Prevalence of Common Viral Skin Infections in Beach Volleyball Athletes.

Viral skin infections often affect the sports community. The aim of this study was to assess the rates, location sites, and seasons of appearance of common viral cutaneous diseases in beach volleyball athletes in Greece. Five hundred and forty-nine beach volleyball athletes participated in this study. The average age was 28.4 years. The viral infections were herpes simplex (type 1), molluscum contagiosum and warts. The measured parameters included: gender, age, the season when athletes may be more susceptible to infections and the location of infection in the body. Practicing information such as the number of training years, number of weekly trainings, and average hours of daily training was also recorded. Incidence rates correlated in relation to age: (a) warts (p < 0.001), molluscum contagiosum (p < 0.001), and herpes simplex (p = 0.001); (b) years of training: warts (p < 0.001), molluscum contagiosum (p < 0.001), and herpes simplex (p = 0.004); (c) average hours of daily training: molluscum contagiosum (p = 0.006) and herpes simplex (p < 0.010). The skin is the largest organ, and the risk of infection should not be underestimated. Prevention, early detection, recognition, and treatment are related to health and athletic performance, but also to the risk of transmission.

Functional Comparison of Molluscum Contagiosum Virus vFLIP MC159 with Murine Cytomegalovirus M36/vICA and M45/vIRA Proteins.

UNLABELLED: Molluscum contagiosum virus (MCV) gene MC159 encodes a viral FLICE inhibitory protein (vFLIP) that inhibits caspase-8-mediated apoptosis. The MC159 protein was also reported to inhibit programmed necrosis (necroptosis) and modulate NF-κB activation by interacting with RIP1 and NEMO. The importance of MC159 during MCV infection has remained unknown, as there is no system for propagation and genetic manipulation of this virus. Here we investigated the functions of MC159 during viral infection using murine cytomegalovirus (MCMV) as a surrogate virus. MC159 was inserted into the MCMV genome, replacing M36 or M45, two MCMV genes with functions similar to those reported for MC159. M36 encodes a viral inhibitor of caspase-8-induced apoptosis (vICA) and M45 a viral inhibitor of RIP activation (vIRA), which inhibits RIP1/RIP3-mediated necroptosis. The M45 protein also blocks NF-κB activation by interacting with NEMO. When expressed by MCMV, MC159 blocked tumor necrosis factor alpha (TNF-α)-induced apoptosis of infected cells and partially restored MCMV replication in macrophages. However, MC159 did not fully replace M45, as it did not inhibit necroptosis in murine cells, but it reduced TNF-α-induced necroptosis in MCMV-infected human HT-29 cells. MC159 also differed from M45 in its effect on NF-κB. While MCMV-encoded M45 blocked NF-κB activation by TNF-α and interleukin-1ß (IL-1ß), MC159 inhibited TNF-α- but not IL-1ß-induced NF-κB activation in infected mouse fibroblasts. These results indicate that the spectrum of MC159's functions differs depending on cell type and expression system and that a cell culture system for the propagation of MCV is needed to determine the biological relevance of presumed viral gene functions. IMPORTANCE: MCV is a human-pathogenic poxvirus that cannot be propagated in cell culture or laboratory animals. Therefore, MCV gene products have been studied predominantly in cells expressing individual viral genes. In this study, we analyzed the function of the MCV gene MC159 by expressing it from a different virus and comparing its functions to those of two well-characterized MCMV genes. In this system, MC159 displayed some but not all of the previously described functions, suggesting that the functions of a viral gene depend on the conditions under which it is expressed. Until a cell culture system for the analysis of MCV becomes available, it might be necessary to analyze MCV genes in several different systems to extrapolate their biological importance.

Modulation of NF-кB transcription factor activation by Molluscum contagiosum virus proteins.

