Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027960 (mole)
 21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

gamma-Immune protein-10 (gamma-IP10) is a cytokine whose expression has been shown to be induced by interferon-gamma. It is a member of a group of closely related cytokines (e.g., interleukin 8 and platelet factor 4) with chemotactic properties. gamma-IP10 has been detected in keratinocytes, lymphocytes, monocytes, and endothelial cells in immunologically mediated processes, such as positive tuberculin skin tests, and in growth-activated keratinocytes, such as in psoriasis. Keratinocytes in normal epidermis do not produce gamma-IP10. We tested the hypothesis that keratinocytes adjacent to dysplastic nevi and melanomas would produce gamma-IP10, perhaps as part of an immune response to a tumor, and that this response would not be seen in ordinary melanocytic nevi. We used an affinity-purified, polyclonal rabbit anti-gamma-IP10 antibody to examine 10 nevi with moderate to severe histologic dysplasia, one superficial spreading melanoma, and 10 compound melanocytic nevi with no features of dysplasia. As predicted, keratinocytes surrounding all of the cytologically atypical melanocytic lesions displayed strong staining with gamma-IP10. There was no staining of keratinocytes adjacent to ordinary melanocytic nevi. The observed keratinocyte staining with gamma-IP10 may be related to a host immune response to antigenically abnormal cells.
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PMID:Detection of cytokine-induced protein gamma-immune protein-10 (gamma-IP10) in atypical melanocytic proliferations. 172 47

We examined the altered expression of alpha-smooth muscle actin (alpha-Sm) in human benign, pre-malignant, and malignant pigment cell tumors by immunohistochemical as well as biochemical (Western blot) analysis using anti-alpha-Sm monoclonal antibody (anti-alpha-Sm MoAb). The expression of alpha-Sm has been revealed immunohistochemically to be associated with mesodermal cells rather than with pigment cells. Western blot analysis using anti-alpha-Sm MoAb detected alpha-Sm expression as a 43-kD band in the extracts from normal papillary dermis, nevus cell nevus, and metastatic melanoma with stromal tissues, but not from primary melanoma with stromal tissues examined. The above findings of alpha-Sm expression by Western blot analysis were further characterized immunohistochemically in terms of the localization at the cellular level as follows. 1) In normal papillary dermis, pericytes encircling capillary vessels showed only positive staining with anti-alpha-Sm MoAb. 2) In nevus tissues, nevus cells were not shown to be positively stained, despite similar positivity of pericytes in normal papillary dermis. 3) In melanoma tissues, alpha-Sm expression of metastatic melanoma detected by Western blot analysis was found to be derived from fibroblasts with smooth-muscle differentiation (myofibroblasts), but not from melanoma cells. Such myofibroblastic stromal changes could not be found on primary melanoma tissue sections, which showed no reactivity in Western blot analysis. We conclude that the major sources of alpha-Sm in benign and pre-malignant pigment cell tumors are capillary pericytes, whereas alpha-Sm found in malignant melanoma tissue is primarily from melanoma-surrounding stromal fibroblasts that were changed to myofibroblasts by some cytokine factor(s), presumably secreted from melanoma cells.
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PMID:Alpha-smooth muscle actin expression in tumor and stromal cells of benign and malignant human pigment cell tumors. 172 35

Monoclonal antibodies were used to localize and characterize leukocytes and cytokines in chorionic villi of normal placenta and complete mole. OKT4a reacted with Hofbauer cells in first-, second-, and third-trimester placentas. HLA-DR was expressed on second- and third-trimester placental Hofbauer cells but was not detected in the first trimester. The cytokines, gamma-interferon, granulocyte-macrophage colony-stimulating factor, interleukin-1 alpha, and tumor necrosis factor alpha, were all detectable on Hofbauer cells in first-, second-, and third-trimester placentas. None of the tested cytokine antibodies reacted with cellular constituents in complete molar chorionic villi. The absence of cytokine-positive cells in molar chorionic villi may be related to the hyperplastic and unregulated growth of molar villous trophoblast.
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PMID:Localization of leukocytes and cytokines in chorionic villi of normal placentas and complete hydatidiform moles. 219 Aug 71

