Microextração em fase sólida de 6-pentil-α-pirona produzida por fermentação em estado sólido

The common species C adenoviruses (serotypes Ad1, Ad2, Ad5, and Ad6) infect more than 80% of the human population early in life. Following primary infection, the virus can establish an asymptomatic persistent infection in which infectious virions are shed in feces for several years. The probable source of persistent virus is mucosa-associated lymphoid tissue, although the molecular details of persistence or latency of adenovirus are currently unknown. In this study, a sensitive real-time PCR assay was developed to quantitate species C adenovirus DNA in human tissues removed for routine tonsillectomy or adenoidectomy. Using this assay, species C DNA was detected in Ficoll-purified lymphocytes from 33 of 42 tissue specimens tested (79%). The levels varied from fewer than 10 to greater than 2 ؋ 10 6 copies of the adenovirus genome/10 7 cells, depending on the donor. DNA from serotypes Ad1, Ad2, and Ad5 was detected, while the rarer serotype Ad6 was not. When analyzed as a function of donor age, the highest levels of adenovirus genomes were found among the youngest donors. Antibody-coated magnetic beads were used to purify lymphocytes into subpopulations and determine whether viral DNA could be enriched within any purified subpopulations. Separation of T cells (CD4/8-expressing and/or CD3-expressing cells) enriched viral DNA in each of nine donors tested. In contrast, B-cell purification (CD19-expressing cells) invariably depleted or eliminated viral DNA. Despite the frequent finding of significant quantities of adenovirus DNA in tonsil and adenoid tissues, infectious virus was rarely present, as measured by coculture with permissive cells. These findings suggest that human mucosal T lymphocytes may harbor species C adenoviruses in a quiescent, perhaps latent form.The common adenovirus serotypes of species C (Ad1, Ad2, Ad5, and Ad6) cause roughly 5% of symptomatic upper respiratory tract (5) and 15% of lower respiratory tract (3) infections in children younger than 5 years.

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The 19-kilodalton adenovirus E1B transforming protein inhibits programmed cell death and prevents cytolysis by tumor necrosis factor alpha.

White¹,

Sabbatini²,

Debbas³

et al. 1992

Mol. Cell. Biol.

332

265

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The adenovirus E1A and E1B proteins are required for transformation of primary rodent cells. When expressed in the absence of the 19,000-dalton (19K) E1B protein, however, the E1A proteins are acutely cytotoxic and induce host cell chromosomal DNA fragmentation and cytolysis, analogous to cells undergoing programmed cell death (apoptosis). E1A alone can efficiently initiate the formation of foci which subsequently undergo abortive transformation whereby stimulation of cell growth is counteracted by continual cell death. Cell lines with an immortalized growth potential eventually arise with low frequency. Coexpression of the E1B 19K protein with E1A is sufficient to overcome abortive transformation to produce high-frequency transformation. Like E1A, the tumoricidal cytokine tumor necrosis factor alpha (TNF-alpha) evokes a programmed cell death response in many tumor cell lines by inducing DNA fragmentation and cytolysis. Expression of the E1B 19K protein by viral infection, by transient expression, or in transformed cells completely and specifically blocks this TNF-alpha-induced DNA fragmentation and cell death. Cosegregation of 19K protein transforming activity with protection from TNF-alpha-mediated cytolysis demonstrates that both activities are likely the consequence of the same function of the protein. Therefore, we propose that by suppressing an intrinsic cell death mechanism activated by TNF-alpha or E1A, the E1B 19K protein enhances the transforming activity of E1A and enables adenovirus to evade TNF-alpha-dependent immune surveillance.

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Latent Species C Adenoviruses in Human Tonsil Tissues

Garnett

Talekar

Mahr

et al. 2009

J Virol

183

202

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A nonsecretable cell surface mutant of tumor necrosis factor (TNF) kills by cell-to-cell contact

Perez¹,

Albert²,

DeFay³

et al. 1990

Cell

386

204

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A 14,700 MW protein from the E3 region of adenovirus inhibits cytolysis by tumor necrosis factor

Gooding

Elmore

Tollefson

et al. 1988

Cell

226

138

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Linda R. Gooding

Prevalence and Quantitation of Species C Adenovirus DNA in Human Mucosal Lymphocytes

The 19-kilodalton adenovirus E1B transforming protein inhibits programmed cell death and prevents cytolysis by tumor necrosis factor alpha.

Latent Species C Adenoviruses in Human Tonsil Tissues

A nonsecretable cell surface mutant of tumor necrosis factor (TNF) kills by cell-to-cell contact

A 14,700 MW protein from the E3 region of adenovirus inhibits cytolysis by tumor necrosis factor

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