Vera Lúcia Reis de Souza Barros

Circulation of Eastern equine encephalitis, Western equine encephalitis, Ilhéus, Maguari and Tacaiuma viruses in equines of the Brazilian Pantanal, South America

Neutralizing antibodies to EEE (6.7%), WEE (1.2%), ILH (26.6%), MAG (28.2%) and TCM (15.7%) viruses were found in sera of 432 equines of the Brazilian Pantanal, area where undiagnosed horse deaths are frequently observed. A 4-fold rise in CF titer to EEE virus was detected in acute and convalescent sera of an encephalitis horse sacrificed in 1992. Antibodies to EEE, ILH, MAG and TCM viruses were detected in horses less than 2 years old indicating recent circulation of these viruses in the Pantanal. The evidence of recent equine encephalitis associated with rising CF titer to EEE warrants a more intensive study with attempts to isolate virus from horses with clinical manifestations of encephalitis.

Immunopathogenesis of dengue hemorrhagic fever: Contribution to the study of human liver lesions

Dengue infection is an important tropical disease worldwide. The host immune response has been studied in order to better understand lesion mechanisms. It was performed an immunohistochemical study in 14 specimens of liver from patients with dengue hemorrhagic fever (DHF) to characterize cytokines and some factors present in liver lesions and their possible role in the pathogenesis of hepatic injury. Portal tract and hepatic acinus presented high expression of TLR2, TLR3, IL6, and granzyme B. Hepatic acinus also presented iNOS, IL18, and TGF‐beta. Cells expressing IL12, IL13, JAk1, STAT1, and NF‐κB were rarely visualized. Treg cells foxp3+ were absent. TLR2 and TLR3 seem to participate in cellular activation and cytokine production. Cytotoxic response seems to play a role. Although TGF‐beta promotes the activation of Foxp3+ regulatory T cells, IL6 can significantly suppresses their generation. The expression of Treg cells is diminished probably as a result of the high frequency of these cytokines. Both cytokines play a role in the increased vascular permeability and edema observed in dengue liver specimens, with consequent plasma leakage and severity of the disease. It was observed a regular expression of IL‐18 in hepatocytes and lymphocytes of the inflammatory infiltrate in portal tract, which reflects the acute inflammatory response that occurs in the liver and contributes to hepatic injury. At least in part, the increased number of cells expressing IL‐18 could play a role of “up” regulation of FasL and correlate to the phenomenon of apoptosis, a mechanism of destruction of hepatocytes in DHF. J. Med. Virol. 86:1193–1197, 2014.

Characterization of Minaçu virus (Reoviridae: Orbivirus) and pathological changes in experimentally infected newborn mice.

Minaçu virus was isolated from Ochlerotatus scapularis (Diptera: Culicidae) in Minaçu, Goiás State, Brazil, in 1996. In attempting characterization of virus serological (hemagluttination inhibition, HI; indirect immunofluorescence assay, IFA), physicochemical [test for deoxycholate acid (DCA) sensitivity; polyacrylamide gel electrophoresis (PAGE)] tests and ultrastructural studies were made. Virus was also assayed in suckling mice after intracerebral inoculation of 0.02 ml and in VERO and C6/36 cells with 0.1 ml of viral suspension containing 105 LD50/ml. Inoculated and control systems were observed daily. Every 24 h, one control and two inoculated animals were killed for tissue testing, including histopathological changes by haematoxylin and eosin (HE)‐stained sections, which were semi‐quantified. Research into viral antigen in the tissues of mice [central nervous system (CNS), liver, heart, lungs, spleen and kidneys] was carried out by the immunohistochemical technique using the peroxidase system. The virus only replicated in VERO cells, with antigen positive by IFA. Positive complement fixation tests were only obtained using antiserum of Minaçu virus. Minaçu virus is DCA resistant; haemagglutinating activity was negative. By electronic microscopy non‐enveloped virus particles were 75 nm in diameter. PAGE analysis showed Minaçu virus genome profile with 10 RNA segments. Infected, non‐killed animals died 7 days after inoculation. Tissue lesions were observed in all organs, except the lungs. Intense lesions were observed in the CNS and the heart, where neurone and cardiocyte necroses, respectively, were noted. The liver, spleen and kidneys had moderate tissue changes. Viral antigens were more abundant in the CNS and the heart, and absent in the lungs. In conclusion, Minaçu virus belongs to the family Reoviridae, genus Orbivirus.

