Vitamin D protects keratinocytes from deleterious effects of ionizing radiation

Background  Radiotherapy can induce severe skin responses that may limit the clinically acceptable radiation dose. The responses include erythema, dry and moist desquamation, erosions and dermal–epidermal blister formation. These effects reflect injury to, and reproductive failure of, epidermal cells and may also be due to dysregulation of the tissue remodelling process caused by excessive proteolytic activity. Calcitriol, the hormonally active vitamin D metabolite, protects keratinocytes from programmed cell death induced by various noxious stimuli.
Objective  To examine whether calcitriol protects proliferating keratinocytes from the damage inflicted by ionizing radiation under conditions similar to those employed during radiotherapy.
Methods  Autonomously proliferating HaCaT keratinocytes, used as a model for basal layer keratinocytes, were irradiated using a linear accelerator. Cell death was monitored by vital staining, executioner caspase activation, lactic dehydrogenase release and colony formation assay. Induction of matrix metalloproteinase-9 was assessed by gelatinase activity assay and mRNA determination. Levels of specific proteins were determined by immunoblotting.
Results  Treatment with calcitriol inhibited both caspase-dependent and -independent programmed cell death occurring within 48 h of irradiation and increased the colony formation capacity of irradiated cells. These effects may be attributable to inhibition of the c-Jun NH₂-terminal kinase cascade and to upregulation of the truncated antiapoptotic isoform of p63. Treatment with the hormone also attenuated radiation-induced increase in matrix metalloproteinase-9 protein and mRNA levels.
Conclusions  The results of this study suggest that active vitamin D derivatives may attenuate cell death and excessive proteolytic activity in the epidermis due to exposure to ionizing radiation in the course of radiotherapy.     

Nerve growth factor protects human keratinocytes from ultraviolet-B-induced apoptosis

Ultraviolet radiation is a potent inducer of apoptosis, whereas autocrine nerve growth factor protects human keratinocytes from programmed cell death. To evaluate the role of nerve growth factor in the mechanisms of ultraviolet B-induced apoptosis, cultured human keratinocytes were ultraviolet B irradiated following pretreatment with K252, a specific inhibitor of the tyrosine kinase high-affinity nerve growth factor receptor. Here we report that the addition of K252 significantly enhanced keratinocyte apoptosis. We then transfected normal human keratinocytes with pNUT-hNGF. Nerve growth factor overexpressing keratinocytes secreted the highest amounts of nerve growth factor in culture supernatants, were more viable, and had a higher rate of proliferation than mock-transfected cells. Whereas ultraviolet B radiation downregulated nerve growth factor mRNA and protein as well as the tyrosine kinase high-affinity nerve growth factor receptor in normal keratinocytes, it failed to do so in nerve growth factor-transfected cells. Moreover, nerve growth factor overexpressing keratinocytes were partially resistant to apoptosis induced by increasing doses of ultraviolet B at 24 and 48 h. These results indicate that downregulation of nerve growth factor function plays an important part in the mechanisms of ultraviolet B-induced apoptosis in human keratinocytes. In addition, ultraviolet B caused a decrease in BCL-2 and BCL-xL expression in mock-transfected keratinocytes, but not in nerve growth factor overexpressing cells. Finally, nerve growth factor prevented the cleavage of the enzyme poly(ADP-ribose) polymerase induced in human keratinocytes by ultraviolet B. These results are consistent with a model whereby the autocrine nerve growth factor protects human keratinocytes from ultraviolet B-induced apoptosis by maintaining constant levels of BCL-2 and BCL-xL, which in turn might block caspase activation.     

