Genomic diversity of vaccinia virus strain Cantagalo isolated in southeastern Brazil during the early years of the outbreak, 1999-2006

Outbreaks of a vesiculopustular disease in dairy cattle and milkers have been frequently reported in Brazil since 1999 when the vaccinia virus strain Cantagalo was first isolated in the State of Rio de Janeiro. However, the genomic diversity of the viral isolates associated with these outbreaks is not well known, particularly in the southeastern states that represent the focal point of virus spread to other regions. Here, we report the genomic sequences and an analysis of the polymorphic site profiles and genotypic diversity of four clinical isolates of vaccinia virus strain Cantagalo collected from 1999 to 2006 in southeastern Brazil.

Construction and Function Verification of a Novel Shuttle Vector Containing a Marker Gene Self-deletion System / 病毒学报

For rapid and accurate screening of recombinant modified vaccinia virus Ankara (rMVA) that satisfied the quality standards of clinical trials, a novel shuttle vector that can delete the marker gene automatically during virus propagation was construted: pZL-EGFP. To construct the pZL-EGFP, the original shuttle vector pSC11 was modified by replacing the LacZ marker gene with enhanced green fluorescent protein (EGFP) and then inserting homologous sequences of TKL into the flank regions of EGFP. Baby hamster kidney (BHK)-21 cells were cotransfected with pZL-EGFP and MVA, and underwent ten passages and one plaque screening to obtain the EGFP-free rMVA carrying the exogenous gene. Resulting rMVA was tested by polymerase chain reaction and western blotting to verify pZL-EGFP function. A novel shuttle vector pZL-EGFP containing an EGFP marker gene which could be deleted automatically was constructed. This gene deletion had no effect on the activities of rMVA, and the exogenous gene could be expressed stably. These results suggest that rMVA can be packaged efficiently by homologous recombination between pZL-EGFP and MVA in BHK-21 cells, and that the carried EGFP gene can be removed automatically by intramolecular homologous recombination during virus passage. Meanwhile, the gene deletion had no influence on the activities of rMVA and the expression of exogenous target gene. This study lays a solid foundation for the future research.

Immune control strategies for vaccinia virus-related laboratory-acquired infections / 生物医学与环境科学（英文）

While presenting biological characteristics of vaccinia virus and laboratory-acquired infections during related research processes, this paper focuses on benefits and risks of vaccinia virus immunization in relation to laboratory-acquired infections, describes characteristics and the adaptation of vaccinia virus vaccine, analyses the role vaccinia virus immunization plays in the prevention and control of laboratory-acquired infections, and finally proposes solutions and countermeasures to further promote and implement immune control strategies. The problem related to immune strategy and laboratory- acquired infections which is being raised, analyzed and explored plays an active and instructive role in vaccinia virus related researches and laboratory- acquired infections, and also helps to recommend and develop relevant immune strategy for future vaccine control of such infections.

Analysis on status and characteristics of laboratory-acquired vaccinia virus infections cases / 中华实验和临床病毒学杂志

<p><b>OBJECTIVE</b>By analyzing the status and characteristics of vaccinia virus laboratory-acquired infections in the bibliographical information, this paper provides relevant recommendations and measures for prevention and control of vaccinia virus laboratory-acquired infections in China.</p><p><b>METHODS</b>Choosing PubMed, Embase, Biosis and SCIE, SSCI, CPCI-S as well as CPCI-SSH covered by Web of Science as the data source, indexing the bibliography of vaccinia virus laboratory-acquired infections, this paper analyzes the information on whether to vaccinate, the occurrence time of symptoms, diseasedparts, symptom characteristics and the disease-causing reasons.</p><p><b>RESULTS</b>The outcome shows that 52. 9% of the cases never get vaccinated, 82.4% engaged in vaccinia virus related researches never get vaccinated in 10 years, 52. 9% get infected by the accidental needlestick in hands during the process of handling animal experiments, 70. 6% of infections occur in the hands and having symptoms after being exposed with an average of 5. 1 days.</p><p><b>CONCLUSION</b>Although it is still controversial that whether or not to be vaccinated before carrying out vaccinia virus related works, it should be important aspects of prevention and control of vaccinia virus laboratory-acquired infections with the strict compliance with the operating requirements of the biosafety, by strengthening personal protection and timely taking emergency measures when unforeseen circumstances occur, as well as providing the research background information to doctors.</p>

