Alexsander Augusto da Silveira scite author profile

Antiretroviral naive patients (n = 49) were recruited in central western Brazil (Campo Grande City/Mato Grosso do Sul State, located across the Bolivia and Paraguay borders). HIV-1 protease (PR), reverse transcriptase (RT), and env gp41 HR1 fragments were sequenced. Genetic diversity was analyzed by REGA/phylogenetic analyses. Intersubtype recombinants were identified by SimPlot/phylogenetic trees. PR/RT resistance was analyzed by Calibrated Population Resistance/Stanford databases. T-20 resistance in gp41 was assessed by Stanford, Los Alamos, and other sources. Of HIV-1 subtypes 65.3% were B PR B RT , 10.2% were C PR C RT , and 8.2% were F1 PR F1 RT . Intersubtype recombinants were 16.3%: four B/F1 and four B/C (two were ''CRF31_BC-like''). The Pol-RT V75M mutation was detected in two homosexual partners; one patient had the T215S revertant mutation. T-20/gp41 resistance mutations were L44M (n = 2) and V38A (n = 1). The high percentage of non-B isolates (*35%) highlights the importance of molecular surveillance studies in settings distant from the origin of the epidemic. Our data help elaborate the molecular epidemiological map of HIV-1 in Brazil.

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Molecular Characteristics of HIV Type 1 Infection Among Prisoners from Central Western Brazil

Cardoso

Silveira

Francisco³

et al. 2011

AIDS Research and Human Retroviruses

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This study among antiretroviral-experienced prisoners from central western Brazil investigated mutations associated with secondary resistance to nucleoside/nonnucleoside reverse transcriptase inhibitors (NRTI/NNRTI), protease inhibitors (Stanford HIV-1 Resistance/International Aids Society Databases), and HIV-1 subtypes (REGA/phylogenetic analyses/SimPlot). Twenty-seven prisoners from three prisons (16 males and four females from Mato Grosso do Sul State and seven males from Goiás State) had HIV-1 protease and reverse transcriptase fragments sequenced after nested PCR. Median age was 35 years. Seven males and two females were intravenous drug users, three males referred homosexual practice. Resistance mutations were present in 37% (10/27): NRTI+NNRTI mutations (n=5), NRTI mutations (n=3), multidrug-resistant mutations (n=2). Subtype B (48%), subtype C (11%), B/F1, B/C, and F1/B/C recombinants (40.7%) were detected. Possible intraprison transmissions were identified: two intravenous drug user females (subtype C); two clusters among homosexual males (subtype B and B/F1). High resistance rate and possible intraprison transmission highlight the need for improved prevention, counseling, and treatment strategies for prisoners.

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Larvicidal potential of cell wall degrading enzymes from Trichoderma asperellum against Aedes aegypti (Diptera: Culicidae)

Silveira

Andrade

Guissoni

et al. 2021

Biotechnology Progress

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Aedes aegypti is a mosquito vector of arboviruses such as dengue, chikungunya, zika and yellow fever that cause important public health diseases. The incidence and gravity of these diseases justifies the search for effective measures to reduce the presence of this vector in the environment. Bioinsecticides are an effective alternative method for insect control, with added ecological benefits such as biodegradability. The current study demonstrates that a chitinolytic enzyme complex produced by the fungus Trichoderma asperellum can disrupt cuticle formation in the L3 larvae phase of A. aegypti, suggesting such biolarvicidal action could be used for mosquito control. T. asperellum was exposed to chitin from different sources. This induction of cell wall degrading enzymes, including chitinase, N‐acetylglucosaminidase and β‐1,3‐glucanase. Groups of 20 L3 larvae of A. aegypti were exposed to varying concentrations of chitinolytic enzymes induced with commercial chitin (CWDE) and larvae cell wall degrading enzymes (L‐CWDE). After 72 h of exposure to the CWDE, 100% of larvae were killed. The same percent mortality was observed after 48 h of exposure to L‐CWDE at half the CWDE enzyme mixture concentration. Exoskeleton deterioration was further observed by scanning and electron microscopy. Our findings indicate that L‐CWDE produced by T. asperellum reflect chitinolytic enzymes with greater specificity for L3 larval biomolecules. This specificity is characterized by the high percentage of mortality compared with CWDE treatments and also by abrupt changes in patterns of the cellular structures visualized by scanning and transmission electron microscopy. These mixtures of chitinolytic enzymes could be candidates, as adjuvant or synergistic molecules, to replace conventional chemical insecticides currently in use.

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