Ultraviolet B radiation regulates cysteine‐rich protein 1 in human keratinocytes

Background: Cysteine‐rich protein 1 (CRP1) is a growth‐inhibitory cytoskeletal protein that is induced by ultraviolet (UV) C radiation radiation in fibroblasts. Our aim was to investigate the effects of UV radiation on CRP1 in keratinocytes, the main cell type subjected to UV radiation in the human body. Methods: The effects of physiologically relevant doses of UVB radiation on CRP1 protein levels were studied in cultured primary keratinocytes and transformed cell lines (HaCaT, A‐431) by immunoblotting. UVB‐induced keratinocyte apoptosis was assessed by flow cytometry and monitoring caspase activity. Expression of CRP1 in human skin in vivo was studied by immunohistochemistry in samples of normal skin, actinic keratosis (AK) representing UV‐damaged skin and squamous cell carcinoma (SCC), a UV‐induced skin cancer. Results: CRP1 expression increased by UVB radiation in primary but not in immortalized keratinocytes. Upon high, apoptosis‐inducing doses of UV radiation, CRP1 was cleaved in a caspase‐dependent manner. In normal skin, CRP1 was expressed in smooth muscle cells, vasculature, sweat glands, sebaceous glands and hair root sheath, but very little CRP1 was present in keratinocytes. CRP1 expression was elevated in basal cells in AK but not in SCC. Conclusion: CRP1 expression is regulated by UVB in human keratinocytes, suggesting a role for CRP1 in the phototoxic responses of human skin.     

Cystatin A suppresses ultraviolet B-induced apoptosis of keratinocytes

BACKGROUND: Cystatin A is a cysteine proteinase inhibitor abundantly expressed in keratinocytes. Although cystatin A is one of the cornified cell envelope constituents and expressed in the upper epidermis, its precise function is still unknown. Ultraviolet B irradiation (UVB) induces apoptosis accompanied with the activation of cysteine proteinases, caspases. OBJECTIVE: We investigated the effect of cystatin A on UVB-induced apoptosis of keratinocytes. METHODS: We assessed the caspase activities and apoptotic cell numbers induced by UVB ittadiation in cystatin A gene transfected keratinocytes. RESULTS: UVB-induced pro-caspase 3 cleavage and caspase 3 activation were suppressed in cystatin A expression vector-transfected SV40-transformed human keratinocytes (SVHK). Furthermore, the transfected SVHK cells were resistant to UVB-induced apoptosis. In contrast neither caspase 8 nor caspase 9 activities were affected by UVB irradiation in cystatin A-transfected SVHK cells. The effects were also observed in cystatin A expression adenovirus vector-transfected cultured normal human keratinocytes (NHK). Conversely knockdown of cystatin A by si-RNA induced marked apoptosis of NHK cells following UVB irradiation accompanied with increased caspase 3 activity. In order to confirm the antiapoptotic effect of cystatin A in vivo UVB irradiation was performed on cystatin A transgenic mice (cystatin A-tg). The epidermis from cystatin A-tg was resistant to UVB-induced apoptosis compared to control mice epidermis. CONCLUSION: These results indicate that cystatin A suppresses UVB-induced apoptosis of keratinocytes by the inhibition of caspase 3 activation.     

Deregulation of PERK in the autoimmune disease pemphigus vulgaris occurs via IgG-independent mechanisms