The immunogenicity in mice enhanced significantly via prime-boost vaccination with DNA-based or recombinant vaccinia(Tiantan) viral-based H5N1 vaccine candidates containing multi-structural antigens / 病毒学报

This study aimed to develop an effective experimental vaccine against highly pathogenic H5N1 Avian Influenza (HPAI) virus and to optimize their immunization programs. As reported previously, various DNA-based or recombinant vaccinia viral(Tiantan)-based H5N1 vaccine candidates, which containing a single cistronic construct (HAop, or NAop) or a bicistronic construct (HAop/M2 or NAop/M1) of H5N1 influenza virus (Anhui strain) were constructed and characterized in our lab. In this study, we further analysed the immunogenicity in mice of these vaccine candidates by various protocols (single or combined immunization). Our results showed that: comparing with immunization with DNA-based or rTTV-based H5N1 vaccine only, combined DNA-based with rTTV-based H5N1 vaccine immunization via prime-boost strategy enhanced immune response significantly against multi-H5N1 antigens detected by hemagglutination inhibition (HI) assay, NA- or M1- or M2-specific antibody detection, and micro-neutralizing antibody test and IFN-gamma ELISpot assay. Priming with DNA-based vaccine induced higher level of humoral response against HA or NA antigen than priming with rTTV-based vaccine; In contract, M1 and M2-specific antibody levels were higher among that of priming with rTTV -based vaccine. These findings provide a basis for further development of novel H5N1 vaccines and for the optimization of the immunization programs of combined multi-antigens vaccine candidates.

Clinical signs, diagnosis, and case reports of Vaccinia virus infections

Vaccinia virus is responsible for a zoonosis that usually affects cattle and human beings in Brazil. The initial clinical signs of the infection are focal red skin areas, fever, and general symptoms similar to those of a cold. Then, pustules and ulcerated lesions surrounded by edema and erythema follow, as well as local lymphadenopathy that can last for weeks. Cure and healing of the lesions occur over several weeks, leaving a typical scar in the skin of people and animals affected. The infection definitive diagnosis is made through morphological characterization of the virus by use of electron microscopy, followed by PCR for specific viral genes. Since 1963, circulating orthopoxviruses in infectious outbreaks in several regions of Brazil have been reported. Later, the etiological agent of those infections was characterized as samples of Vaccinia virus. In addition, the widespread use of those viruses in research laboratories and mass vaccination of militaries have contributed to increase the cases of those infections worldwide. Thus, several epidemiological and clinical studies are required, as well as studies of viral immunology, public health, and economic impact, because little is known about those Vaccinia virus outbreaks in Brazil.

Infecções humanas causadas por poxvirus relacionados ao vírus vaccinia no Brasil / Human infections caused by vaccinia-like poxviruses in Brazil

A partir de 1999, infecções humanas por Orthopoxvirus vem sendo observadas em pelo menos oito estados no país, com a formação de vesículas as quais evoluem para pústulas e crostas, principalmente nos membros superiores e face, após contacto com bovinos apresentando lesões semelhantes no úbere. Alem das lesões na pele, foram descritas nos pacientes reações ganglionares axilares por vezes dolorosas, febre, cefaléia, fadiga, desidratação, anorexia, sudorese, artralgia e mialgia, evoluindo o quadro por três a quatro semanas. Lesão vulvar bem como transmissão intrafamiliar foram igualmente descritas. Estudos moleculares demonstraram que os poxvirus identificados são geneticamente relacionados a amostras do vírus vaccinia utilizadas no passado, nas campanhas de vacinação. Especimens clínicos de 80 infecções humanas foram estudados no laboratório e a infecção por orthopoxvirus confirmada em 68 casos. São apresentadas lesões observadas em pacientes bem como discutidas as implicações desta zoonose no Brasil.

