FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2002509969> ?p ?o ?g. }

• W2002509969 endingPage "S79" @default.
• W2002509969 startingPage "S71" @default.
• W2002509969 abstract "We found distinct patterns of intercellular adhesion molecule-1 (ICAM-1) expression in three diseases characterized by interface dermatitis with mononuclear infiltrates and keratinocyte cytotoxicity: lichen planus (LP), subacute cutaneous lupus erythematosus (SCLE), and erythema multiforme (EM). In LP, basal keratinocytes show strong ICAM-1 expression associated with a dermal infiltrate, but ICAM-1 expression in the rest of the epidermis is minimal. In SCLE, there is diffuse epidermal ICAM-1 expression, sometimes with accentuation on the cell surface of basal cells. In EM, there is strong basal cell expression of ICAM-1 with evident cell surface accentuation, and also pockets of suprabasal expression with cell surface accentuation. These patterns are associated with different factors that trigger cytokine release in different locations. Both tumor necrosis factor-alpha (TNF-alpha) and interferon-gamma (IFN-gamma) produce greater relative ICAM-1 expression in basal keratinocytes than in more differentiated keratinocytes. In LP, the pure basal keratinocyte expression of ICAM-1 appears to be caused by cytokines, predominantly IFN-gamma, released by dermal lymphocytes. The pattern of ICAM-1 in SCLE corresponds to the pattern induced by ultraviolet radiation (UVR): diffuse epidermal ICAM-1 expression, sometimes with basal accentuation. Some individuals are responders to TNF-alpha or UVR, showing high levels of ICAM-1 expression following UVR or TNF-alpha stimulation in vitro or UVR stimulation in vivo. We propose that the pattern of ICAM-1 induction in SCLE is dependent on UVR-induced TNF-alpha release. EM is associated with apparent latent Herpes simplex virus, and Herpes simplex virus (HSV)-infected keratinocytes show enhanced ICAM-1 expression. We propose that in EM suprabasal ICAM-1 expression may be induced directly by HSV infection or indirectly through TNF-alpha release induced by HSV reactivation. Induction of ICAM-1 within the epidermis is stratified and individually variable. Basal keratinocytes show maximal induction of ICAM-1 expression due to innate sensitivity to TNF and IFN-gamma stimulation, and to location adjacent to dermal sources of cytokines. Suprabasal ICAM-1 can be induced by UVR and epidermal TNF-alpha release, and by factors such as viral infection. Different triggers of cytokine release and adhesion molecule induction may influence the different patterns of inflammation seen in diverse inflammatory skin diseases." @default.
• W2002509969 created "2016-06-24" @default.
• W2002509969 creator A5015021082 @default.
• W2002509969 creator A5020460578 @default.
• W2002509969 creator A5052642929 @default.
• W2002509969 creator A5076080057 @default.
• W2002509969 creator A5086116464 @default.
• W2002509969 date "1995-07-01" @default.
• W2002509969 modified "2023-09-26" @default.
• W2002509969 title "In Three Types of Interface Dermatitis, Different Patterns of Expression of Intercellular Adhesion Molecule-1 (ICAM-1) Indicate Different Triggers of Disease" @default.
• W2002509969 cites W1578438134 @default.
• W2002509969 cites W1981071508 @default.
• W2002509969 cites W1983888957 @default.
• W2002509969 cites W1988019232 @default.
• W2002509969 cites W1991144256 @default.
• W2002509969 cites W1992177727 @default.
• W2002509969 cites W1992635317 @default.
• W2002509969 cites W1993260002 @default.
• W2002509969 cites W1997255839 @default.
• W2002509969 cites W1999109761 @default.
• W2002509969 cites W2000878094 @default.
• W2002509969 cites W2003410806 @default.
• W2002509969 cites W2004454060 @default.
• W2002509969 cites W2006551110 @default.
• W2002509969 cites W2007027096 @default.
• W2002509969 cites W2017868450 @default.
• W2002509969 cites W2033123969 @default.
• W2002509969 cites W2033831968 @default.
