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: UMLS:C0018133 (graft-versus-host disease)
18,032 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The successful use of phototherapy, especially psoralen plus UVA (PUVA) therapy, in the treatment of a variety of skin diseases is well known. Because the pathology of diseases such as vitiligo, alopecia and lichen planus is thought to involve immune mechanisms, the beneficial effect of PUVA may be due to immunosuppression. PUVA treatment can induce suppression in two ways. In the first (local suppression) psoralen is applied topically, the skin is irradiated with UVA and the contact allergen is applied directly to the irradiated skin. The induction of contact hypersensitivity (CHS) is suppressed and suppressor cells are found in the spleens of treated animals. Systemic suppression results from the injection of psoralen followed by exposure to UVA. The contact allergen is then applied at a distant non-irradiated site. CHS is suppressed and antigen-specific suppressor cells are found in the spleens of treated mice. The ability to induce specific immunosuppression may provide novel methods of inhibiting unwanted immune responses. We have demonstrated that graft rejection and the induction of graft-versus-host disease can be suppressed in an antigen-specific manner by UV radiation. Thus phototherapy may provide promising new treatments for suppressing graft rejection and perhaps may be beneficial in the treatment of autoimmune disease and allergic reactions.
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PMID:Immunosuppression in phototherapy. 269 29

Pseudo-scleroderma should not be confused with true scleroderma, the prognosis of which is unpredictable and often serious. Progressive acrosclerosis must be differentiated from Raynaud's disease, congenital or hereditary disorders of unknown aetiology: Werner's syndrome, acrogeria and progeria; Rothmund-Thomson's syndrome, Steinert's disease, phenylketonuria, disorders of glycogen metabolism; metabolic disorders: mutilating acropathies, scleromyxoedema, porphyria cutanea tarda; occupational and iatrogenic disorders: acroosteolysis, toxic epidermic syndrome (Spain), scleroderma-like change induced by bleomycin, chronic graft-versus-host disease; and leprosy. Acute diffuse scleroderma should not be confused with Buschke's scleroedema, sclerema neonatorum, systemic amyloidosis and scleroderma-like changes in hypothyroidism. Linear pseudo-scleroderma is suggested by the following scleroderma-like conditions: facial hemiatrophy, acrodermatitis atrophicans, melorheostosis, pseudo-scleroderma after corticosteroid injection, and cutaneous lesions in carcinoid syndrome. Scleroderma in plaque must be differentiated from hypodermitis sclerotisans, panatrophy and localized lipoatrophies, hypodermitis after vitamin K injection, basal cell carcinoma, necrobiosis lipoidica, vitiligo, chronic radiodermatitis, cutaneous lymphatic invasion. Scleroderma-like changes after drug injection (vitamin B12, progestin), anetoderma barely resemble morphea guttata.
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PMID:[Pseudoscleroderma and sclerodermiform states]. 624 36

Photochemotherapy involves the therapeutic use of nonionizing radiation in combination with a photosensitizing chemical to trigger a photochemical reaction that mediates a beneficial effect. The successful introduction and widespread use of psoralen photochemotherapy (PUVA) in the management of psoriasis was the chief stimulus for recent interest in the therapeutic use of nonionizing radiation in various other dermatoses. This article discusses the expanding spectrum of diseases responding to PUVA therapy. More than 30 conditions such as atopic dermatitis, mycosis fungoides, vitiligo, the photodermatoses, chronic graft-versus-host disease, and granuloma annulare have been successfully treated with oral psoralen photochemotherapy. Various mechanisms of response to treatment are discussed including photoimmunologic effects, selective cytotoxicity, alterations of cell function, and stimulation of melanocytes. Finally, the limitations to the use of PUVA therapy are identified and its future use in other cutaneous and systemic diseases are discussed.
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PMID:Photochemotherapy beyond psoriasis. 792 24