Since 1999, human infection caused by Orthopoxvirus has been observed in at least eight Brazilian states, with the presence of vesicles that evolve to pustules and crusts, especially on the hands, arms and face, after contact with cows showing comparable lesions on the udder. In addition to the skin lesions, there have been descriptions of patients with axillary ganglionic reactions that are sometimes painful, along with fever, headache, fatigue, dehydration, anorexia, sudoresis, arthralgia and muscle pain. The condition evolves over a three to four-week period. Vulvar lesions and transmission within families have also been described. Molecular studies have shown that the poxviruses identified are genetically related to vaccinia virus samples that were used in vaccination campaigns in the past. Clinical specimens from 80 human infections were studied in the laboratory, and orthopoxvirus infections were confirmed in 68 cases. The lesions observed in these patients are presented and the implications of this zoonosis in Brazil are discussed.

A Quantitative Comparison of Vaccinia Virus Shedding from Conventional Dressing Sites and Vaccination Lesions after Smallpox Vaccination / 감염과화학요법

BACKGROUND: We compared vaccinia virus shedding from the vaccine inoculation site (vaccination lesion) and two sites of a dressing covering the vaccination site; the outer surface of the semipermeable dressing (outer surface) and the inner surface of the semipermeable dressing, that is, the surface of a folded gauze under the semipermeable membrane (gauze surface) MATERIAL AND METHODS: Subjects were recruited from the volunteers who participated in a clinical trial of the efficacy of a 1:10 dilution of Lancy-Vaxina? (Berna Biotech, Switzerland), and were seen every 2-3 days (days 6, 8, 10, 13, and 15 after smallpox vaccination) for scheduled dressing changes. Swab specimens were obtained from the vaccination lesion, the outer surface, and the gauze surface. Quantitative viral culture assays for these specimens were done. RESULTS: Vaccinia virus was recovered from 126 (81%) of the 156 vaccination lesion samples collected from the 40 participants. A high virus titer was recovered from the vaccination lesion (geometric mean titer (log10)=3.91 on day 8). Of the 39 swab samples obtained from the gauze surface of the gauze, 16 (41%) were positive for virus. An intermediate titer was recovered from the gauze surface (geometric mean titer (log10)=0.91 on day 8). Of the 133 swab samples obtained from the outer surface, only one (0.8%) was positive for vaccinia. No virus was recovered from the outer surface on day 8. CONCLUSION: Our findings suggest that the addition of a semipermeable dressing to the folded gauze further reduces viral shedding and therefore increases protection.

A Quantitative Comparison of Vaccinia Virus Shedding from Conventional Dressing Sites and Vaccination Lesions after Smallpox Vaccination / 감염과화학요법

BACKGROUND: We compared vaccinia virus shedding from the vaccine inoculation site (vaccination lesion) and two sites of a dressing covering the vaccination site; the outer surface of the semipermeable dressing (outer surface) and the inner surface of the semipermeable dressing, that is, the surface of a folded gauze under the semipermeable membrane (gauze surface) MATERIAL AND METHODS: Subjects were recruited from the volunteers who participated in a clinical trial of the efficacy of a 1:10 dilution of Lancy-Vaxina? (Berna Biotech, Switzerland), and were seen every 2-3 days (days 6, 8, 10, 13, and 15 after smallpox vaccination) for scheduled dressing changes. Swab specimens were obtained from the vaccination lesion, the outer surface, and the gauze surface. Quantitative viral culture assays for these specimens were done. RESULTS: Vaccinia virus was recovered from 126 (81%) of the 156 vaccination lesion samples collected from the 40 participants. A high virus titer was recovered from the vaccination lesion (geometric mean titer (log10)=3.91 on day 8). Of the 39 swab samples obtained from the gauze surface of the gauze, 16 (41%) were positive for virus. An intermediate titer was recovered from the gauze surface (geometric mean titer (log10)=0.91 on day 8). Of the 133 swab samples obtained from the outer surface, only one (0.8%) was positive for vaccinia. No virus was recovered from the outer surface on day 8. CONCLUSION: Our findings suggest that the addition of a semipermeable dressing to the folded gauze further reduces viral shedding and therefore increases protection.