• W2002509969 cites W2036064993 @default.
• W2002509969 cites W2036732941 @default.
• W2002509969 cites W2037532439 @default.
• W2002509969 cites W2037933673 @default.
• W2002509969 cites W2038467910 @default.
• W2002509969 cites W2047075585 @default.
• W2002509969 cites W2059098862 @default.
• W2002509969 cites W2060698033 @default.
• W2002509969 cites W2062878033 @default.
• W2002509969 cites W2078880063 @default.
• W2002509969 cites W2079041842 @default.
• W2002509969 cites W2092830320 @default.
• W2002509969 cites W2117837558 @default.
• W2002509969 cites W2122334788 @default.
• W2002509969 cites W2165239282 @default.
• W2002509969 cites W2331660978 @default.
• W2002509969 cites W2333465789 @default.
• W2002509969 cites W2414592602 @default.
• W2002509969 doi "https://doi.org/10.1038/jid.1995.15" @default.
• W2002509969 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/7616001" @default.
• W2002509969 hasPublicationYear "1995" @default.
• W2002509969 type Work @default.
• W2002509969 sameAs 2002509969 @default.
• W2002509969 citedByCount "45" @default.
• W2002509969 countsByYear W20025099692012 @default.
• W2002509969 countsByYear W20025099692013 @default.
• W2002509969 countsByYear W20025099692014 @default.
• W2002509969 countsByYear W20025099692015 @default.
• W2002509969 countsByYear W20025099692017 @default.
• W2002509969 countsByYear W20025099692019 @default.
• W2002509969 countsByYear W20025099692021 @default.
• W2002509969 crossrefType "journal-article" @default.
• W2002509969 hasAuthorship W2002509969A5015021082 @default.
• W2002509969 hasAuthorship W2002509969A5020460578 @default.
• W2002509969 hasAuthorship W2002509969A5052642929 @default.
• W2002509969 hasAuthorship W2002509969A5076080057 @default.
• W2002509969 hasAuthorship W2002509969A5086116464 @default.
• W2002509969 hasBestOaLocation W20025099691 @default.
• W2002509969 hasConcept C105702510 @default.
• W2002509969 hasConcept C134018914 @default.
• W2002509969 hasConcept C142724271 @default.
• W2002509969 hasConcept C16224149 @default.
• W2002509969 hasConcept C17991360 @default.
• W2002509969 hasConcept C185946421 @default.
• W2002509969 hasConcept C202751555 @default.
• W2002509969 hasConcept C203014093 @default.
• W2002509969 hasConcept C2522874641 @default.
• W2002509969 hasConcept C2776458125 @default.
• W2002509969 hasConcept C2777074287 @default.
• W2002509969 hasConcept C2778024521 @default.
• W2002509969 hasConcept C2778690821 @default.
• W2002509969 hasConcept C2779306644 @default.
• W2002509969 hasConcept C2780564577 @default.
• W2002509969 hasConcept C2781196997 @default.
• W2002509969 hasConcept C2909375385 @default.
• W2002509969 hasConcept C55493867 @default.
• W2002509969 hasConcept C71924100 @default.
• W2002509969 hasConcept C86803240 @default.
• W2002509969 hasConceptScore W2002509969C105702510 @default.
• W2002509969 hasConceptScore W2002509969C134018914 @default.
• W2002509969 hasConceptScore W2002509969C142724271 @default.
• W2002509969 hasConceptScore W2002509969C16224149 @default.
• W2002509969 hasConceptScore W2002509969C17991360 @default.
• W2002509969 hasConceptScore W2002509969C185946421 @default.
• W2002509969 hasConceptScore W2002509969C202751555 @default.
• W2002509969 hasConceptScore W2002509969C203014093 @default.
• W2002509969 hasConceptScore W2002509969C2522874641 @default.
• W2002509969 hasConceptScore W2002509969C2776458125 @default.
• W2002509969 hasConceptScore W2002509969C2777074287 @default.
• W2002509969 hasConceptScore W2002509969C2778024521 @default.

• next