Growth of Zika virus in human reconstituted respiratory, intestinal, vaginal and neural tissues.

OBJECTIVES: Zika virus (ZIKV) is mostly mosquito borne but it can also be transmitted via the sexual route and persists in semen for a prolonged time. Moreover, viral RNA has been detected in breast milk, saliva, lacrimal fluids and urine, suggesting other possible transmission routes. The aim of our research is to better define ZIKV tropism. METHODS: We investigated the tropism of Asian and African strains of ZIKV using human-derived neural, vaginal, intestinal and respiratory tissues. RESULTS: Asian and African strains of ZIKV were able to grow in all tissues tested, although with different efficiency (7.3 log RNA copies released apically in vaginal tissues versus 9.8 log RNA copies released in intestinal tissues), without the need for major adaptation. CONCLUSIONS: Our results underline that ZIKV tropism may be broader than expected in humans and stress the need to better explore all possible virus-shedding sites and transmission routes.

Detection of a novel sapelovirus in central nervous tissue of pigs with polioencephalomyelitis in the USA.

An approximately 3,000 finishing swine operation in the United States experienced an outbreak of an atypical neurologic disease in 11-weeks-old pigs with an overall morbidity of 20% and case fatality rate of 30%. The clinical onset and progression of signs in affected pigs varied but included inappetence, compromised ambulation, ataxia, incoordination, mental dullness, paresis, paralysis and decreased response to environmental stimuli. Tissues from affected pigs were submitted for diagnostic investigation. Histopathologic examination of the cerebrum, cerebellum and spinal cord revealed severe lymphoplasmacytic and necrotizing polioencephalomyelitis with multifocal areas of gliosis and neuron satellitosis, suggestive of a neurotropic viral infection. Bacterial pathogens were not isolated by culture of neurologic tissue from affected pigs. Samples tested by polymerase chain reaction (PCR) were negative for pseudorabies virus and atypical porcine pestivirus. Immunohistochemistry for porcine reproductive and respiratory syndrome virus, porcine circovirus and Listeria was negative. Porcine sapelovirus (PSV) was identified in spinal cord by a nested PCR used to detect porcine enterovirus, porcine teschovirus and PSV. Next-generation sequencing of brainstem and spinal cord samples identified PSV and the absence of other or novel pathogens. In addition, Sapelovirus A mRNA was detected in neurons and nerve roots of the spinal cord by in situ hybridization. The PSV is genetically novel with an overall 94% amino acid identity and 86% nucleotide identity to a recently reported sapelovirus from Korea. This is the first case report in the United States associating sapelovirus with severe polioencephalomyelitis in pigs.

Thymidine Kinase-Negative Herpes Simplex Virus 1 Can Efficiently Establish Persistent Infection in Neural Tissues of Nude Mice.

Herpes simplex virus 1 (HSV-1) establishes latency in neural tissues of immunocompetent mice but persists in both peripheral and neural tissues of lymphocyte-deficient mice. Thymidine kinase (TK) is believed to be essential for HSV-1 to persist in neural tissues of immunocompromised mice, because infectious virus of a mutant with defects in both TK and UL24 is detected only in peripheral tissues, but not in neural tissues, of severe combined immunodeficiency mice (T. Valyi-Nagy, R. M. Gesser, B. Raengsakulrach, S. L. Deshmane, B. P. Randazzo, A. J. Dillner, and N. W. Fraser, Virology 199:484-490, 1994, https://doi.org/10.1006/viro.1994.1150). Here we find infiltration of CD4 and CD8 T cells in peripheral and neural tissues of mice infected with a TK-negative mutant. We therefore investigated the significance of viral TK and host T cells for HSV-1 to persist in neural tissues using three genetically engineered mutants with defects in only TK or in both TK and UL24 and two strains of nude mice. Surprisingly, all three mutants establish persistent infection in up to 100% of brain stems and 93% of trigeminal ganglia of adult nude mice at 28 days postinfection, as measured by the recovery of infectious virus. Thus, in mouse neural tissues, host T cells block persistent HSV-1 infection, and viral TK is dispensable for the virus to establish persistent infection. Furthermore, we found 30- to 200-fold more virus in neural tissues than in the eye and detected glycoprotein C, a true late viral antigen, in brainstem neurons of nude mice persistently infected with the TK-negative mutant, suggesting that adult mouse neurons can support the replication of TK-negative HSV-1. IMPORTANCE: Acyclovir is used to treat herpes simplex virus 1 (HSV-1)-infected immunocompromised patients, but treatment is hindered by the emergence of drug-resistant viruses, mostly those with mutations in viral thymidine kinase (TK), which activates acyclovir. TK mutants are detected in brains of immunocompromised patients with persistent infection. However, answers to the questions as to whether TK-negative (TK-) HSV-1 can establish persistent infection in brains of immunocompromised hosts and whether neurons in vivo are permissive for TK- HSV-1 remain elusive. Using three genetically engineered HSV-1 TK- mutants and two strains of nude mice deficient in T cells, we found that all three HSV-1 TK- mutants can efficiently establish persistent infection in the brain stem and trigeminal ganglion and detected glycoprotein C, a true late viral antigen, in brainstem neurons. Our study provides evidence that TK- HSV-1 can persist in neural tissues and replicate in brain neurons of immunocompromised hosts.