Background Serum and IgG isolated from patients with the autoimmune blistering disease pemphigus vulgaris (PV) trigger complex intracellular pathways in keratinocytes, including alterations of the cell cycle and metabolism, which ultimately lead to cell–cell detachment (acantholysis). We have shown previously that one of the earliest pathogenic events in PV is the activation of protein kinases, including the PKR‐like endoplasmic reticulum (ER) kinase PERK. Objectives In the present study we investigated in more detail the role of PERK in the pathogenesis of PV. Methods PERK levels were assessed by Western blotting and in‐cell enzyme‐linked immunosorbent assay, and PERK expression was silenced by siRNA technology. The effects of PV sera/IgG on keratinocyte cultures were investigated by flow cytometry, MTT and adhesion assays. Results We show that PERK is activated in keratinocytes exposed to PV serum, as demonstrated by an increase in phosphorylated PERK levels and phosphorylation of eIF2α. Decreased expression of PERK by siRNA reduced the effects of PV serum on the cell cycle and keratinocyte viability, two key events in PV pathophysiology. As impairment of metabolic activity in PV is partially due to non‐IgG serum factors, we then investigated the activation of PERK in keratinocytes incubated with whole PV serum, purified PV IgG and IgG‐depleted PV serum. The data demonstrated that PV sera depleted of IgG, but not PV IgG, triggered PERK phosphorylation and this correlated with a marked reduction of metabolic activity in keratinocytes exposed to IgG‐free serum. Knockdown of PERK by siRNA abrogated the changes in the cell cycle and apoptosis induced by IgG‐depleted PV serum. Finally, the reduction of metabolic activity observed in keratinocytes exposed to IgG‐depleted PV serum was almost absent in PERK‐deficient cells. Conclusions Taken together, the results demonstrate that activation of PERK participates in the reduction of metabolic activity and cell viability seen in PV and that this phenomenon depends on non‐IgG factors. PERK activation may represent a novel signalling mechanism linking ER stress and acantholysis in PV.     

Inhibitors of cysteine cathepsin and calpain do not prevent ultraviolet-B-induced apoptosis in human keratinocytes and HeLa cells

Caspases, members of the cysteine protease family, execute UVB-induced apoptosis in several cell lines and keratinocytes. Several researchers investigating UVB-induced apoptosis have demonstrated a dose-dependent protective effect of the synthetic peptide caspase inhibitor zVAD-fmk. However, zVAD-fmk displays a dose-dependent protective effect against UVB-induced apoptosis, even at doses higher than those required to block all known proapoptotic caspases. In addition, it is known that zVAD-fmk also inhibits other cysteine proteases including cathepsins and calpains, and these proteases have recently been demonstrated to play a role in the execution of programmed cell death induced by other stimuli, e.g. TNF-α. The purpose of the present study was therefore to investigate whether inhibitors of cysteine cathepsins and calpains could prevent UVB-induced apoptosis in HeLa cells and keratinocytes. This was done by investigating the effect of the irreversible cysteine protease inhibitor zFA-fmk, the cathepsin B inhibitor CA-074-Me and the calpain inhibitor ALLN on the viability of UVB-irradiated human keratinocytes and HeLa cells. At concentrations of 10 μM and above zVAD-fmk conferred partial dose-dependent protection against UVB-induced apoptosis in HeLa cells and keratinocytes. Moreover, caspase-3 activity was completely blocked at zVAD-fmk concentrations of 1 μM in HeLa cells. This indicates that caspase-independent mechanisms could be involved in UVB-induced apoptosis. However, the protease inhibitors zFA-fmk, CA-074-Me and ALLN all failed to prevent UVB-induced apoptosis in HeLa cells and keratinocytes. In conclusion, the protective effect of zVAD-fmk at high concentrations indicates that other proteases than caspases are active in the execution of UVB-induced apoptosis but further studies are needed to identify these proteases.     

Pemphigus serum and captopril induce heat shock protein 70 and inducible nitric oxide synthase overexpression, triggering apoptosis in human keratinocytes