The use of donor T cells expressing a suicide gene for destruction of graft-versus-host effector cells provides a tool for alloreactivity modulation. We describe a case of extensive vitiligo that developed after ganciclovir treatment of cutaneous chronic graft-versus-host disease in a patient who had received donor T lymphocytes expressing herpes simplex virus thymidine kinase at the time of transplantation.
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PMID:Extensive vitiligo after ganciclovir treatment of GvHD in a patient who had received donor T cells expressing herpes simplex virus thymidine kinase. 1069 89

Vitiligo is an autoimmune disease caused by T-lymphocyte-mediated destruction of melanocytes. We describe two patients with generalized vitiligo caused iatrogenically after donor lymphocyte infusion (DLI) for leukaemia relapse over 3 years after bone marrow transplantation (BMT). Neither the sibling donor nor the recipient had vitiligo or other autoimmune diseases, and vitiligo did not occur after the first BMT. DLI was accompanied by skin graft-versus-host disease in both cases, which was controlled with immunosuppression. However, over several months, progressive generalized and persistent skin depigmentation occurred in both patients. Peripheral blood molecular studies showed the complete disappearance of host haematolymphopoiesis. The specific destruction of melanocytes in both patients was therefore probably mediated by new alloreactive lymphocytes infused from the donors.
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PMID:Generalized vitiligo after lymphocyte infusion for relapsed leukaemia. 1189 25

Adoptive transfer of donor immunity has been demonstrated in animals after bone marrow transplantation (BMT). In humans, several autoimmune diseases have been similarly transferred. Although BMT may, per se, be associated with a modulation of the recipient's immune system, which could trigger or even cause autoimmune diseases, both animal experiments and experience with humans show the likeliness of adoptive transfer of donor immunity to the recipient. We describe a patient with multiple myeloma in whom generalized vitiligo developed within 3 months after allogeneic BMT from his HLA-matched sister with vitiligo. We believe that a form of adoptive transfer of donor immunity to the recipient might play a role in the development of vitiligo. In spite of this, neither de novo development of vitiligo in a genetically predisposed patient nor autoimmune phenomena associated with graft-versus-host disease can be completely excluded as a contributing factor for development of vitiligo in our patient. To our knowledge, this is the first case report of transfer of vitiligo after BMT from a donor with vitiligo.
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PMID:Transfer of vitiligo after allogeneic bone marrow transplantation. 1190 19

This paper describes our own findings on the role of Langerhans' cells in dermatology and discusses literature data on their detection in seven different dermatoses. The skin is an integral part of immune system. During the past 30 years, increasing evidence has been accumulated that the skin contains cellular elements which are needed for the initiation and expression of immune response. Langerhans' cells (LCs) are dendritic cells originating in the bone marrow. They reside mainly within stratified squamous epithelia and constitute approximately 2-4% of epithelial cells. LCs are epidermal antigen presenting cells which play a crucial role in allergic contact hypersensitivity, viral diseases, graft versus host disease and elimination of neo-plastic cell clones. They express antigens conjugated with major histocompatibility complex (MHC) class II positive molecules on their surfaces for presentation to T-helper lymphocytes. LCs cannot be identified in routinely prepared histologic testing but can be visualised at the light microscope level by histochemical and immunologic techniques. Appropriate methods for the detection of Langerhans' cells in dermatology (also shown by our own experience) are histoenzymatic methods of adenosintriphosphatase (ATP-ase), acid phosphatase (AP), alpha-naphthylacetatesterase (ANAE and peroxidase-antiperoxidase immunohistochemistry method with polyclonal S-100 protein antibody (PAP). LCs are the only cells in normal skin with ATP-ase activity. Histoenzymatic methods used in patients with atopic dermatitis, vitiligo, mycosis fungoides, Behcet's disease, lichen ruber planus, psoriasis vulgaris, irritant dermatitis and allergic contact dermatitis demonstrated LSs in epidermis and dermis. ANAE and AP showed concordance and were suitable histochemical markers for LC distribution and macrophages in the dermis in mycosis fungoides, atopic dermatitis, psoriasis vulgaris, irritant chronic dermatitis and Bechet's disease. Our experience of the human skin showed a strong activity of calcium-activated adenosine triphosphatase in LCs. LCs in the guinea pig skin can be demonstrated by Mg++ and Ca++ activated adenosine triphosphatase, but a stronger activity of Ca++ activated adenosine triphosphatase in LCs after irritation. Ca++ ATP-ase as an indicator of energy-dependent pump is the reflection of intracellular calcium level, which is a significant factor for regulating the growth and metabolism of the cells. LCs are found as target cells during the efferent phase of contact allergic reaction. Immunohistochemical methods, define the role of LCs in dermatology more precisely and allow complete immunologic recognition within the epidermis.
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PMID:[Identification of Langerhans cells in dermatology]. 1528 65