Zika virus: Future reproductive concerns.

The pandemic spread of Zika virus (ZIKV), a member of the flavivirus genus of the Flaviviridae family, has become a major public health concern. Reproductive specialists are particularly concerned over the spread of ZIKV as it is now known to have both sexual and transplacental routes of transmission resulting in fetal congenital abnormalities. Other members of the Flaviviridae family, hepatitis C virus (HCV) and bovine viral diarrhea virus (BVDV) (which primarily affects cattle), are well known to reproductive specialists as both sexually transmitted illnesses that are capable of vertical transmission. Congenital infection with BVDV also has a predilection for neuro-teratogenicity as has been seen with ZIKV. HCV and BVDV are also known to be capable of persistent infection in offspring. Could this be the case with ZIKV? Examining what we know about HCV and BVDV, in addition to what we have already learned about ZIKV, may answer some of the questions that remain about ZIKV. Herein, we review the current literature as it pertains to ZIKV vertical transmission and neuro-teratogenicity and compare it to what is known about HCV and BVDV.

Comparison of biotinylated monoclonal and polyclonal antibodies in an evaluation of a direct rapid immunohistochemical test for the routine diagnosis of rabies in southern Africa.

The major etiological agent of rabies, rabies virus (RABV), accounts for tens of thousands of human deaths per annum. The majority of these deaths are associated with rabies cycles in dogs in resource-limited countries of Africa and Asia. Although routine rabies diagnosis plays an integral role in disease surveillance and management, the application of the currently recommended direct fluorescent antibody (DFA) test in countries on the African and Asian continents remains quite limited. A novel diagnostic assay, the direct rapid immunohistochemical test (dRIT), has been reported to have a diagnostic sensitivity and specificity equal to that of the DFA test while offering advantages in cost, time and interpretation. Prior studies used the dRIT utilized monoclonal antibody (MAb) cocktails. The objective of this study was to test the hypothesis that a biotinylated polyclonal antibody (PAb) preparation, applied in the dRIT protocol, would yield equal or improved results compared to the use of dRIT with MAbs. We also wanted to compare the PAb dRIT with the DFA test, utilizing the same PAb preparation with a fluorescent label. The PAb dRIT had a diagnostic sensitivity and specificity of 100%, which was shown to be marginally higher than the diagnostic efficacy observed for the PAb DFA test. The classical dRIT, relying on two-biotinylated MAbs, was applied to the same panel of samples and a reduced diagnostic sensitivity (83.50% and 90.78% respectively) was observed. Antigenic typing of the false negative samples indicated all of these to be mongoose RABV variants. Our results provided evidence that a dRIT with alternative antibody preparations, conjugated to a biotin moiety, has a diagnostic efficacy equal to that of a DFA relying on the same antibody and that the antibody preparation should be optimized for virus variants specific to the geographical area of focus.

Padronização da técnica de imuno-histoquímica para raiva em amostras de tecido do sistema nervoso central de bovinos fixadas em formol e emblocadas em parafina / Standardization of immunohistochemistry technique for detection of rabies virus in formalin-fixed and paraffin-embedded tissue samples from central nervous system of cattle

Para a padronização da técnica de imuno-histoquímica para raiva foram utilizadas cinco amostras de SNC de bovinos infectados naturalmente com o vírus da raiva usando-se um anticorpo policlonal e dois monoclonais. Para a recuperação antigênica foram avaliados os seguintes reagentes: protease XIV, proteinase K e tampão citrato pH 6,0 mantido a 100ºC por 15 minutos. A detecção de antígeno rábico nas amostras foi possível com os três anticorpos utilizados. O anticorpo policlonal foi superior aos anticorpos monoclonais, demonstrando bons resultados com os três protocolos de recuperação antigênica, obtendo uma maior intensidade de marcação quando utilizado o tampão citrato e calor. A técnica de imuno-histoquímica demonstrou a presença do antígeno viral no citoplasma de neurônios na forma de agregados de grânulos ou de forma redonda ou oval, mostrando cor púsculo de inclusão viral único a múltiplos nos neurônios. A imuno-histoquímica é um método rápido, podendo ser usada na rotina em casos onde inicialmente há suspeita de raiva, especialmente em casos onde fragmentos de cérebro submetidos ao laboratório foram fixados em formol, onde as amostras não podem ser enviadas ao laboratório imediatamente e para a realização de estudos retrospectivos.(AU)