BACKGROUND: Captopril is an angiotensin-converting enzyme inhibitor with sulphydryl groups in its chemical structure. It is commonly used as an antihypertensive drug. The occurrence of pemphigus vulgaris has repeatedly been reported in patients receiving captopril. The capacity of captopril and pemphigus serum to induce acantholysis, in vivo or in vitro, has been demonstrated experimentally. OBJECTIVES: To show that captopril and pemphigus serum, acting by a biochemical and immunological mechanism, respectively, trigger apoptosis. METHODS: Human keratinocyte cells were treated with 15 mmol L-1 captopril or with pemphigus serum. DNA was extracted and the terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick end labelling method was used to detect apoptosis. RESULTS: DNA fragmentation occurred after 72 h of treatment. Increased expression of p53, c-myc and inducible nitric oxide (NO) synthase (iNOS) mRNA were observed by polymerase chain reaction (PCR) in the treated cells compared with the untreated ones. The increase in iNOS gene expression was associated with overproduction of NO. Moreover, the addition of 1 mmol L-1N-monomethyl-L-arginine, a structural analogue of arginine, reduced nitrite levels by about 70% in cells treated with captopril or pemphigus serum. Western blot analysis revealed an overexpression of heat shock protein 70 (hsp70) in cells treated with captopril or pemphigus serum. Finally, total inhibition of the keratinocyte transglutaminase gene was shown by PCR analysis in the same samples, compared with control cells. CONCLUSIONS: These data demonstrate the involvement of apoptosis in keratinocytes treated with captopril or pemphigus serum, with induction of the iNOS gene and hsp70 in the cascade of events leading to programmed cell death.     

Infliximab restores the balance between pro- and anti-apoptotic proteins in regressing psoriatic lesions

Background Psoriasis and psoriatic arthritis are treated very efficaciously with infliximab, a chimaeric human–murine antitumour necrosis factor (TNF)‐α antibody. As we reported earlier, infliximab, besides its anti‐inflammatory properties, induces a caspase‐independent programmed cell death of psoriatic keratinocytes. Objectives To elucidate this finding further, we investigated the epidermal expression of proteins involved in the mitochondria‐dependent (intrinsic) pathway of cell death. Methods Quantification of proteins with pro‐ (p53, AIF, Bax) and anti‐apoptotic functions (Bcl‐2, Bcl‐XL) and of NF‐κB was performed by means of immunohistochemistry and digital image analysis of the staining of nonlesional skin and lesional psoriatic skin from patients treated with infliximab at weeks 0, 2 and 6. Results Serial biopsies from psoriatic plaques of samples taken at days 0, 5, 14 and 21 of therapy demonstrated a significant downregulation of anti‐apoptotic proteins Bcl‐2, Bcl‐XL and NF‐κB during treatment and, in parallel, a significant upregulation of pro‐apoptotic proteins p53, Bax and AIF. These differences in expression correlated with decreases in epidermal thickness and clinical outcome (Psoriasis Area and Severity Index). At day 21, expression levels of apoptosis‐related proteins in lesional skin approximated those found in nonlesional skin. Conclusions Our data therefore suggest that TNF‐targeting agents may induce the regression of psoriasis at least in part by normalizing the expression of apoptosis‐related proteins in lesional keratinocytes.     

Pathways involved in proliferating,senescent and immortalized keratinocyte cell death mediated by two different TRAIL preparations