Molluscum contagiosum virus is a human and animal dermatotropic pathogen, which causes a severe disease in immunocompromised individuals. MCV belongs to the Poxviridae family whose members exert immunomodulatory effects on the host antiviral response. Poxviruses interfere with cell signaling pathways that lead to the activation of nuclear factor кB, a pleiotropic transcription factor which is crucial for regulation of the immune response, the cell cycle and apoptosis. In resting cells, NF-κB is present in the cytoplasm, where it is associated with inhibitor κB. Upon stimulation by activators, such as proinflammatory cytokines and bacterial or viral products, the inhibitory protein undergoes phosphorylation and proteasomal degradation. NF-κB, in turn, translocates to the nucleus, where it regulates the transcription of various genes that are essential for processes mentioned above. Since poxviruses replicate exclusively in the cell cytoplasm, NF-кB became a good target for poxviral immunomodulation. MCV encodes various proteins which interfere with the signaling pathways that lead to the activation of NF-κB. Ligand inhibitor encoded by MCV, MC54, binds interleukin-18 and inhibits interferon-γ production. Other MCV proteins, MC159 and MC160, belong to intracellular inhibitors of NF-κB and are members of viral FLICE-inhibitory proteins (vFLIPs). MC159 protein encoded by MCV was shown to inhibit apoptosis of virus-infected cells. Such interactions serve immune evasion and are responsible for the persistence of MCV.

New method for the assessment of molluscum contagiosum virus infectivity.

Molluscum contagiosum virus (MCV), a poxvirus pathogenic for humans, replicates well in human skin in vivo, but not in vitro in standard monolayer cell cultures. In order to determine the nature of the replication deficiency in vitro, the MCV infection process in standard culture has to be studied step by step. The method described in this chapter uses luciferase and GFP reporter constructs to measure poxviral mRNA transcription activity in cells in standard culture infected with known quantities of MCV or vaccinia virus. Briefly, MCV isolated from human tissue specimen is quantitated by PCR and used to infect human HEK293 cells, selected for ease of transfection. The cells are subsequently transfected with a reporter plasmid encoding firefly luciferase gene under the control of a synthetic early/late poxviral promoter and a control plasmid encoding a renilla luciferase reporter under the control of a eukaryotic promoter. After 16 h, cells are harvested and tested for expression of luciferase. MCV genome units are quantitated by PCR targeting a genome area conserved between MCV and vaccinia virus. Using a GFP reporter plasmid, this method can be further used to infect a series of epithelial and fibroblast-type cell lines of human and animal origin to microscopically visualize MCV-infected cells, to assess late promoter activation, and, using these parameters, to optimize MCV infectivity and gene expression in more complex eukaryotic cell culture models.

Actitud expectante como tratamiento eficaz en un caso de múltiples lesiones por «Molluscum contagiosum» / Attitude expectant as effective treatment in Molluscum contagiosum

El molusco contagioso es una infección cutánea frecuente causada por un virus de la familia de los poxvirus, que afecta principalmente a los niños. La enfermedad puede transmitirse por contacto directo a través de la piel, por fómites contaminados o por autoinoculación. La infección se resuelve habitualmente de forma espontánea en pacientes inmunocompetentes, en un tiempo que puede oscilar entre meses y años. Existe un debate continuo sobre si se debe tratar activamente o mantener una actitud expectante(AU)

Molluscum contagiosum is a common skin infection, caused by a poxvirus, that affect mainly children. The disease can be transmitted by direct contact, fomites, or auto-inoculation. The infection will usually resolve within months or years in people with normal immunity. There has been a continous discussion about whether physicians should treat Molluscum contagiosum actively or not(AU)

Poxvirus MC160 protein utilizes multiple mechanisms to inhibit NF-kappaB activation mediated via components of the tumor necrosis factor receptor 1 signal transduction pathway.