For standardization of the rabies immunohistochemistry technique, five samples of central nervous system (CNS) of cattle naturally infected with rabies virus were examined. One polyclonal antibody and two monoclonal antibodies were used. The following reagents were evaluated for antigen retrieval: XIV protease, proteinase K and citrate buffer (pH 6.0) boiling at 100ºC during 15 minutes in bain-marie. Detection of rabic antigen was possible with the three antibodies tested. The polyclonal antibody was superior to the monoclonal antibodies, demonstrating good results with the three antigen retrieval protocols. The highest intensity staining was obtained with the citrate buffer and heat. The immunohistochemistry technique demonstrated the presence of viral antigens in the cytoplasm of neurons, in form of aggregates or with round or oval shape. The antigens were found as single or multiples inclusion bodies in the neurons. Immunohistochemistry is a fast method that can be used in routine procedures in cases where rabies is suspected, especially when the brain is submitted to the laboratory as formalin-fixed fragments or when samples could not be immediately shipped. The technique is also useful for retrospective studies.(AU)

Recovery of a neurovirulent human coronavirus OC43 from an infectious cDNA clone.

This study describes the assembly of a full-length cDNA clone of human coronavirus (HCoV)-OC43 in a bacterial artificial chromosome (BAC). The BAC containing the full-length infectious cDNA (pBAC-OC43(FL)) was assembled using a two-part strategy. The first step consisted in the introduction of each end of the viral genome into the BAC with accessory sequences allowing proper transcription. The second step consisted in the insertion of the whole HCoV-OC43 cDNA genome into the BAC. To produce recombinant viral particles, pBAC-OC43(FL) was transfected into BHK-21 cells. Recombinant virus displayed the same phenotypic properties as the wild-type virus, including infectious virus titers produced in cell culture and neurovirulence in mice.

Investigation of pseudorabies virus latency in nervous tissues of seropositive pigs exposed to field strain.

The prevalence and quantity of latent pseudorabies virus (PrV) in nervous tissues of pigs exposed to field strain in Korea was investigated by nested and real-time PCR. Nervous tissues including trigeminal ganglion (TG), olfactory bulb (OB), and brain stem (BS) were collected from 94 seropositive pigs. PrV latent infection in nervous tissues was initially investigated by nested PCR targeting three glycoprotein genes (gB, gE, and gG). Based on the obtained result, latent infection was detected in 95.7% of screened animals. Furthermore, it was revealed that the examined tissues harbored different copy numbers of latent PrV genome ranging from <10(2.0) to 10(7.1) copies per microgram of genomic DNA in real-time PCR analysis. These results show that under normal conditions, levels of latent PrV in the nervous tissues of pigs can vary across a wide range. Therefore, the data presented here provides information regarding control of the endemic state of PrV in Korea.

Construction of an internal standard used in RT nested PCR for Borna Disease Virus RNA detection in biological samples.

The highly neurotropic Borna Disease Virus (BDV), which belongs to the Mononegavirales order--Bornaviridae family--is generally detected using the RT-nested-PCR. If false positive results (often caused by laboratory contaminations) can be avoided, some false negative results which are mostly due to inhibitory effects of some reaction components and/or to sample preparation errors, can occur. Thus, in order to control the RT-PCR sample, an RNA internal standard molecule named "mimic" was constructed with the same primer recognition sites as the viral nucleic acids, flanking a heterologous DNA fragment of distinct molecular weight. Because of their different sizes, the mimic and viral PCR products can be easily discriminated by agarose gel electrophoresis. The co-amplification of both BDV and mimic RNA was performed on infected cells and on biological tissues such as the brain and blood, commonly known to contain PCR inhibitor components. After mimic sensitivity studies were achieved (2.5 fg of "p40 RNA mimic" and 0.25 fg of "p24 RNA mimic"), the competitive amplification reaction between both BDV and mimic RNA was performed on these tissues. The results confirmed that nervous tissue has an inhibitory effect on RT-PCR, which supports the necessity of BDV detection by a higher sensitive method such as RT nested PCR. Moreover, these results confirmed the interest of an internal standard for BDV RNA detection in biological samples.