Properly regulated keratinocyte cell death is fundamentally important to maintain structural integrity and homeostatic function of epidermis. Moreover, from an oncological perspective, therapeutic approaches selectively targeting apoptosis of malignant cell types while sparing normal keratinocytes in surrounding skin is desirable. Apo2Ligand/tumor necrosis factor-related apoptosis-inducing ligand (Apo2L/TRAIL) has been observed to preferentially induce cytopathic effects on transformed/malignant cell types compared with their non-neoplastic counterparts. In this report, two different biologically active preparations of Apo2L/TRAIL, a non-tagged version, NT-Apo2L/TRAIL, and a leucine zipper fusion protein, LZ-Apo2L/TRAIL, were examined for their ability to trigger apoptosis in normal human keratinocytes, and in an immortalized cell line (HaCaT cells). Differences between these preparations were observed, including: NT-Apo2L/TRAIL induced less keratinocyte apoptosis compared with LZ-Apo2L/TRAIL; NT-Apo2L/TRAIL also induced less apoptosis of HaCaT cells compared with LZ-Apo2L/TRAIL; LZ-Apo2L/TRAIL but not NT-Apo2L/TRAIL induced cytotoxic effects when keratinocytes became growth arrested due to undergoing spontaneous replicative senescence--a biological state previously observed to be resistant to UV-light-induced apoptosis. Similarities between preparations included: an enhanced ability for both Apo2L/TRAIL preparations to kill a greater relative percentage of HaCaT cells compared with keratinocytes; enhanced cytotoxicity towards keratinocytes that had their NF-B activity inhibited; a dependence of both Apo2L/TRAIL preparations on FADD and caspase activation; triggering of the same caspase cascades including caspase 8 and 3; and an ability to induce apoptosis even when HaCaT cells and keratinocytes were transduced to overexpress either Bcl-2 or Bcl-x(L) (survival factors that reduce susceptibility to UV-light-induced apoptosis). These results indicate that while both preparations of Apo2L/TRAIL possess biological activity, there are important differences as regards their ability to induce apoptosis in normal and immortalized keratinocytes. Moreover, the death receptor pathway triggered by LZ-Apo2L/TRAIL can overcome the apoptotic resistance normally observed in response to UV-light mediated by Bcl-2/Bcl-x(L), as well as by the state of cellular senescence. Unraveling the molecular basis for these differential biological effects may reveal a new strategic role for these death receptor/ligands linked to apoptosis in maintaining the dynamic balance of keratinocyte proliferation, differentiation, and cell death necessary to achieve a homeostatic thickness and function of normal skin. In addition, it may be possible to utilize these Apo2L/TRAIL preparations for the treatment of various sun-induced skin cancers as they can differentially trigger apoptosis of transformed keratinocytes, or keratinocytes with abnormal NF-kappaB signaling, while sparing adjacent normal keratinocytes.     

TRAIL-induced keratinocyte differentiation requires caspase activation and p63 expression

Cornification, the terminal differentiation of keratinocytes, is a special form of programmed cell death in the skin. In this article, we report that tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) can induce the expression of the keratinocyte differentiation markers involucrin and type 1 transglutaminase in normal human epidermal keratinocytes. The induction of differentiation occurs mainly under the activation of caspases 3 and 8, and apoptosis can also be triggered. Inhibition of these apoptotic caspases attenuates both apoptosis and differentiation of keratinocytes caused by TRAIL but barely affects the induction of differentiation caused by calcium and phorbol 12-myristate 13-acetate. Differential regulation of extracellular signal-regulated kinase and p38 activation by TRAIL is also observed. Moreover, the degradation of p63 is induced by TRAIL-elicited caspase activation. However, the existence of p63 is essential for the initiation of keratinocyte differentiation by TRAIL because knockdown of ΔNp63 decreases TRAIL-induced differentiation. Taken together, our results suggest that TRAIL can be an inducer of both differentiation and apoptosis in human keratinocytes, and that caspases critically mediate these processes. This study identifies a new role of apoptotic caspases for terminal differentiation of keratinocytes and further elucidates the molecular pathways involved in this unique model of cell death.     

Tumor necrosis factor related apoptosis inducing ligand triggers apoptosis in dividing but not in differentiating human epidermal keratinocytes

Using serial analysis of gene expression we have previously identified the expression of several pro-apoptotic and anti-apoptotic genes in cultured human primary epidermal keratinocytes, including tumor necrosis factor related apoptosis inducing ligand (TRAIL). TRAIL is a potent inducer of apoptosis in transformed and tumor cell lines, but usually not in other cells. Here we present a study on the effect of TRAIL on cultured keratinocytes. It is shown that differentiated and undifferentiated keratinocytes undergo apoptosis after addition of TRAIL to the medium as determined by morphologic and biochemical criteria, such as cellular shrinkage and activation of caspases. The sensitivity for TRAIL differs greatly between undifferentiated and differentiating keratinocytes, however, with undifferentiated cells being much more susceptible to apoptosis. Commitment to terminal differentiation in the absence of TRAIL does not in itself induce apoptosis. In contrast to the promyelocytic cell line HL60, internucleosomal DNA fragmentation is not observed in keratinocytes, as assessed by flow cytometric analysis and agarose gel electrophoresis. Interestingly, the prime effector of DNA fragmentation, DNA fragmentation factor of 40 kDa (DFF40), is expressed in keratinocytes, yet internucleosomal cleavage fails to occur. Our data indicate that programmed cell death during keratinocyte differentiation is distinct from receptor-mediated apoptosis in response to a death ligand.     