Yellow fever virus isolated from a fatal post vaccination event: an experimental comparative study with the 17DD vaccine strain in the Syrian hamster (Mesocricetus auratus)

In order to investigate the pathogenicity of the virus strain GOI 4191 that was isolated from a fatal adverse event after yellow fever virus (YFV) vaccination, an experimental assay using hamsters (Mesocricetus auratus) as animal model and YFV 17DD vaccine strain as virus reference was accomplished. The two virus strains were inoculated by intracerebral, intrahepatic and subcutaneous routes. The levels of viremia, antibody response, and aminotransferases were determined in sera; while virus, antigen and histopathological changes were determined in the viscera. No viremia was detected for either strain following infection; the immune response was demonstrated to be more effective to strain GOI 4191; and no significant aminotransferase levels alterations were detected. Strain GOI 4191 was recovered only from the brain of animals inoculated by the IC route. Viral antigens were detected in liver and brain by immunohistochemical assay. Histothological changes in the viscera were characterized by inflammatory infiltrate, hepatocellular necrosis, and viral encephalitis. Histological alterations and detection of viral antigen were observed in the liver of animals inoculated by the intrahepatic route. These findings were similar for both strains used in the experiment; however, significant differences were observed from those results previously reported for wild type YFV strains.

Early and late pathogenic events of newborn mice encephalitis experimentally induced by itacaiunas and curionópolis bracorhabdoviruses infection.

In previous reports we proposed a new genus for Rhabdoviridae and described neurotropic preference and gross neuropathology in newborn albino Swiss mice after Curionopolis and Itacaiunas infections. In the present report a time-course study of experimental encephalitis induced by Itacaiunas and Curionopolis virus was conducted both in vivo and in vitro to investigate cellular targets and the sequence of neuroinvasion. We also investigate, after intranasal inoculation, clinical signs, histopathology and apoptosis in correlation with viral immunolabeling at different time points. Curionopolis and Itacaiunas viral antigens were first detected in the parenchyma of olfactory pathways at 2 and 3 days post-inoculation (dpi) and the first clinical signs were observed at 4 and 8 dpi, respectively. After Curionopolis infection, the mortality rate was 100% between 5 and 6 dpi, and 35% between 8 and 15 dpi after Itacaiunas infection. We identified CNS mice cell types both in vivo and in vitro and the temporal sequence of neuroanatomical olfactory areas infected by Itacaiunas and Curionopolis virus. Distinct virulences were reflected in the neuropathological changes including TUNEL immunolabeling and cytopathic effects, more intense and precocious after intracerebral or in vitro inoculations of Curionopolis than after Itacaiunas virus. In vitro studies revealed neuronal but not astrocyte or microglial cytopathic effects at 2 dpi, with monolayer destruction occurring at 5 and 7 dpi with Curionopolis and Itacaiunas virus, respectively. Ultrastructural changes included virus budding associated with interstitial and perivascular edema, endothelial hypertrophy, a reduced and/or collapsed small vessel luminal area, thickening of the capillary basement membrane, and presence of phagocytosed apoptotic bodies. Glial cells with viral budding similar to oligodendrocytes were infected with Itacaiunas virus but not with Curionopolis virus. Thus, Curionopolis and Itacaiunas viruses share many pathological and clinical features present in other rhabdoviruses but distinct virulence and glial targets in newborn albino Swiss mice brain.

Pathogenesis of the Ilheus virus in golden hamsters (Mesocricetus auratus)

blood and viscera fragments (brain, liver, heart, lung, spleen and kidneys) were collected on a daily basis for determination of viral titers in newborn mice and antigens/antibody by complement fixation and hemagglutination inhibition tests. Additionally, the pathology of animal tissues was studied by the the hematoxylin and eosin method, viral antigens were detected by immunochemistry, and all collected viscera showed histopathological changes. Large amounts of ILHV antigens were detected by immunohistochemistry in the brain, and in lower quantities in the liver, spleen and kidneys, corroborating with newborn viral titers in them. This inoculum resulted in a fatal outcome of all infected animals seven days after experimentation. Viral antigens were not found in the heart and lungs, suggesting that the viral titers obtained were caused by viremia and not by viral damage. The information in this study confirms the neurotropism and neuropathogenicity of ILHV.The pathogenesis of the Ilheus flavivirus (Flaviviridae) was investigated in golden hamsters (Mesocricetus auratus) using an inoculum of 9.8 LD via intraperitoneal (IP). For ten days, two infected and one control animals were anesthetized, and 50 blood and viscera fragments (brain, liver, heart, lung, spleen and kidneys) were collected on a daily basis for determination of viral titers in newborn mice and antigens/antibody by complement fixation and hemagglutination inhibition tests. Additionally, the pathology of animal tissues was studied by the the hematoxylin and eosin method, viral antigens were detected by immunochemistry, and all collected viscera showed histopathological changes. Large amounts of ILHV antigens were detected by immunohistochemistry in the brain, and in lower quantities in the liver, spleen and kidneys, corroborating with newborn viral titers in them. This inoculum resulted in a fatal outcome of all infected animals seven days after experimentation. Viral antigens were not found in the heart and lungs, suggesting that the viral titers obtained were caused by viremia and not by viral damage. The information in this study confirms the neurotropism and neuropathogenicity of ILHV.