Acute and persistent infection of human neural cell lines by human coronavirus OC43.

Human coronaviruses (HuCV) are recognized respiratory pathogens. Data accumulated by different laboratories suggest their neurotropic potential. For example, primary cultures of human astrocytes and microglia were shown to be susceptible to an infection by the OC43 strain of HuCV (A. Bonavia, N. Arbour, V. W. Yong, and P. J. Talbot, J. Virol. 71:800-806, 1997). We speculate that the neurotropism of HuCV will lead to persistence within the central nervous system, as was observed for murine coronaviruses. As a first step in the verification of our hypothesis, we have characterized the susceptibility of various human neural cell lines to infection by HuCV-OC43. Viral antigen, infectious virus progeny, and viral RNA were monitored during both acute and persistent infections. The astrocytoma cell lines U-87 MG, U-373 MG, and GL-15, as well as neuroblastoma SK-N-SH, neuroglioma H4, oligodendrocytic MO3.13, and the CHME-5 immortalized fetal microglial cell lines, were all susceptible to an acute infection by HuCV-OC43. Viral antigen and RNA and release of infectious virions were observed during persistent HuCV-OC43 infections ( approximately 130 days of culture) of U-87 MG, U-373 MG, MO3.13, and H4 cell lines. Nucleotide sequences of RNA encoding the putatively hypervariable viral S1 gene fragment obtained after 130 days of culture were compared to that of initial virus input. Point mutations leading to amino acid changes were observed in all persistently infected cell lines. Moreover, an in-frame deletion was also observed in persistently infected H4 cells. Some point mutations were observed in some molecular clones but not all, suggesting evolution of the viral population and the emergence of viral quasispecies during persistent infection of H4, U-87 MG, and MO3.13 cell lines. These results are consistent with the potential persistence of HuCV-OC43 in cells of the human nervous system, accompanied by the production of infectious virions and molecular variation of viral genomic RNA.

Tissue-specific restriction of latent turkey HVT transcription.

Using in situ hybridization, latent turkey herpesvirus (HVT) transcription was examined in lymphoid and/or nonlymphoid tissues. Blood samples were taken for virus isolation from chickens at 7 and 240 days post infection (PI) representing time points for productive and latent turkey herpesvirus infections, respectively. Spleen, thymus, sciatic and brachial nerves from infected chickens were analyzed for latent HVT transcription and HVT glycoprotein B (gB) expression at 240 days PI. Using indirect immunofluorescence, HVT gB expression was not detected in any tissues examined at 240 days PI. HVT genomic fragments from a HVT BamHI library were used as probes in in situ hybridization assays. In the spleen, thymus, sciatic and brachial nerves, latent HVT transcription occurred from the repeat regions flanking the unique long region (TRL and IRL). However, fine-mapping of this region revealed a difference in latent HVT transcriptional pattern. A SmaI map of the HVT BamHI-F fragment was made to further fine-map latent HVT transcription. A 1.6 kbp SmaI subfragment hybridized to cells infected with latent HVT in the spleen and thymus. However, the 1.6 kbp SmaI subfragment did not hybridize to cells of the brachial or sciatic nerves. In addition, a 2.0 kbp SmaI subfragment hybridized to cells in the thymus but not in the spleen, sciatic or brachial nerves. The above results suggest that latent turkey herpesvirus exhibits tissue-specific transcription.

[AIDS: new developments. VI. HIV reservoirs during intensive antiretroviral treatment]. / AIDS: nieuwe ontwikkelingen. VI. HIV-reservoirs tijdens krachtige antiretrovirale behandeling.

Treatment of human immunodeficiency virus (HIV) infected persons with potent antiretroviral combination therapy results in a strong decline of the viral load in the blood. Whether this effect is reached in all tissues and different infected cell types is an important question. There are several potential virus reservoirs. Lymphoid tissue constitutes the largest virus compartment. With potent, often protease inhibitor containing combinations the HIV-RNA decline in lymphoid tissue runs parallel to that in the blood. The central nervous tissue is a potentially important reservoir, because of the limited penetration of several antiretrovirals, especially protease inhibitors. A few short studies with different combinations showed a decline of the amount of virus in the cerebrospinal fluid. The risk of local resistance developing is not known. There are only few studies of the effects of potent anti-HIV therapy on semen but prostate and testis tissue do not appear inaccessible to treatment. The reservoir of latently infected cells that cannot be reached by the immune system or by the viral replication inhibiting therapy, can possibly be reached with immune stimulating agents. This will cause HIV replication and cell death, while the anti-HIV therapy will prevent further replication of the produced virions. This approach is still experimental, however.