Endogenous survivin modulates survival and proliferation in UVB-treated human keratinocytes

Abstract:  Survivin is a bi-functional member of inhibitor of apoptosis protein family, as it is able to both inhibit apoptosis and to regulate cell cycle. We investigated the role of survivin in human keratinocytes under normal conditions and during UVB irradiation. Survivin siRNA decreases proliferation and induces apoptosis in human keratinocytes, in a mode consistent with the mitotic catastrophe. Low doses UVB increase survivin expression at earlier times, while high doses down-regulate survivin level. Low doses UVB induce cell cycle arrest in G2/M, while high doses UVB cause apoptosis. Moreover, overexpression of survivin protects keratinocytes from UVB-induced apoptosis, and silencing of survivin renders keratinocytes more susceptible to UVB-induced cell death. Finally, survivin siRNA increases UVB-induced reduction of cell proliferation. Taken together, these results indicate that survivin plays a critical role in epidermal homeostasis in normal conditions and during UVB exposure, with possible implication in skin carcinogenesis.     

TWEAK/Fn14 activation induces keratinocyte proliferation under psoriatic inflammation

Tumor necrosis factor (TNF)‐like weak inducer of apoptosis (TWEAK) has been reported to induce keratinocyte apoptosis in vitro by engaging its sole receptor of fibroblast growth factor‐inducible 14 (Fn14). In this study, we explored the role of TWEAK/Fn14 pathway in the growth of psoriatic keratinocytes that is, however, characterized by suppressed apoptotic cell death. Skin tissues from the patients with psoriasis or healthy donors were determined for TWEAK and Fn14 expression, and primary keratinocytes were evaluated under the stimulation of psoriatic proinflammatory cytokines or plus TWEAK. The results showed that both TWEAK and Fn14 were highly expressed in psoriatic skins. Moreover, the stimulation of psoriatic cytokines enhanced Fn14 expression by keratinocytes in vitro, which expressed TNF receptor 2 predominantly and proliferated increasingly with the addition of TWEAK. Furthermore, TWEAK stimulation enhanced the synthesis of survivin, inhibitor of apoptosis protein 2 and cellular FLICE‐inhibitory protein in lesional keratinocytes. Therefore, TWEAK/Fn14 interaction prefers to enhance proliferation but not apoptosis of keratinocytes under psoriatic inflammation. The activation of nuclear factor‐κB signalling‐dependent anti‐apoptotic proteins and biased expression of TNF receptors may be responsible for such a novel principle in keratinocytes under psoriatic inflammation.     

Fas ligand in pemphigus sera induces keratinocyte apoptosis through the activation of caspase-8

The Fas/Fas ligand system triggers the extrinsic apoptotic pathway and is involved in several inflammatory conditions, also at the skin level. The Fas/Fas ligand cell death pathway plays a major role in anoikis, a type of apoptosis characterized by cell detachment. As pemphigus is characterized by loss of cell to cell adhesion, we evaluated the role of anoikis and Fas ligand in this bullous disease. We report that, in suprabasal epidermis from perilesional pemphigus skin, most keratinocytes are apoptotic. Moreover, Fas ligand levels are markedly increased in sera from pemphigus patients, whereas they are undetectable in sera from patients undergoing steroid treatment. Sera from untreated patients but not from patients under steroids induce keratinocyte apoptosis. Pemphigus-sera-induced cell death is partially inhibited by pretreatment with anti-Fas ligand antibodies and by incubation with caspase-8 inhibitor Z-IETD-FMK. Finally, caspase-8 is activated in keratinocytes provided with sera from pemphigus patients, whereas cleavage is partially blocked by pretreatment of sera with anti-Fas ligand antibody. These results suggest that increased Fas ligand in pemphigus sera is responsible for keratinocyte apoptosis, which occurs through the activation of a caspase-8-driven extrinsic apoptotic pathway.     