Melanocytic neoplasia is characterized by the aberrant overproduction of multiple cytokines in vitro. However, it is largely unknown how cytokine expression relates to melanoma progression in vivo. Transforming growth factor beta (TGF-beta) is a multifunctional cytokine commonly produced by cultured melanoma cells. The in situ expression of all three TGF-beta isoforms (TGF-beta1, -2, and -3) was determined immunohistochemically in melanocytes and in 51 melanocytic lesions using isoform-specific antibodies. Significant linear trends of expression were observed from melanocytes through nevi and primary and metastatic melanomas for all three isoforms. TGF-beta1 was expressed by some melanocytes and almost uniformly by nevi and melanomas. TGF-beta2 and -3 were not expressed in normal melanocytes but were expressed in nevi and early and advanced primary (radial and vertical growth phase) and metastatic melanomas in a tumor-progression-related manner. TGF-beta2 was heterogeneously expressed in advanced primary and metastatic melanomas, whereas TGF-beta3 was uniformly and highly expressed in these lesions. Thus, expression of TGF-beta isoforms in melanocytes and melanocytic lesions is heterogeneous and related to tumor progression, and expression of TGF-beta2 and TGF-beta3 commences at critical junctures during progression of nevi to primary melanomas.
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PMID:Melanoma-associated expression of transforming growth factor-beta isoforms. 866 74

The immune and the nervous systems are anatomically closely related and interact with each other by molecules common to both systems, such as cytokines and neurotransmitters. The purpose of this study was to investigate the participation of catecholamines in the neuroimmunological network. The ability of immune cells to produce catecholamines was examined by a highly sensitive capillary electrophoresis assay, which permits detection of easily oxidized catecholamines in the zeptomole (10(-21)) range. In addition, the effects of catecholamines on in vitro proliferation, differentiation and apoptosis of lymphocytes were assessed. Mouse spleen cells and macrophages contained on average 7 x 10(-17) and 2 x 10(-17) mole dopamine per cell, respectively. In the former cell population also norepinephrine was found. Several mouse B- and T-cell hybridomas were also shown to contain endogenously produced dopamine in levels ranging from 7 x 10(-20) to 2 x 10(-18) mole dopamine per cell. In addition, one of the T-cell hybridomas proved to synthesize norepinephrine. The dopamine production of lymphocytes was blocked by the tyrosine hydroxylase inhibitor alpha-methyl-p-tyrosine, whereas incubation with the precursor L-DOPA increased the dopamine content. Incubation with L-DOPA, dopamine and norepinephrine dose-dependently suppressed mitogen induced proliferation and differentiation of mouse lymphocytes. Even short-time pretreatment of lymphocytes with L-DOPA and dopamine strongly suppressed lymphocyte proliferation and cytokine production. Incubation of lymphoid cells with L-DOPA, dopamine and norepinephrine dose-dependently induced apoptosis which, at least partly, explains the suppressive effects of catecholamines on lymphocyte function. Our results demonstrate that catecholamines: (i) are actively produced by lymphocytes and (ii) have the capacity to act as auto- and/or paracrine regulators of lymphocyte activity through induction of apoptosis.
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PMID:Catecholamines are synthesized by mouse lymphocytes and regulate function of these cells by induction of apoptosis. 870 41

It has been suggested that the involution of the pigmented lesions of halo naevus (HN) is mediated by an immune response, with the involvement of specific cytotoxic T lymphocytes. To explore further the pathogenesis of HN, skin biopsies from six patients with this condition were obtained and the characteristics of the infiltrating inflammatory cells were studied by immunostaining techniques. We found that the cell infiltrate of HN is mainly composed by CD8+ T lymphocytes that express the activation molecule CD69. Tumour necrosis factor-alpha (TNF-alpha) immunoreactivity was detected on the inflammatory cells, a finding that suggests that the infiltrating T cells of HN are actively synthesizing this cytokine. Our results indicate that the infiltrating cells of HN predominantly have an activated cytotoxic phenotype, and suggest that these cells are indeed involved in the regression of the naevomelanocytic naevus of HN.
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PMID:CD69 expression and tumour necrosis factor-alpha immunoreactivity in the inflammatory cell infiltrate of halo naevi. 873 58

We analyzed fatty acid make up of cells and organs from autoimmune and immunologically normal mice to determine whether intrinsic differences in composition might be associated with an inflammatory phenotype. Macrophages (MO) isolated from 4-6-week-old MRL lpr/lpr mice were cultured with phorbol ester (PMA), fibroblast growth factor-1 (FGF-1), fibroblast growth factor-2 (FGF-2) and medium control to determine whether these cell signals might induce membrane fatty acid changes. Individual phospholipid analysis showed 8.4- and 5.1-fold increases in phosphatidylcholine arachidonate (20:4) mole % over baseline values following culture with FGF-1 and FGF-2, respectively. Unfractionated analysis on kidney and liver extracts from 4-6 week MRL lpr/lpr, 16-20 week lpr and 12-20 week MRL +/-/+/- mice demonstrated no significant intrastrain fatty acid differences. Higher levels of 20:4 in 4-6 week lpr mice were noted compared to 16-20 week lpr or +/+ mice in kidney, and liver samples (P < 0.05). It is possible that membrane changes precipitated by microenvironmental cytokine concentrations may contribute to the expression of autoimmune disease in this model.
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PMID:Environmental influences on fatty acid composition of membranes from autoimmune MRL lpr/lpr mice. 880 29

