemic Alert of Emerging SARS-CoV-2 variants, demonstrating the circulation of the mutation in Sao Paulo, Brazil. Continuous monitoring and characterization of mutations affecting the annealing sites of primers and probes by genomic surveillance programs are necessary to maintain the effectiveness of the diagnosis of COVID-19.
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