Tacrolimus is one of the newer immunosuppressants that act by inhibiting T-cell activation and cytokine release. It is approved for the treatment of atopic dermatitis, and its safety and efficacy have been extensively studied in large-scale randomized controlled trials and open-label studies worldwide involving over 12,000 patients and up to 3 years of follow-up. Since its introduction, anecdotal reports and case series have found topical tacrolimus also to be effective and well tolerated in patients with a variety of other skin disorders, including other types of eczema, papulosquamous disorders, disorders of cornification, rosacea, other inflammatory skin conditions, vesiculobullous diseases, vitiligo, connective-tissue diseases, graft-versus-host disease, and follicular disorders. This paper reviews the currently available evidence on the use of topical tacrolimus for these conditions, as well as its safety profile and cost-effectiveness. Tacrolimus does appear to offer a safe and efficacious alternative that minimizes the need for topical glucocorticoids and does not cause skin atrophy. However, the risk of systemic absorption is increased with generalized disruption of the skin barrier. Further large-scale studies are needed to clarify the efficacy of topical tacrolimus in a variety of conditions for which anecdotal reports of success exist, especially in regard to different racial groups and in comparison to (as well as in combination with) other existing therapies. Long-term safety data should continue to be monitored and reported.
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PMID:Topical tacrolimus: a review of its uses in dermatology. 1599 45

T cells responsive to minor histocompatibility (H) antigens are extremely effective in curing leukemia but it remains unknown whether they can eradicate solid tumors. We report that injection of CD8(+) T cells primed against the immunodominant H7(a) minor H antigen can cure established melanomas in mice. Tumor rejection was initiated by preferential extravasation at the tumor site of interferon (IFN)-gamma-producing H7(a)-specific T cells. Intratumoral release of IFN-gamma had two crucial effects: inhibition of tumor angiogenesis and upregulation of major histocompatibility complex (MHC) class I expression on tumor cells. Despite ubiquitous expression of H7(a), dissemination of a few H7(a)-specific T cells in extralymphoid organs caused neither graft-versus-host disease (GVHD) nor vitiligo because host nonhematopoietic cells were protected by their low expression of MHC class I. Our preclinical model yields unique insights into how minor H antigen-based immunotherapy could be used to treat human solid tumors.
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PMID:T cells targeted against a single minor histocompatibility antigen can cure solid tumors. 1622 89

Pimecrolimus is an ascomycin macrolactam. It is a specific calcineurin inhibitor that allows topical application. The highly lipophilic nature of this compound reduces the risk of systemic absorption through normal and inflammed skin. Pimecrolimus shows activity not only against T-cell activation, but also against mast cells and pruritus. Pimecrolimus 1% cream is approved for atopic dermatitis, and also has a great potential in other inflammatory skin diseases. Clinical trials have been performed in contact- and seborrhoeic dermatitis, genital lichen sclerosus, intertriginous psoriasis and cutaneous lupus erythematosus. In other diseases, the available data are limited to small case series, or individual cases of graft-versus-host disease or Netherton's disease. Although the use of calcineurin inhibitors in the treatment of vitiligo is promising, detailed studies with pimecrolimus and ultraviolet-irradiation are necessary and there is a need for prospective randomised, double-blind controlled trials.
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PMID:Topical pimecrolimus for skin disease other than atopic dermatitis. 1702 Apr 22


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