Poxviruses express proteins that limit host immune responses to infection. For example, the molluscum contagiosum virus MC160 protein inhibits tumor necrosis factor alpha (TNF-alpha)-induced NF-kappaB activation. This event correlates with MC160-induced IKK1 protein degradation, suggesting a mechanism for the above-mentioned phenotype. IKK1 is stabilized when it associates with the cellular heat shock protein 90 (Hsp90). Here, Hsp90 overexpression restored IKK1 levels in MC160-expressing cells, suggesting that MC160 competitively interacted with Hsp90. In support of this, further investigation showed that a mutant MC160 protein comprising only the C-terminal region (C protein) immunoprecipitated with Hsp90. In contrast, Hsp90 IP with a mutant MC160 protein consisting of only the N-terminal tandem death effector domains (DEDs) (N protein) was dramatically decreased. Since cells expressing either the N or C mutant MC160 protein remained similarly resistant to TNF-alpha-induced NF-kappaB activation, the N mutant protein probably utilized a different mechanism for inhibiting NF-kappaB. One likely mechanism for the N protein lies in its association with the DED-containing procaspase-8 protein, a cellular apoptosis precursor protein that regulates NF-kappaB activation. Here, IPs revealed that this association relied on the presence of the DED-containing N terminus of the MC160 protein but not the C-terminal portion. These interactions appear to have relevance with NF-kappaB activation, since the expression of the viral DEDs strongly inhibited procaspase-8-mediated NF-kappaB activation, an event not substantially altered by the C protein. Thus, the MC160 protein utilizes at least two distinct mechanisms for impeding NF-kappaB activation, association with Hsp90 to result in IKK1 protein degradation or interaction with procaspase-8.

Targeting the retinoblastoma protein by MC007L, gene product of the molluscum contagiosum virus: detection of a novel virus-cell interaction by a member of the poxviruses.

The human pathogenic poxvirus molluscum contagiosum virus (MCV) is the causative agent of benign neoplasm, with worldwide incidence, characterized by intraepidermal hyperplasia and hypertrophy of cells. Here, we present evidence that the MC007L protein of MCV targets retinoblastoma protein (pRb) via a conserved LxCxE motif, which is present in many viral oncoproteins. The deregulation of the pRb pathway plays a central role in tumor pathogenesis. The oncoproteins of small DNA viruses contain amino acid sequences that bind to and inactivate pRb. Isolated expression of these oncoproteins induces apoptosis, cell proliferation, and cellular transformation. The MC007L gene displays no homology to other genes within the poxvirus family. The protein anchors into the outer mitochondrial membrane via an N-terminal mitochondrial targeting sequence. Through the LxCxE motifs, MC007L induces a cytosolic sequestration of pRb at mitochondrial membranes, leading to the inactivation of the protein by mislocalization. MC007L precipitates the endogenous pRb/E2F-1 complex. Moreover, MC007L is able to cooperate to transform primary rat kidney cells. The interaction between MC007L and pRb provides a novel mechanism by which a virus can perturb the cell cycle.

Specimens from a vesicular lesion caused by molluscum contagiosum virus produced a cytopathic effect in cell culture that mimicked that produced by herpes simplex virus.

Infection with molluscum contagiosum virus, a poxvirus, normally has a typical clinical presentation; therefore, laboratory confirmation is infrequently sought and the virus is rarely isolated in culture. As reported herein, viral culture of specimens from atypical lesions may produce an abortive infection in limited cell lines and a cytopathic effect suggestive of herpes simplex virus.

The MCV MC159 protein inhibits late, but not early, events of TNF-α-induced NF-κB activation.

