Painful skin lesions and squamous cell carcinoma predict overall mortality risk in organ transplant recipients: a cohort study.

BACKGROUND: Organ transplant recipients (OTRs) have a highly increased risk of cutaneous squamous cell carcinomas (SCCs). Sensation of pain in cutaneous tumours is a powerful patient-reported warning signal for invasive SCCs in OTRs. OBJECTIVES: To investigate the impact of painful vs. painless skin lesions and SCC vs. other skin lesions on the overall mortality risk in OTRs. METHODS: We followed 410 OTRs from 10 different centres across Europe and North America between 2008 and 2015. These patients had been enrolled in an earlier study to define clinically meaningful patient-reported warning signals predicting the presence of SCC, and had been included if they had a lesion requiring histological diagnosis. Cumulative incidences of overall mortality were calculated using Kaplan-Meier survival analysis, and risk factors were analysed with Cox proportional hazard analysis. RESULTS: There was an increased overall mortality risk in OTRs who reported painful vs. painless skin lesions, with a hazard ratio (HR) of 1·6 [95% confidence interval (CI) 0·97-2·7], adjusted for age, sex and other relevant factors. There was also an increased overall mortality risk in OTRs diagnosed with SCC compared with other skin lesions, with an adjusted HR of 1·7 (95% CI 1·0-2·8). Mortality due to internal malignancies and systemic infections appeared to prevail in OTRs with SCC. CONCLUSIONS: We suggest that OTRs have an increased overall mortality risk if they develop painful skin lesions or are diagnosed with cutaneous SCC.

Pain identifies squamous cell carcinoma in organ transplant recipients: the SCOPE-ITSCC PAIN study.

Organ transplant recipients (OTR) are at high risk for cutaneous squamous cell carcinomas (SCC). We aimed to define clinically meaningful patient-reported warning signals predicting the presence of invasive SCC.Patient-reported signs and symptoms of 812 consecutively biopsied skin lesions from 410 OTR were determined by questionnaire and physical examination and related to the subsequent biopsy-proven diagnoses. Receiver-operating characteristic (ROC) curve analyses were used as a measure of distinction between the predictive values of patient-reported warning signals and the occurrence of SCC. Pain was an independent predictive patient-reported warning signal for a biopsy-proven invasive SCC. The odds ratio from the fully adjusted model predicting SCC was 4.4(95% confidence interval: 2.4­8.2). Higher scores on the visual analog scale (VAS) for pain were associated witha greater likelihood for the presence of SCC compared to none or mild pain. The for scores on the VAS from 1to 3, 4 to 6 and 7 to 10 were 4.9 (2.2­10.5), 2.3 (0.96­5.5)and 16.5 (3.6­75.8), respectively. Pain is the most powerful patient-reported warning signal for invasive cutaneous SCC in OTR. Empowerment of patients by education could accelerate diagnosis and treatment of cutaneous SCC.

Laminin 332 deposition is diminished in irradiated skin in an animal model of combined radiation and wound skin injury.

Skin exposure to ionizing radiation affects the normal wound healing process and greatly impacts the prognosis of affected individuals. We investigated the effect of ionizing radiation on wound healing in a rat model of combined radiation and wound skin injury. Using a soft X-ray beam, a single dose of ionizing radiation (10-40 Gy) was delivered to the skin without significant exposure to internal organs. At 1 h postirradiation, two skin wounds were made on the back of each rat. Control and experimental animals were euthanized at 3, 7, 14, 21 and 30 days postirradiation. The wound areas were measured, and tissue samples were evaluated for laminin 332 and matrix metalloproteinase (MMP) 2 expression. Our results clearly demonstrate that radiation exposure significantly delayed wound healing in a dose-related manner. Evaluation of irradiated and wounded skin showed decreased deposition of laminin 332 protein in the epidermal basement membrane together with an elevated expression of all three laminin 332 genes within 3 days postirradiation. The elevated laminin 332 gene expression was paralleled by an elevated gene and protein expression of MMP2, suggesting that the reduced amount of laminin 332 in irradiated skin is due to an imbalance between laminin 332 secretion and its accelerated processing by elevated tissue metalloproteinases. Western blot analysis of cultured rat keratinocytes showed decreased laminin 332 deposition by irradiated cells, and incubation of irradiated keratinocytes with MMP inhibitor significantly increased the amount of deposited laminin 332. Furthermore, irradiated keratinocytes exhibited a longer time to close an artificial wound, and this delay was partially corrected by seeding keratinocytes on laminin 332-coated plates. These data strongly suggest that laminin 332 deposition is inhibited by ionizing radiation and, in combination with slower keratinocyte migration, can contribute to the delayed wound healing of irradiated skin.