Estudo experimental sobre a patogenicidade do Vírus Ilhéus em hamsters dourados (Mesocricetus auratus)

blood and viscera fragments (brain, liver, heart, lung, spleen and kidneys) were collected on a daily basis for determination of viral titers in newborn mice and antigens/antibody by complement fixation and hemagglutination inhibition tests. Additionally, the pathology of animal tissues was studied by the the hematoxylin and eosin method, viral antigens were detected by immunochemistry, and all collected viscera showed histopathological changes. Large amounts of ILHV antigens were detected by immunohistochemistry in the brain, and in lower quantities in the liver, spleen and kidneys, corroborating with newborn viral titers in them. This inoculum resulted in a fatal outcome of all infected animals seven days after experimentation. Viral antigens were not found in the heart and lungs, suggesting that the viral titers obtained were caused by viremia and not by viral damage. The information in this study confirms the neurotropism and neuropathogenicity of ILHV.The pathogenesis of the Ilheus flavivirus (Flaviviridae) was investigated in golden hamsters (Mesocricetus auratus) using an inoculum of 9.8 LD via intraperitoneal (IP). For ten days, two infected and one control animals were anesthetized, and 50 blood and viscera fragments (brain, liver, heart, lung, spleen and kidneys) were collected on a daily basis for determination of viral titers in newborn mice and antigens/antibody by complement fixation and hemagglutination inhibition tests. Additionally, the pathology of animal tissues was studied by the the hematoxylin and eosin method, viral antigens were detected by immunochemistry, and all collected viscera showed histopathological changes. Large amounts of ILHV antigens were detected by immunohistochemistry in the brain, and in lower quantities in the liver, spleen and kidneys, corroborating with newborn viral titers in them. This inoculum resulted in a fatal outcome of all infected animals seven days after experimentation. Viral antigens were not found in the heart and lungs, suggesting that the viral titers obtained were caused by viremia and not by viral damage. The information in this study confirms the neurotropism and neuropathogenicity of ILHV.

Estudio experimental sobre la patogenicidad del Virus Ilhéus en hámsteres dorados (Mesocricetus auratus)

blood and viscera fragments (brain, liver, heart, lung, spleen and kidneys) were collected on a daily basis for determination of viral titers in newborn mice and antigens/antibody by complement fixation and hemagglutination inhibition tests. Additionally, the pathology of animal tissues was studied by the the hematoxylin and eosin method, viral antigens were detected by immunochemistry, and all collected viscera showed histopathological changes. Large amounts of ILHV antigens were detected by immunohistochemistry in the brain, and in lower quantities in the liver, spleen and kidneys, corroborating with newborn viral titers in them. This inoculum resulted in a fatal outcome of all infected animals seven days after experimentation. Viral antigens were not found in the heart and lungs, suggesting that the viral titers obtained were caused by viremia and not by viral damage. The information in this study confirms the neurotropism and neuropathogenicity of ILHV.The pathogenesis of the Ilheus flavivirus (Flaviviridae) was investigated in golden hamsters (Mesocricetus auratus) using an inoculum of 9.8 LD via intraperitoneal (IP). For ten days, two infected and one control animals were anesthetized, and 50 blood and viscera fragments (brain, liver, heart, lung, spleen and kidneys) were collected on a daily basis for determination of viral titers in newborn mice and antigens/antibody by complement fixation and hemagglutination inhibition tests. Additionally, the pathology of animal tissues was studied by the the hematoxylin and eosin method, viral antigens were detected by immunochemistry, and all collected viscera showed histopathological changes. Large amounts of ILHV antigens were detected by immunohistochemistry in the brain, and in lower quantities in the liver, spleen and kidneys, corroborating with newborn viral titers in them. This inoculum resulted in a fatal outcome of all infected animals seven days after experimentation. Viral antigens were not found in the heart and lungs, suggesting that the viral titers obtained were caused by viremia and not by viral damage. The information in this study confirms the neurotropism and neuropathogenicity of ILHV.