Tumor necrosis factor (TNF-alpha) triggers biphasic activation of the NF-kappaB transcriptional regulator. This process consists of an initial, IkappaBalpha-mediated transient phase and a later, persistent phase dependent on IkappaBbeta degradation. To presumably interfere with the fulfillment of this immunity-associated event in cells infected with the molluscum contagiosum virus (MCV), this pathogen produces the intracellular MC159 protein. To define the mode of action of MC159, the impact of TNF-alpha on HEK 293T cells ectopically expressing the MC159 protein was examined. In this regard, TNF-alpha-induced expression of an NF-kappaB-regulated luciferase reporter gene was partially inhibited by the MC159 protein. This ability was attributed to blockage of the persistent phase of TNF-alpha-induced NF-kappaB activation for the following reasons: (1) the initial phase of NF-kappaB transcriptional activation was not affected by the MC159 protein; (2) the MC159 protein inhibited TNF-alpha-directed degradation of IkappaBbeta, but not IkappaBalpha; and (3) expression of the late NF-kappaB-regulated cell genes, TNF-alpha and CCL2, was decreased in the presence of the MC159 protein while transcription of the early NF-kappaB-regulated cell gene, CXCL1, was not altered. Previously reported MC159-RIP interactions appear to be irrelevant for the MC159 inhibitory function. In contrast, MC159-TRAF2 associations are more relevant for inhibitory function since mutant MC159 proteins unable to bind TRAF2 also cannot inhibit TNF-mediated NF-kappaB activation. In vivo, the MC159 protein may act to prolong virus survival by preventing the infected cell from responding to TNF-alpha, ultimately preventing the cellular production of proinflammatory and immunoattractant molecules.

Preparation and use of molluscum contagiosum virus from human tissue biopsy specimens.

Molluscum contagiosum virus (MCV) lesions are limited to the human epidermis and can persist for months, showing only weak signs of inflammation. Because a culture system has not yet been created to replicate MCV, this chapter describes how the virus can be isolated from patient specimens. From this material, we describe how MCV is purified and used for infection studies, electron microscopy, viral DNA extraction, and analyses of early mRNA synthesized by in vitro transcription of permeabilized virions. The complete MCV-1 genome has been sequenced, and a redundant MCV genome fragment library of MCV type 1 (available from American Type Culture Collection [ATCC]) is useful for the cloning and study of individual MCV genes.

The death effector domains (DEDs) of the molluscum contagiosum virus MC159 v-FLIP protein are not functionally interchangeable with each other or with the DEDs of caspase-8.

The molluscum contagiosum virus (MCV) MC159 protein contains two death effector domains (DEDs) that bind to the DEDs of caspase-8 and FADD and inhibit apoptosis. We constructed MC159 truncation mutants and found that the amino-terminal region before the first DED and nearly all the carboxyl terminus after the second DED were dispensable for the antiapoptotic activity of MC159. We also engineered tandem repeats of two identical MC159 DEDs, MC159 DEDs in the reverse orientation, and MC159-caspase-8 chimeras in which a DED of MC159 was replaced with the corresponding DED of caspase-8. Each of these constructs bound to caspase-8, but was unable to bind to FADD or block apoptosis. In addition, we constructed mutants containing only a single DED of MC159. These mutants bound to both FADD and caspase-8, but could not block apoptosis or the formation of death effector filaments. Thus, the DEDs of MC159 are not functionally interchangeable with each other or with those of caspase-8.

Molluscum contagiosum virus expresses late genes in primary human fibroblasts but does not produce infectious progeny.

Molluscum contagiosum virus (MCV), a member of the family Poxviridae, can be isolated from skin-lesion material of patients with molluscum contagiosum infection. MCV replicates efficiently in human keratinocytes in vivo but viral replication has not been observed in vitro in cell or tissue culture systems. We investigated a variety of established cell lines for productive MCV infection and found that: (i) MCV induces a typical cytopathogenic effect (CPE) only in human primary fibroblast cells (MRC5 ATCC-CCL 171 and HEPM ATCC-CRL 1486) but not in permanent eucaryotic cell lines of human or simian origin; (ii) UV irradiated MCV virions and heat inactivated virions do not induce a CPE; (iii) decreasing amounts of MCV viral DNA are detectable in infected human embryonic fibroblasts for at least 14 days post infection (p.i.); (iv) MCV early mRNAs are detectable by RT-PCR between one and two hours p.i. and remain detectable upon passaging of the infected cells; (iv) transcripts of viral late genes (mc095L and mc106L) are detectable by RT-PCR from day 5 p.i.; (v) MCV viral antigens can be detected on the surface of infected cells using human and rabbit polyclonal antisera against MCV from 24 h p.i.; (vi) a CPE can not be observed if cell free supernatants or homogenizates of MCV infected cells are used to try passage of the virus onto uninfected human embryonic fibroblasts, indicating that infectious viral progeny is not produced. This is the first report demonstrating long time persistence of MCV viral DNA and expression of late proteins in an in vitro cell culture system.