The goal of this study was to examine arachidonic acid (AA) metabolism by murine bone marrow-derived mast cells (BMMC) during apoptosis induced by cytokine depletion. BMMC deprived of cytokines for 12-48 h displayed apoptotic characteristics. During apoptosis, levels of AA, but not other unsaturated fatty acids, correlated with the percentage of apoptotic cells. A decrease in both cytosolic phospholipase A(2) expression and activity indicated that cytosolic phospholipase A(2) did not account for AA mobilization during apoptosis. Free AA accumulation is also unlikely to be due to decreases in 5-lipoxygenase and/or cyclooxygenase activities, since BMMC undergoing apoptosis produced similar amounts of leukotriene B(4) and significantly greater amounts of PGD(2) than control cells. Arachidonoyl-CoA synthetase and CoA-dependent transferase activities responsible for incorporating AA into phospholipids were not altered during apoptosis. However, there was an increase in arachidonate in phosphatidylcholine (PC) and neutral lipids concomitant with a 40.7 +/- 8.1% decrease in arachidonate content in phosphatidylethanolamine (PE), suggesting a diminished capacity of mast cells to remodel arachidonate from PC to PE pools. Further evidence of a decrease in AA remodeling was shown by a significant decrease in microsomal CoA-independent transacylase activity. Levels of lyso-PC and lyso-PE were not altered in cells undergoing apoptosis, suggesting that the accumulation of lysophospholipids did not account for the decrease in CoA-independent transacylase activity or the induction of apoptosis. Together, these data suggest that the mole quantities of free AA closely correlated with apoptosis and that the accumulation of AA in BMMC during apoptosis was mediated by a decreased capacity of these cells to remodel AA from PC to PE.
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PMID:A decrease in remodeling accounts for the accumulation of arachidonic acid in murine mast cells undergoing apoptosis. 1102 38

MSG1 was originally isolated as a candidate pigmentation-related gene. MSG1 mRNA transcripts were expressed strongly in cultured human and mouse normal epidermal melanocytes, and in highly pigmented mouse melanoma cells, while its expression was very weak in cultured non-pigmented human melanoma cells. Thus, MSG1 was initially proposed to be a melanocyte-specific gene, and its possible role in pigmentation has been speculated. It was found recently that the MSG1 protein interacts functionally with Smad4, which plays a pivotal role in signal transduction of transforming growth factor-beta. In this study, we analyzed MSG1 protein expression by immunohistochemistry using human tumor samples from nevus and malignant melanoma to reveal its role in pigmentation and melanoma development in vivo. A relatively strong but heterogeneous expression of MSG1 protein was seen in melanomas compared with weak expression in nevi. In nevi, MSG1 expression was mostly confined to the pigmented region, while it was expressed in both pigmented and non-pigmented regions in melanoma. Intracellularly, MSG1 protein was localized in the cytoplasm of nevus cells, but was seen in both nuclei and cytoplasm of melanoma cells. These results support a hypothesis that MSG1 plays a role in pigmentation. It is also suggested that MSG1 may be involved in malignant transformation of pigment cells. Alternatively, the aberrant expression of MSG1 in melanoma cells might be due to the abnormal environment, including aberrant cytokine or growth factor expression, associated with melanoma formation.
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PMID:Aberrant expression of MSG1 transcriptional activator in human malignant melanoma in vivo. 1131 Jul 94

C(60)-Fullerene trisamine adducts inhibit neuronal nitric oxide synthase and calcineurin phosphatase activities in a manner completely reversible by calmodulin. As measured by difference spectroscopy, D(3)-trisamine and C(3)-semiamine fullerene adducts displace trifluoperazine bound to calmodulin coincident with their binding. These binding events are complete at a molar ratio of 4 mol added fullerene per mole calmodulin. Trisamine fullerene adducts alter the native electrophoretic mobility of calmodulin, producing a heterogeneity of bands with associated fullerene. D(3)- and C(3)-trisamine fullerene adducts interact with dansylated calmodulin, producing a 50% loss of maximal fluorescence at concentrations of 30 nM. At higher concentrations than those required to inhibit neuronal nitric oxide synthase, trisamine fullerene adducts inhibit nitric oxide formation by the cytokine-inducible nitric oxide synthase isoform. These inhibitions are fully reversible by calmodulin and skeletal muscle troponin C but not by skeletal muscle parvalbumin. Of the trisamine fullerene adducts tested only the C(3)- and D(3)-semiamine adducts inhibit Ca(2+)-dependent nitric oxide production in GH(3) pituitary cells. These observations support the proposal that trisamine C(60)-fullerene adducts are potent calmodulin antagonists, some of which display activity in intact cellular systems.
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PMID:Trisamine C(60)-fullerene adducts inhibit neuronal nitric oxide synthase by acting as highly potent calmodulin antagonists. 1188 98


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