In vivo CTL Activity Induced by Prime-boost Vaccination using Recombinant Vaccinia Virus and DNA Vaccine Expressing Epitope Specific for CD8+ T Cells

DNA vaccine approaches have been applied to generate the protective immunity against various pathogens. However, the strength of immune responses induced by DNA vaccine is weak compared with conventional vaccines. The primeboost vaccination using DNA vaccine and other viral vector has been suggested as one way to circumvent this limitation. In the present study, we used in vivo CTL activity assay to determine CD8+ T cell-mediated immunity induced by prime-boost vaccination with a DNA vaccine (gB498-505 DNA) and recombinant vaccinia virus (VVgB498-505) expressing gB498-505 epitope peptide (SSIEFARL) of herpes simplex virus type 1 (HSV-1) glycoprotein B (gB). The most potent in vivo CTL activity was induced in mice received VVgB498-505 when both gB498-505 and VVgB498-505 were used at priming step and boosted with the alternative vaccine vector expressing whole antigen protein (gBw). Priming with vaccine vector expressing gBw followed by the use of VVgB498-505 at boosting step also induced strong in vivo CTL activity. We also examined in vivo CTL activity after immunization of mice with epitope-expressing vaccine vector at both priming and boosting step. Curiously, in vivo CTL activity mediated by CD8+ T cells was strongly elicited at memory stage when animals were primed with VVgB498-505 and subsequently boosted with gB498-505 DNA. Because the use of VVgB498-505 at priming followed by boosting with gB498-505 DNA induced most optimal immunity, these results suggest that the order of vaccine type should be carefully considered when used vaccine type expressing only epitope for prime-boost vaccination.

Enhancement of DNA vaccine-induced immune responses by a 72-bp element from SV40 enhancer / 中华医学杂志(英文版)

<p><b>BACKGROUND</b>Although DNA vaccine is considered as the next generation of vaccine, most DNA vaccine candidates are still suffering from the relatively weak immunogenicity despite the increased dosage of plasmid DNA administered. In order to enhance the immune responses elicited by a codon-optimized HIV gag DNA vaccine, a modified plasmid vector pDRVI1.0 and a booster immunization with replicating Tiantan vaccinia (RTV) strain expressing the same gene were employed.</p><p><b>METHODS</b>Vector pDRVI1.0 was constructed through inserting the 72-bp element from the SV40 enhancer, which was reported promoting nuclear transport of plasmid DNA, to the upstream of cytomegalovirus enhancer/promoter region of the plasmid vector pVR1012. Gene expression levels from expression plasmids based on pDRVI1.0 and pVR1012 were tested. Humoral and cellular immune responses induced by DNA vaccine alone or DNA prime-RTV boost regimen were determined in mice.</p><p><b>RESULTS</b>It was shown that the 72-bp element significantly enhanced the gene expression level in non-dividing cells. gag-specific humoral and cellular immune responses induced by DNA vaccination were both significantly improved, while the Th1/Th2 balance was not obviously affected by the 72-bp element. RTV boosting further significantly enhanced DNA vaccine-primed antibody and T cell responses in a Th1-biased manner.</p><p><b>CONCLUSIONS</b>The 72-bp SV40 enhancer element should be included in the DNA vaccine vector and RTV strain is a very efficient live vector for boosting immunization.</p>

La proteína viral VP6 de rotavirus coinmunoprecipita con HSC70 en células MA104 / The viral protein VP6 of rotavirus coinmunoprecipated with HSC70 in cells MA104