Selective inhibition of nuclear steroid receptor function by a protein from a human tumorigenic poxvirus.

The poxvirus molluscum contagiosum (MC) has a worldwide distribution and its prevalence is on the rise. Here we report that the MCV MC013L protein inhibits glucocorticoid and vitamin D, but not retinoid or estrogen, nuclear receptor transactivation. A direct interaction of MC013L with glucocorticoid and vitamin D receptor is supported by yeast two-hybrid, GST pull-down, and far Western blot analyses. Glucocorticoids act as potent inhibitors of keratinocyte proliferation, while vitamin D and retinoids promote and block terminal differentiation, respectively. Therefore, MC013L may promote efficient virus replication by blocking the differentiation of infected keratinocytes. MC013L may be the first member of a new class of poxvirus proteins that directly modulate nuclear receptor-mediated transcription.

Ultraviolet-induced cell death blocked by a selenoprotein from a human dermatotropic poxvirus.

Selenium, an essential trace element, is a component of prokaryotic and eukaryotic antioxidant proteins. A candidate selenoprotein homologous to glutathione peroxidase was deduced from the sequence of molluscum contagiosum, a poxvirus that causes persistent skin neoplasms in children and acquired immunodeficiency syndrome (AIDS) patients. Selenium was incorporated into this protein during biosynthesis, and a characteristic stem-loop structure near the end of the messenger RNA was required for alternative selenocysteine decoding of a potential UGA stop codon within the open reading frame. The selenoprotein protected human keratinocytes against cytotoxic effects of ultraviolet irradiation and hydrogen peroxide, providing a mechanism for a virus to defend itself against environmental stress.

Growth of molluscum contagiosum virus in a human foreskin xenograft model.

Molluscum contagiosum virus (MCV) is a common pathogen causing a troublesome skin condition in many immunocompetent individuals and a widespread, disfiguring affliction in many patients with AIDS. We have successfully infected human foreskin fragments with a patient-derived isolate of MCV. This was demonstrated by exposing the foreskin pieces to a patient lesion extract and implanting the tissue under the renal capsule of athymic mice. Light and electron microscopic examination of infected implants showed the presence of cytoplasmic inclusions containing typical poxvirus particles within 2-3 weeks of implantation. Replication of MCV was established by demonstrating that viable virus was required to produce the cytopathologic effects, and viral DNA replication was demonstrated by incorporation of bromodeoxyuridine into cytoplasmic inclusions. Four additional patient extracts (representing both described MCV types) were also used to successfully infect foreskin implants. A limited number of attempts to pass virus from one infected implant to another were not successful. This system is the most rapid and reproducible for growing MCV that has been reported to date.

Replication of molluscum contagiosum virus.

Molluscum contagiosum virus (MCV) infects preadolescent children and sexually active adults, frequently causing a disfiguring cutaneous disease in immunosuppressed HIV-infected individuals. The development of an efficacious treatment regime has been hampered by the failure to replicate the virus in the laboratory. Here we report the first demonstration of MCV replication in an experimental system. In human foreskin grafts to athymic mice, MCV induced morphological changes which were indistinguishable from patient biopsies and included the development and migration of molluscum bodies containing mature virions to the epidermal surface.