Cytokines and Langerhans cells in allergic contact dermatitis.

Contact hypersensitivity (CHS) is a dendritic cell (DC)-dependent T-cell mediated cutaneous inflammatory reaction elicited by epicutaneous exposure to reactive chemicals, known as haptens, from cosmetic products or through environmental and occupational exposures. The best-studied haptens are low molecular weight chemicals (<1,000) that bind discrete amino acid residues on self or exogenous proteins/peptides in the skin and become immunogenic. Clinically, CHS typically occurs as a delayed type of allergic contact dermatitis. Haptens penetrate the skin and bind to self proteins to form complete antigens which are taken by antigen presenting cells to start a cascade of actions resulting in a delayed hypersensitivity reaction. Larger molecules such as proteins induce response involving the humoral immune system. The environment at the time of antigen presentation affects the innate immune system which in turn influences the expression of CHS. The subsequent immunologic response (or lack thereof) is a result of complex interaction between both the innate and the adaptive immune systems. This interaction results in either an inflammatory immune response or tolerance.

A migratory population of skin-derived dendritic cells expresses CXCR5, responds to B lymphocyte chemoattractant in vitro, and co-localizes to B cell zones in lymph nodes in vivo.

Chemokine receptors on dendritic cells (DC) and chemokines within lymph nodes (LN) contribute to trafficking of DC to appropriate sites within the LN. Here we show that DC that have migrated out of skin ex vivo (migratory DC, migDC) express 50-fold more CXCR5 mRNA than fresh Langerhans cells and migrate in response to B lymphocyte chemoattractant (BLC) in vitro. When injected into the footpad of mice, migDC emigrate to regional LN where up to 40% are found in B cell zones. By contrast, murine bone marrow-derived DC display 14-fold less CXCR5, do not migrate to BLC in vitro, and migrate strictly to T cell zones in LN. We propose that activated skin DC utilize CXCR5 and BLC as a possible mechanism to home to B cell zones of LN, where they may have direct effects on B cells.

Demonstration and functional analysis of IL-10 receptors in human epidermal cells: decreased expression in psoriatic skin, down-modulation by IL-8, and up-regulation by an antipsoriatic glucocorticosteroid in normal cultured keratinocytes.

The chronic skin disease psoriasis is characterized by epidermal hyperproliferation and inflammation. The exact etiology of the disease is still unknown. At the molecular level, overexpression of growth factors and proinflammatory cytokines such as IL-8 and the corresponding receptor has been described in psoriatic plaques. On the other hand, the loss of inhibitory control mechanisms is involved in the pathogenesis of the disease, as exemplified by the reduced mRNA levels for the cell cycle inhibitor p53 found in lesional skin. Here we extend these findings to a cytokine with negative regulatory functions, IL-10. Only under certain conditions are human keratinocytes able to synthesize IL-10. In skin, pathological overexpression of IL-10 was described om atopic dermatitis. IL-10 exerts its effects via a specific receptor (IL-10R). We show here for the first time the presence and functionality of IL-10R in epidermal cells and its dramatically decreased expression in acute exanthematic psoriatic epidermis by in vitro and in situ binding studies. These results were substantiated using semiquantitative reverse transcriptase-PCR, demonstrating decreased expression of the IL-10R gene in psoriatic skin, its down-modulation by the proinflammatory cytokine IL-8, and its pharmacological induction in cultured cells. Biological responsiveness of epidermal cells toward IL-10 could also be demonstrated by a reduction of the growth rate and inhibition of IFN-gamma-induced HLA-DR expression. Our results provide the first evidence for a role of the IL-10R gene in the homeostasis of the epidermis and substantiate the concept of a loss of negative regulatory peptides as a step in the eruption of psoriasis.

The interleukin-8 receptor: a potential target for antipsoriatic therapy?

Interleukin-8 is assumed to play a central role in the pathogenesis of psoriasis. Since an increased expression of the interleukin-8 receptor has been observed both in polymorphonuclear leukocytes and in affected psoriatic epidermis, we were interested in whether the interleukin-8 receptor could be a molecular target of antipsoriatic compounds. Cyclosporine, calcitriol, calcipotriol or dithranol caused a dose-dependent decrease in interleukin-8 binding to cultured human keratinocytes, while interleukin-8 binding to granulocytes was not affected. In addition, the interleukin-8-induced human leukocyte antigen-DR (HLA-DR) expression of keratinocytes was nearly completely blocked by treatment of the cells with these substances. The inhibition of the keratinocyte interleukin-8 receptor and its function by antipsoriatic drugs may contribute to their therapeutic action.