Introducción: los rotavirus son la principal causa de gastroenteritis en niños menores de cinco años. Hasta el momento se desconoce cómo entran estos virus a la célula huésped. La proteína de choque térmico, HSC70 se ha visto involucrada en la entrada del virus, sin embargo no se han relacionado bien todos los sitios de unión entre las proteínas virales del rotavirus y la HSC70. Objetivos: el propósito de este trabajo fue determinar cuáles proteínas virales del rotavirus son responsables de la unión de la proteína de choque térmico, HSC70. Material y métodos: se realizaron ensayos de coinmunoprecipitación utilizando lisados de células infectadas así como proteínas virales recombinantes. Estos ensayos se revelaron mediante SDS-PAGE y Western blot utilizando anticuerpos policlonales que reconocen las proteínas del rotavirus...

Anti-tumoral Effect of Recombinant Vaccinia Virus through US Guided Injection in a Rabbit Model of Hepatic VX2 Carcinoma

PURPOSE: The purpose of this study was to evaluate the anti-tumoral effect of recombinant vaccinia virus (rVV) (Thymidine kinase (-)/GM-CSF (+)) that was administered as a US guided intratumoral injection in a rabbit model of hepatic VX2 carcinoma. MATERIALS AND METHODS: VX2 carcinoma was implanted in the livers of 12 rabbits. US was performed at every week interval to detect hepatic mass after the implantation of VX2 carcinoma. The accurate tumor size and volume was evaluated with CT when the tumor was detected on US. US guided injection of rVV (109 pfu/ml) was preformed in three rabbits, intravenous injection of the same dose of rVV was done in two rabbits and another seven rabbits that were without any treatment were selected as a control group. We evaluated the change of the hepatic tumor size and extrahepatic metastasis on serial CT. Tumor specimens were harvested from rabbits that were killed at 8 weeks after VX2 implantation. These tissues were histoimmuopathologically compared to each other (the virus injection group and the control group). The differences between these groups were statistically assessed with student t-tests. RESULTS: Tumor growth was significantly suppressed in the US guided injection group compared with the intravenous injection group or the control group (p< 0.01). The intravenous injection group showed statistically significant tumor suppression compared to the control group (p< 0.01) until 2 weeks after virus injection. Quantification of the pulmonary metastatic nodules was performed in view of both the number and volume. The average number or volume of the pulmonary metastatic nodules in the US injection group was much smaller than these in the control group. Histopathologically, the tumors of the US guided injection group showed less extensive necrosis than those of the control group. Immunohistochemically, the tumor of the US guided injection group showed more prominent infiltration of CD4 (+) and CD8 (+) lymphocytes than did the tumors of the other group. CONCLUSION: rVV was markedly effective in suppressing hepatic tumor growth and extrahepatic metastasis in a rabbit model of hepatic VX2 carcinoma. US guided intra-tumoral injection was more effective than systemic intravenous injection.

Effect of Inositol-phosphatase on Fc Receptor-mediated Phagocytosis of Macrophages

BACKGROUND: Fc receptor-mediated phagocytosis is a complex process involving the activation of kinases and phosphatases. FcgammaRIIB has been known to transduces inhibitory signals through an immunoreceptor tyrosine-based inhibitory motif (ITIM) in cytoplasmic domains. In this study, we examined the involvement of inositol-phosphatase in the Fc receptor-mediated phagocytosis. METHODS: J774 cells were infected using vaccinia viral vector containing SH2 domain-containing inositol-phosphatase (SHIP) cDNA and stimulated with the sensitized sheep red blood cells. RESULTS: Stimulation of J774 cells induced the tyrosine phosphorylation of SHIP which was maximal at 5 minutes. Phosphatidylinositol-3 (PI-3) kinase inhibitor (wortmannin) inhibits J774 cell phagocytosis of sensitized sheep red blood cells in a dose-dependent manner. Heterologious expression of SHIP in J774 cells inhibits phagocytosis of sensitized sheep red blood cells in a dose-dependency manner, but catalytically dead mutants of SHIP has no effect on phagocytosis. CONCLUSION: These results strongly suggest that the active signals mediated by PI-3 kinase are opposed by inhibitory signals through SHIP in the regulation of Fc receptor-mediated phagocytosis.

