Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P06126 (CD1a)
2,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sunburn, immune suppression, photoaging, and skin cancers result from uncontrolled overexposure of human skin to solar ultraviolet radiation (UVR). Preventive measures, including photoprotection, are helpful and can be achieved by topical sunscreening agents. Polypodium leucotomos (PL) has been used for the treatment of inflammatory diseases and has shown some in vitro and in vivo inmunomodulating properties. Its beneficial photoprotective effects in the treatment of vitiligo and its antioxidant properties encouraged us to evaluate in vivo the potentially useful photoprotective property of natural extract of PL after topical application or oral ingestion. Twenty-one healthy volunteers [either untreated or treated with oral psoralens (8-MOP or 5-MOP)] were enrolled in this study and exposed to solar radiation for evaluation of the following clinical parameters: immediate pigment darkening (IPD), minimal erythema dose (MED), minimal melanogenic dose (MMD), and minimal phototoxic dose (MPD) before and after topical or oral administration of PL. Immunohistochemical assessment of CD1a-expressing epidermal cells were also performed. PL was found to be photoprotective after topical application as well as oral administration. PL increased UV dose required for IPD (P < 0.01), MED (P < 0.001) and MPD (P < 0.001). After oral administration of PL, MED increased 2.8 +/- 0.59 times and MPD increased 2.75 +/- 0.5 and 6.8 +/- 1.3 times depending upon the type of psoralen used. Immunohistochemical study revealed photoprotection of Langherhans cells by oral as well as topical PL. The observed photoprotective activities of oral or topical PL reveal a new avenue in examining the potentially useful field of systemic photoprotection and suggests that PL can be used as adjunct treatment and can make photochemotherapy and phototherapy possibly safe and effective when the control of cutaneous phototoxicity to PUVA or UVB is a limiting factor in such phototherapies.
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PMID:Topical or oral administration with an extract of Polypodium leucotomos prevents acute sunburn and psoralen-induced phototoxic reactions as well as depletion of Langerhans cells in human skin. 936 Nov 29

Sunscreens capable of inhibiting erythema are assumed to protect against UV-induced carcinogenesis as well. However, the correlation between inflammation and carcinogenesis is uncertain, and the prevention of UV-induced erythema might in fact be biologically irrelevant as an indicator of protection against UV-induced skin cancer. Ultraviolet-B radiation promotes cutaneous immunosuppression by the release of immunoregulatory cytokines and by depletion of Langerhans cells. We investigated the ability of two different sunscreens to inhibit UVB-induced expression of epidermal interleukin (IL)-10 and depletion of Langerhans cells. Chemical and physical sunscreens were applied to the forearms of volunteers 15 min prior to 4 minimal erythemal doses of UVB exposure. Suction blisters were induced 24 h after irradiation, and RNA was extracted from the blister roofs. Reverse transcription polymerase chain reaction was performed using primers for IL-10 and CD1a. A chemical sunscreen containing octyl methoxycinnamate (12 sun protection factor [SPF]) and a physical sunscreen containing zinc oxide (16 SPF) were assayed: UVB-induced IL-10 mRNA expression was nearly totally inhibited by both sunscreens (median protection for chemical and physical sunscreens was 95% and 78%, respectively), whereas UVB-induced Langerhans cell depletion was partially prevented (47% and 50% for chemical and physical sunscreens, respectively). Langerhans cell protection by sunscreens was confirmed by estimation of cell density after ATPase staining. In contrast, both sunscreens effectively prevented the induction of UVB-induced erythema. We believe this to be the first demonstration that sunscreens can prevent the induction of cutaneous mediators of immunosuppression, and that the results indicate that the immunoprotection offered by the sunscreens is significantly lower than their ability to prevent erythema.
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PMID:Partial protection against epidermal IL-10 transcription and Langerhans cell depletion by sunscreens after exposure of human skin to UVB. 1056 68

The association between ultraviolet radiation (UVR) exposure and both skin cancer and photo-aging is well documented. In addition to the conventional organic-chemical and physical-mineral type sunscreens, other non-sunscreen protective strategies have been developed. These include topically applied botanical extracts and other antioxidants as well as topical DNA repair enzymes. Standard terms of photoprotection such as sun protection factor (SPF) do not accurately reflect the photoprotection benefits of these materials. For example, in spite of minimal SPF, tea extract containing polyphenols such as (-)-epigallocatechin-3-gallate (EGCG) has been shown to protect against UV-induced DNA damage and immune suppression, in part through its ability to reduce oxidative stress and inhibit NF-kB. The addition of botanical antioxidants and vitamins C and E to a broad-spectrum sunscreen may further decrease UV-induced damage compared with sunscreen alone. These agents have been shown to enhance protection against UV-induced epidermal thickening, overexpression of MMP-1and MMP-9, and depletion of CD1a(+) Langerhans cells. Non-sunscreen materials such as botanical extracts, antioxidants, and DNA repair enzymes can contribute value when applied topically to human skin in vivo.Journal of Investigative Dermatology Symposium Proceedings (2009) 14, 56-59; doi:10.1038/jidsymp.2009.14.
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PMID:Non-sunscreen photoprotection: antioxidants add value to a sunscreen. 1967 55