T‐lymphocyte‐induced,fas‐mediated apoptosis is associated with early keratinocyte differentiation

Please cite this paper as: T‐lymphocyte‐induced, fas‐mediated apoptosis is associated with early keratinocyte differentiation. Experimental Dermatology 2009. Abstract: The development of eczematous lesions is thought to be due in part to a breakdown in skin barrier function as a result of T lymphocytes (T cells) invading the skin causing epidermal keratinocyte apoptosis. In this study, we investigated the interaction of T cells and keratinocytes on apoptosis and terminal differentiation using an in vitro co‐culture system. Experiments were performed using the HaCaT keratinocyte cell line or normal human epidermal keratinocytes. Activated human peripheral blood‐derived T cells were found to induce Fas‐dependent keratinocyte apoptosis by up to sixfold. Increased Fas was associated with increased IFN‐γ. The T‐cell apoptotic signal was found to target preferentially keratinocytes in the very early stages of terminal differentiation, such as those with low levels of α6‐integrin expression, and result in subsequent increased caspase 3 activity. This observation was accompanied by a marked increase in keratinocyte ICAM‐1 expression and its ligand LFA‐1 on T cells. Our data suggest that T cells may initiate the onset of keratinocyte terminal differentiation making them more susceptible to Fas‐dependent cell death signals delivered by the T cells.     

Induction of apoptosis in human HaCaT keratinocytes

Although cell death by apoptosis has been recognized as an important control mechanism in the maintenance of tissue homeostasis and in the elimination of cells with damaged DNA, information on the induction and characteristics of apoptosis in keratinocytes is rather scarce. Apoptotic mechanisms may play an important role in normal and disturbed homeostasis of the skin. In the present study, we therefore investigated the effects of several potential inducers of apoptosis in the human keratinocyte cell line HaCaT. Apoptosis was assessed with respect to morphological changes by light and electron microscopic examinations and to DNA integrity by a specific ELISA. UVB irradiation induced the morphology and internucleosomal DNA fragmentation characteristic of apoptosis in a dose- and time-dependent manner. Interferon-γ caused DNA cleavage at the linker regions without producing morphological features consistent with apoptotic cell death. In contrast, treatment with dithranol and NP-40 resulted in necrotic alterations in the keratinocytes. Treatment with the calcium ionophore A23187 caused morphological changes which were similar to the characteristics of ‘nonapoptotic programmed cell death’. Dexamethasone, tumor necrosis factor-α, transforming growth factor-β, TPA, retinoic acid, the podophyllin derivative etoposide, the thromboxane A ₂ analogue U46619, cycloheximide, and the nitric oxide donors sodium nitroprusside and S-nitroso-glutathione, which are all known to induce apoptosis in other cell types, did not affect HaCaT keratinocytes. These results demonstrate that apoptosis can be induced in keratinocytes in vitro but the apoptosis differs from that in other cell types, such as haematopoietic cells, with regard to the type of inducer and/or the sensitivity of the target cells. Since keratinocytes are affected by numerous external and internal stimuli, they might posses several protective mechanisms to prevent apoptosis and to ensure the structural integrity of the outermost barrier of the body. Received: 28 November 1995     

Carboxyfullerenes protect human keratinocytes from ultraviolet-B-induced apoptosis

