Erythema multiforme follows administration of several drugs or infection with various agents, including herpes simplex virus, a syndrome designated herpes simplex virus associated erythema multiforme. Lesional skin from 21 of 26 (81%) herpes simplex virus associated erythema multiforme patients was positive for herpes simplex virus gene expression as evidenced by reverse transcriptase-polymerase chain reaction with primers for DNA polymerase and/or immunohistochemistry with DNA polymerase antibody. Reverse transcriptase-polymerase chain reaction and immunohistochemistry studies indicated that herpes simplex virus associated erythema multiforme lesional skin from 16 of 21 (76%) DNA polymerase positive herpes simplex virus associated erythema multiforme patients was also positive for interferon-gamma, a product of T cells involved in delayed-type hypersensitivity (p < 0. 0001 by Pearson correlation coefficient). Interferon-gamma signals were in infiltrating mononuclear cells and in intercellular spaces within inflammatory sites in the epidermis and at the epidermis/dermis junction. Herpes simplex virus lesional skin was also positive for DNA polymerase [five of five (100%)] and interferon-gamma [four of five (80%)], but lesional skin from drug-induced erythema multiforme patients was negative. Lesional herpes simplex virus associated erythema multiforme keratinocytes also stained with antibody to transforming growth factor-beta [14 of 23 (61%)] and cyclin-dependent kinase inhibitor waf [12 of 18 (67%)]. Staining was also seen in keratinocytes from herpes simplex virus lesions [five of five (100%)], but not in normal skin. By contrast, staining with antibody to tumor necrosis factor-alpha, another pro-inflammatory cytokine, was seen in seven of 11 (64%) drug-induced erythema multiforme patients, but not in herpes simplex virus or herpes simplex virus associated erythema multiforme patients, and lesional keratinocytes from drug-induced erythema multiforme patients were negative for transforming growth factor-beta and cyclin-dependent kinase inhibitor waf. We interpret the data to indicate that herpes simplex virus associated erythema multiforme pathology includes a delayed-type hypersensitivity component and is mechanistically distinct from drug-induced erythema multiforme.
A common form of erythema multiforme, herpes-associated erythema multiforme (HAEM), occurs following infection with herpes simplex virus (HSV). Here we report that HSV gene expression and the qualitative nature of the virus-specific T-cell responses are related to HAEM lesion development. Skin from HAEM lesions and 1-3 months healed HAEM lesional skin were positive for the viral DNA polymerase gene (Pol) by polymerase chain reaction. However, gene expression as determined by immunohistochemistry with Pol-specific antibody was seen only in HAEM lesions, suggesting that lesion development is associated with Pol gene expression. Similar HSV-specific T-cell lymphoproliferative responses were seen in peripheral blood mononuclear cells (PBMCs) from patients with acute or healed HAEM lesions or HSV lesions and from HSV-seropositive patients with unrelated inflammatory diseases. However, the T-cell receptor variable (V beta) chain repertoire of HSV-stimulated PBMCs obtained from HAEM lesions was altered; the prevalence of some families of variable chain (namely V beta 16 and V beta 19) was reduced, whereas the prevalence of others was increased (namely V beta 2 and V beta 7). V beta 2 cells were found in HAEM lesional skin positive for Pol antigen, suggesting that these cells home to viral antigen-positive skin.
Skin from acute and healed herpes simplex virus or herpes simplex virus-associated erythema multiforme (HAEM) lesions was examined by polymerase chain reaction with primers for DNA polymerase, ICP8, thymidine kinase (5' end of herpes simplex virus genome), and ICP27 (3' end of herpes simplex virus genome). The primers were herpes simplex virus specific and equally sensitive. The four herpes simplex virus genes were seen in acute herpes simplex virus lesions, but except for one patient, only polymerase (or polymerase and ICP8) were seen in 7-d healed lesional skin. Herpes simplex virus DNA was not seen 1-1.5 mo after healing. HAEM skins from 18 of 24 patients (75%) were positive for polymerase DNA and four of 24 (17%) were also positive for ICP8 or thymidine kinase DNA. Only one tissue (4%) was positive for polymerase, ICP8, and ICP27 DNA. Skin from healed HAEM lesions was still polymerase DNA positive 1-3 mo after lesion resolution. The polymerase DNA signal was in the basal and spinous cell layers of the epidermis and in the outer root sheath of the hair follicle. Polymerase RNA was identified by reverse transcriptase polymerase chain reaction in skin from acute, but not healed polymerase DNA positive HAEM lesions, suggesting that polymerase expression is associated with HAEM lesion development.
Erythema multiforme (EM) is a polymorphic, often recurring eruption caused by exposure to medication or various infections, notably herpes simplex virus (HSV). Understanding the pathogenesis of HSV-associated EM (HAEM) is essential for patient management. We suggest that HAEM results from the combination of viropathic effects mediated by HSV proteins, notably DNA polymerase (Pol), and an immunological reaction to viral antigens. Presumably, viral DNA and proteins ingested by macrophages at HSV lesion sites undergo fragmentation and processing for presentation to T cells with HSV memory. HSV DNA is deposited on the skin, where it is expressed. Activated T cells are recruited to the skin site of Pol expression, directly or indirectly resulting in the generation of an inflammatory cascade. Factors potentially involved in the incidence of recurrences, lesion severity and anatomical localization include the identity of the deposited HSV genes, cutaneous capillary size, degree of vasoconstriction and ambient temperature. Evidence in support of this interpretation is reviewed.
Background: Erythema multiforme is a polymorphous self-limited, often recurrent eruption that can follow herpes simplex virus (HSV) infection, hereby designated HAEM. Studies of relatively large groups of patients during one recurrent episode indicated that HAEM pathogenesis is associated with HSV gene expression, Vβ2 T cell infiltration of lesional skin and altered T cell receptor (TCR) repertoire usage by HSV-stimulated peripheral blood mononuclear cells (PBMC). However, HAEM recurrences are not always preceded by overt HSV eruptions and virus cannot be isolated from HAEM lesional skin. Therefore, it is unknown whether all HAEM recurrences experienced by a given patient are HSV related. Objective: The studies described in this report were designed to examine whether all HAEM recurrences experienced by a given patient are HSV related. Methods: We describe one patient who was studied longitudinally during 6 HAEM recurrences and in the intervening lesion-free periods. Lesional skin from all HAEM episodes was studied for HSV gene expression and infiltration by Vβ2 and Vβ3 T cells. PBMC obtained at these times were assayed for TCR repertoire usage upon HSV stimulation. Results: Lesional skin from all HAEM episodes was positive for HSV gene expression (RNA and protein) as well as Vβ2 T cell infiltration. HSV-stimulated PBMC obtained at these times had an altered TCR repertoire characterized by a predominance of Vβ2 cells. The duration of viral gene expression, Vβ2 cell infiltration and altered TCR repertoire usage correlated with the duration of clinical symptoms. Conclusion: The data suggest that HSV and a virus-specific immunopathology component are involved in the causation of all HAEM episodes experienced by the patient.
Our results demonstrate pattern and frequency of MCM5 expression in various skin diseases and suggest that MCM5 may be a useful marker to detect cell proliferation in skin tissue sections.
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