CD8+ T Cell-mediated Immunity Induced by Heterologous Prime-boost Vaccination Based on DNA Vaccine and Recombinant Vaccinia Virus Expressing Epitope

BACKGROUND: DNA vaccination represents an anticipated approach for the control of numerous infectious diseases. Used alone, however, DNA vaccine is weak immunogen inferior to viral vectors. In recent, heterologous prime-boost vaccination leads DNA vaccines to practical reality. METHODS: We assessed prime-boost immunization strategies with a DNA vaccine (minigene, gB498-505 DNA) and recombinant vaccinia virus (vvgB498- 505) expressing epitope gB498-505 (SSIEFARL) of CD8+ T cells specific for glycoprotein B (gB) of herpes simplex virus (HSV). Animals were immunized primarily with gB498-505 epitope-expressing DNA vaccine/recombinant vaccinia virus and boosted with alternative vaccine type expressing entire Ag. RESULTS: In prime-boost protocols using vvgBw (recombinant vaccinia virus expressing entire Ag) and vvgB498-505, CD8+ T cell-mediated immunity was induced maximally at both acute and memory stages if primed with vvgBw and boosted with vvgB498-505 as evaluated by CTL activity, intracellular IFN-staining, and MHC class I tetramer staining. Similarly gB498-505 DNA prime-gBw DNA (DNA vaccine expressing entire Ag) boost immunization elicited the strongest CD8+ T cell responses in protocols based on DNA vaccine. However, the level of CD8+ T cell-mediated immunity induced with prime-boost vaccination using DNA vaccine expressing epitope or entire Ag was inferior to those based on vvgBw and vvgB498-505. Of particular interest CD8+ T cell-mediated immunity was optimally induced when vvgB498-505 was used to prime and gB DNA was used as alternative boost. Especially CD8+ T cell responses induced by such protocol was longer lasted than other protocols. CONCLUSION: These facts direct to search for the effective strategy to induce optimal CD8+ T cell-mediated immunity against cancer and viral infection.

Human vaccinia-like virus outbreaks in São Paulo and Goiás States, Brazil: virus detection, isolation and identification

A partir de outubro de 2001, o Instituto Adolfo Lutz tem recebido amostras de líquido vesicular e crostas de lesões de pele de pacientes das regiões do Vale do Paraíba, Estado de São Paulo e do Vale do São Patricio, Estado de Goiás. Os dados clínicos e epidemiológicos sugeriam que os surtos poderiam ser causados por Cowpox virus ou Vaccinia virus. A maioria dos pacientes era ordenhadores que tinham lesões vesicopustulares nas mãos, braços, antebraços e alguns na face. A análise por microscopia eletrônica direta (MED) detectou partículas com morfologia de vírus do gênero Orthopoxvirus em amostras de 49 (66,21%) pacientes dos 74 analisados. Os vírus foram isolados em membrana corioalantóide (MCA) de ovo embrionado de galinha e em linhagem celular Vero com confirmação por MED e PCR. Das 21 amostras de lesões submetidas ao PCR utilizando iniciadores para o gene da hemaglutinina (HA), 19 foram positivas. A digestão por enzima de restrição TaqI resultou em quatro fragmentos característicos de Vaccinia virus. A análise nucleotídica do seqüenciamento revelou que esses vírus apresentam 99,9% de similaridade com o Cantagalo virus, descrito como uma cepa de Vaccinia virus, havendo apenas alteração de um nucleotídeo na posição 616 com mudança de um aminoácido na proteína na posição 206. A análise filogenética mostrou que os isolados se agruparam junto aos Cantagalo virus, outras cepas de Vaccinia virus e Rabbitpox virus.