Carboxyfullerene, a water-soluble carboxylic acid derivative of a fullerene, which acts as a free-radical scavenger, was investigated as a protective agent against ultraviolet-light-induced damage in human keratinocytes. First, we demonstrate that carboxyfullerene is not cytotoxic for these cells. In addition, this compound significantly reduces the ultraviolet-B-induced inhibition of keratinocyte proliferation and protects keratinocytes from apoptosis caused by ultraviolet B irradiation in a time- and dose-dependent fashion. Furthermore, the percentage of cells with depolarized mitochondria is significantly lower in ultraviolet-B-irradiated keratinocytes pretreated with carboxyfullerene than in cells provided with diluent alone. Carboxyfullerene also protects human keratinocytes from apoptosis induced by exposure to deoxy-D-ribose, a sugar that causes cell death through a pathway involving oxidative stress. On the other hand, ultraviolet B downregulates bcl-2 levels in human keratinocytes, and carboxyfullerene fails to prevent this effect. These results suggest that carboxy- fullerene protects human keratinocytes from ultraviolet B damage possibly via a mechanism interfering with the generation of reactive oxygen species from depolarized mitochondria without the involvement of bcl-2.     

The human antimicrobial peptide LL-37 suppresses apoptosis in keratinocytes

The human cathelicidin antimicrobial peptide LL-37 is involved in various aspects of skin biology, including protection against infection, wound healing, and also in psoriasis. The tight regulation of apoptosis is critical in tissue repair and its deregulation is a part of the psoriasis phenotype. Despite being involved in cell death of several cell types, virtually nothing is known about the function of LL-37 in keratinocyte apoptosis. Here we report that LL-37 peptide protects primary human keratinocytes and HaCaT cells from apoptosis induced by the topoisomerase I inhibitor camptothecin (CAM). In particular, pretreatment with LL-37 significantly decreased caspase-3 activity after CAM-treatment. Expression profiling of keratinocytes treated with LL-37 identified the upregulation of cyclooxygenase-2 (COX-2) expression, a gene implicated in protection from apoptosis. In addition to inducing COX-2 expression, LL-37 stimulated the production of its product, prostaglandin E-2 (PGE-2). Moreover, LL-37 induced the expression of inhibitor of apoptosis-2 (IAP-2), implicated in the COX-2/PGE-2 antiapoptotic pathway. Pretreatment with a selective COX-2 inhibitor abolished the antiapoptotic effect of LL-37 and reduced IAP-2 expression implicating that the antiapoptotic effect of LL-37 in keratinocytes is mediated by a COX-2-dependent mechanism involving IAP-2. Thus, overexpression of LL-37 may contribute to reduced keratinocyte apoptosis in conditions such as psoriasis.     

Expression of c-FLIP in malignant melanoma, and its relationship with the clinicopathological features of the disease

Background. Numerous molecular events have been associated with the development of malignant melanoma (MM). The cellular FLICE‐like inhibitory protein (c‐FLIP) was originally identified as an inhibitor of death‐receptor signalling through competition with FADD‐like interleukin‐1β‐converting enzyme (FLICE; also known as caspase‐8) for recruitment to the FAS‐associated death domain (FADD), and it has been suggested recently that c‐FLIP is required for the survival and proliferation of various cell types. Aim. To investigate the relationship of c‐FLIP expression with the clinicopathological features of MM. Methods. Immunohistochemical staining with anti‐c‐FLIP antibody was performed on tissue samples taken from 77 MMs and 20 naevi. The proliferative cells were visualized by staining with Ki‐67 antibody. Annexin V–propidium iodide labelling, a marker for chromatin condensation, was performed to observe the rate of cell apoptosis by flow cytometry. Results. Expression of c‐FLIP was increased in MM tissue compared with the matched pigmented naevi. The c‐FLIP expression was significantly associated with the histological type and Clark level of MM, and correlated strongly with the Ki‐67 labelling index. Downregulation of c‐FLIP might increase apoptosis in MM cell lines. Conclusions. c‐FLIP might play an important role in the obtaining of aggressive biological behaviours and be useful in predicting prognosis of patients with MM.