A comparative study of histological conditions suitable for both immunofluorescence and in situ hybridization in the detection of Herpesvirus and its antigens in chicken tissues.

Our objective was to identify an optimal single set of conditions for use in both indirect immunofluorescence assays (IFA) and in situ hybridization (ISH) to detect viral proteins and nucleic acids in avian lymphoid and neural tissues. Various fixatives were evaluated for use with IFA to detect turkey Herpesvirus (HVT) glycoprotein B (gB) and ISH to identify HVT mRNA in chicken tissues. A precipitating fixative (acetone) was compared to crosslinking fixatives [buffered glutaraldehyde-picric acid (BGPA), 10% formalin, and 4% paraformaldehyde] for both IFA and ISH using spleen, thymus, bursa, sciatic plexus, and brachial plexus of 28-day-old chickens. Four percent paraformaldehyde was found to be the optimal fixative for preservation of all chicken tissues examined with both IFA and ISH. Glass slide preparation, incubation temperatures, and tissue processing were each individually evaluated for ISH and IFA. Silylated slides provided the best retention of tissue sections for both procedures. For IFA, 37 degrees C was the ideal incubation temperature tested, whereas the optimal incubation temperature tested for ISH was 47 degrees C. Of the blocking agents compared, Evans blue dye prevented background fluorescence to a greater extent than either calf serum or bovine serum albumin. These findings provide a technical basis for investigations into various aspects of the molecular pathology of avian diseases.

Herpes simplex virus in postmortem multiple sclerosis brain tissue.

BACKGROUND: Herpes simplex virus (HSV) is a common neurotropic virus that is capable of long latencies. It can cause focal demyelination in animals. OBJECTIVE: To test for the presence of HSV-1 and -2 in postmortem brain samples from patients with multiple sclerosis (MS) and controls using polymerase chain reaction and Southern blot hybridization. METHODS: Dissected plaque tissue classified as active or inactive and unaffected white matter (WM) and gray matter (GM) from 37 cases of MS were screened for HSV using polymerase chain reaction and Southern blot hybridization. White matter and GM from 22 cases of Alzheimer's disease, 17 cases of Parkinson's disease, and 22 cases without neurologic disease served as controls. RESULTS: Forty-six percent (17/37) of the MS cases and 28% (17/61) of the control cases had samples that were positive for HSV (P = .11). Forty-one percent (9/22) of active plaques and 20% (6/30) of inactive plaques were positive for HSV. Twenty-four percent (9/37) and 14% (5/37) of MS cases and 23% (14/61) and 13% (8/61) of non-MS cases had HSV in WM and GM, respectively. No significant differences were found among all subgroups (P = .10). CONCLUSIONS: Herpes simplex virus was present in more MS cases than control cases and in more active plaques than inactive plaques. The presence of HSV in WM and GM in cases of MS as well as in control cases makes an etiologic association to the MS disease process uncertain, but cellular localization of HSV and its relationship to oligodendrocytes and latency may reveal such an association in future studies.

Herpes simplex virus genomes in human nervous system tissue analyzed by polymerase chain reaction.

Herpes simplex virus (HSV) is known to establish latency in human trigeminal ganglia. It has been speculated that the virus might also be present in latent fashion in normal human brain, where it might be responsible for conditions such as herpes simplex encephalitis, and less plausibly as a cause for multiple sclerosis or Alzheimer's disease. To test the possibility that HSV exists in normal human brain, we utilized the polymerase chain reaction to assess the frequency and distribution of HSV genomes in the nervous system tissues of patients dying of nonneurological causes. Nine samples were obtained in a systematic fashion from olfactory bulb, gyrus rectus, hippocampus amygdala, calcarine cortex, pons, medulla, cerebellum, and trigeminal ganglia from each of 40 individuals dying of nonneurological disease. HSV genomes were sought in each sample using primers from four regions of the HSV genome. The primers were capable of detecting HSV genomic sequences from as little as 10 fg of DNA. HSV genomic sequences were identified in 26 (65%) of 40 samples of trigeminal ganglia. From 30 patients seropositive to HSV, sequences were amplified from 23 (77%). HSV genomic sequences could be amplified and detected in 14 (35%) of 40 brains. The positive areas included medulla, olfactory bulbs, pons, gyrus rectus, amygdala, and hippocampus. The study has confirmed the previous demonstration of latent HSV in trigeminal ganglia in normal humans. The frequency of latent HSV in trigeminal ganglia is in general agreement with results obtained by explanation of ganglia.(ABSTRACT TRUNCATED AT 250 WORDS)