Effective Antitumor Activity of a Recombinant Vaccinia Virus Expressing Murine Interleukin 4

Vaccinia virus is the prototype orthopoxvirus that has been used as a vaccine strain for small pox. This virus has been used to express a variety of cellular and viral genes in mammalian cells at high levels. Interleukin-4 (IL-4) has been found to stimulate the proliferation of T cells and enhance the cytolytic activity of cytotoxic T lymphocytes. To test the immunotherapeutic potential of IL-4 delivered in vivo by poxvirus, a recombinant vaccinia virus expressing the murine IL-4 gene (RVVmIL-4) was constructed. A high level of IL-4 production was confirmed by infecting HeLa cells and measuring IL-4 in cell culture supernatant by ELISA. As a tumor model, two cell lines were used: the murine T leukemic line P388 and the murine breast cancer line TS/A. CDF1 mice were intraperitoneally inoculated with 1 x 105 cells of P388. Mice were injected at the same site with 5 x 105 PFU of recombinant vaccinia virus; first, 3 days after the injection of tumor cells and thereafter once every week for 3 weeks. Intraperitoneal injections of RVVmIL-4 significantly prolonged the survival time of mice inoculated with tumor cells. All mice injected with RVVmIL-4 remained alive for 30 days after the postinoculation of tumor cells, while 100% and 70% of the animals injected with saline or wild type vaccinia virus died, respectively. In another tumor model using TS/A, tumor was established by subcutaneously inoculating 2 x 105 tumor cells to BALB/c mice. After tumor formation was confirmed on day 4 in all mice, 5 x 106 PFU of RVVmIL-4 was inoculated subcutaneously three times, once every week for 3 weeks. The TS/A tumor was eradicated in two of the nine mice. Seven of the nine mice treated with RVVmIL-4 developed a tumor, but tumor growth was significantly delayed compared to those treated with saline or wild type vaccinia virus. These results indicate that recombinant vaccinia viruses may be used as a convenient tool for delivering immunomodulator genes to a variety of tumors.

Varíola, erradicaçäo e doenças infecciosas; editorial / Smallpox, eradication and infectious disease; editorial

O artigo descreve o estado atual dos conhecimentos epidemiológicos sobre a varíola e sua erradicaçäo. Ressalta três aspectos fundamentais: em 1§ lugar, o significado ecológico da varíola simiana e de outras eventuais infecçöes por ortopoxvírus no homem. Em 2§ lugar, a utilizaçäo do vírus da vacínia e suas conseqüências. Finalmente, a crença na erradicaçäo de outras doenças infecciosas, encarada sob o ponto de vista da teoria evolucionista em ecologia.

Vaccinia core transcription prevents in vitro depolymerization of polyribosomes in rabbit reticulocyte lysate

When a rabbit reticulocyte lysate is incubated in the presence of vaccina cores, protein synthesis is umpaired at the level of the initiation step and the polyribosomes are depolymerized. However, when the same system is coupled with virus transcription: a) protein synthesis is restored, b) the initiation step is not inhibited, and c) the polyribosomes are not disaggregated. A viral factor activated in the absence of virus transcription and not activated when RNA synthesis occurs may be involved in the early mechanism of protein synthesis inhibition by vaccinia virus

Three Cases of Kaposi's Varicelliform Eruption / 영남의대학술지

Kaposi's varicelliform eruption is a more or less generalized infection of the skin, and sometimes of internal organs, with herpes simplex, vaccinia or Coxsackie virus A 16; it appears in people who have atopic dermatitis or some other skin diseases. There is a predilection for infants and children, but no age-group is exempt. We reported 3 cases of Kaposi's varicelliform eruption with atopic dermatitis. They had characteristic multiple umbilicated vesicles on the sites that atopic dermatitis had been involved. A 14-year-old boy and a 2-month-old infant had fever. A 17-year-old boy had wide-spread vesicles. All three patients showed multinucleated giant cells on Tzanck test, that suggests herpes simplex virus origin. They were treated with acyclovir. Within 1 to 2 days after the initiation of the therapy, new lesions had ceased to develop. Most of the lesions were cleared in 7 days without complication.