It is not easy to reach a differential diagnosis between keratoacanthoma (KA) and squamous cell carcinoma (SCC) and furthermore there is still considerable discussion about the relationship of these 2 tumors with immunity. To facilitate such a diagnosis, we assessed the Glut-1 antibody, reported to be strongly and diffusely expressed in SCC but never assessed in KA. We studied 43 lesions of immunocompetent patients: 17 SCCs, 13 typical KAs (tKAs), and 13 atypical KAs (aKAs), with histologic features of SCC in less than 30% of the lesions. In tKA, Glut-1 stained only the basal layers of the squamous nests (basal pattern) whereas in SCC the squamous nests were randomly and diffusely stained (diffuse pattern). In aKA, a biphasic pattern was observed, with the typical KA areas showing the basal pattern and the SCC-like areas showing the diffuse pattern. Glut-1, therefore, helps to distinguish tKAs from SCCs and highlights the intermediate aKA group, supporting the hypothesis of a progression from KA to SCC. Finally, we used CD1a, CD57, CD4, CD8, CD3, and CD20 antibodies to assess whether or not the progression might be related to an in situ immunologic deficit. Significant differences were found both in CD1a+ cells, more numerous in tKA than in SCC and in CD57+ cells, more numerous in tKA than in aKA and in SCC. This suggests a local immunological failure in aKA and SCC, probably related to the action of UV rays, leading us to consider KA as a model for the study of the interaction of skin cancer and immunity.
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PMID:Glut-1 expression and in situ CD1a/CD57 immunologic deficit in keratoacanthoma and squamous cell carcinoma of immunocompetent patients. 2147 39

UVR causes skin injury and inflammation, resulting in impaired immune function and increased skin cancer risk. Langerhans cells (LCs), the immune sentinels of the epidermis, are depleted for several days following a single UVR exposure and can be reconstituted from circulating monocytes. However, the differentiation pathways leading to the recovery of a normal pool of LCs is still unclear. To study the dynamic changes in human skin with UV injury, we exposed a cohort of 29 healthy human volunteers to a clinically relevant dose of UVR and analyzed sequential epidermal biopsies for changes in leukocyte and dendritic cell (DC) subsets. UV-induced depletion of CD1a(high) LC was compensated by sequential appearance of various epidermal leukocytes. CD14(+) monocytes were recruited as early as D1 post exposure, followed by recruitment of two inflammatory DC subsets that may represent precursors of LCs. These CD1a(low) CD207(-) and the heretofore unknown CD1a(low) CD207(+) DCs appeared at day 1 and day 4 post UVR, respectively, and were endowed with T-cell-activating properties similar to those of LCs. We conclude that recruitment of monocytes and inflammatory DCs appear as a physiological response of the epidermis in order to repair UVR-induced LC depletion associated with immune suppression.
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PMID:UV Radiation Induces the Epidermal Recruitment of Dendritic Cells that Compensate for the Depletion of Langerhans Cells in Human Skin. 2580 53

Langerhans cells (LCs) are bone marrow-derived dendritic cells (DCs) that represent 2-3% of the entire cell population of the human skin, known to have an ability to present antigens to T lymphocytes. Moreover, there is evidence that LCs are probably capable of inducing the local cytotoxic type T-cell-mediated response against the tumour-associated antigens. In the past two decades, a dramatic increase has been noted in the incidence of basal cell carcinoma (BCC) and squamous cell carcinoma (SCC). The purpose of this study was to critically assess the results of available studies quantitatively assessing the LCs in nonmelanoma skin cancers and try to establish a conclusion of its possible impact on their future treatment. The PubMed, EMBASE, and the Web of Science databases were searched, which returned 948 citations. After a thorough analysis of full article texts, 30 studies have been chosen, including 11 of the BCC, 12 of the SCC specimens, and 7 analysing both tumour types. There was an overall trend towards slightly higher numbers of LCs in BCC than in SCC; however, these tendencies were discrepant between the studies. We presume that such differences could be caused by various staining techniques with a broad spectrum of specificity, including anti-S100, anti-CD1a, and ATPase activity staining used for LCs identification. We hypothesise that as there is a high inconsistency between the results of the studies, as far as the densities of LCs observed in the specimens are concerned, it seems that the mechanism of the influence of LCs on the antitumoural immune response is complicated. Finally, as at present, there is a paucity of available risk scores for the recurrence or progression of BCC or SCC, the creation of classification stratifying that risk including the density of LCs could bring additional information both for the physician and the patient.
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PMID:Density of Langerhans Cells in Nonmelanoma Skin Cancers: A Systematic Review. 3237 67

Non-melanoma skin cancer, including basal cell carcinoma (BCC) and squamous cell carcinoma (SCC) represents 78.5% of all skin malignant tumours in Egypt. Dendritic cells can be found in almost all human tumours, they play an important role in antitumour immunity. The aim of the present study was to evaluate the percentage of Langerhans cells using CD1a in non-melanoma skin cancer, including BCC and SCC and to correlate this percentage with their clinicopathological features. The current study was performed on surgically excised specimens of 41 patients presented with non-melanoma skin cancer (26 BCC and 15 SCC) and 16 healthy volunteer control subjects. The mean and median percentage of Langerhans cells were higher in normal epidermis of control compared to malignant tumour tissue (p < 0.0001) and adjacent epidermis overlying malignant tumour tissue (p = 0.007). Langerhans cells were significantly seen in BCC cases more than SCC (p = 0.035) and they were seen in facial lesions more than those arising from other sites (p = 0.007). The reduction of Langerhans cells is a way for non-melanoma skin cancer to develop and progress. Marked reduction of Langerhans cells in SCC compared to BCC could refer to their role as a barrier against metastasis.
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PMID:Tumour-infiltrating Langerhans cells in non-melanoma skin cancer, a clinical and immunohistochemical study. 3256 98

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