Yoel Smicun scite author profile

Tyrosinase is a melanocyte-specific enzyme critical for the synthesis of melanin, a process normally restricted to a post-Golgi compartment termed the melanosome. Loss-of-function mutations in tyrosinase are the cause of oculocutaneous albinism, demonstrating the importance of the enzyme in pigmentation. In the present study, we explored the possibility that trafficking of albino tyrosinase from the endoplasmic reticulum (ER) to the Golgi apparatus and beyond is disrupted. Toward this end, we analyzed the common albino mouse mutation Tyr(C85S), the frequent human albino substitution TYR(T373K), and the temperature-sensitive tyrosinase TYR(R402Q)͞Tyr(H402A) found in humans and mice, respectively. Intracellular localization was monitored in albino melanocytes carrying the native mutation, as well as in melanocytes ectopically expressing green fluorescent protein-tagged tyrosinase. Enzymatic characterization of complex glycans and immunofluorescence colocalization with organelle-specific resident proteins established that all four mutations produced defective proteins that were retained in the ER. TYR(R402Q)͞Tyr(H402A) Golgi processing and transport to melanosomes were promoted at the permissive temperature of 32°C, but not at the nonpermissive 37°C temperature. Furthermore, evidence of protein misfolding was demonstrated by the prolonged association of tyrosinase mutants with calnexin and calreticulin, known ER chaperones that play a key role in the quality-control processes of the secretory pathway. From these results we concluded that albinism, at least in part, is an ER retention disease.calnexin ͉ protein folding ͉ quality control

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Deregulated E2f Transcriptional Activity in Autonomously Growing Melanoma Cells

Halaban

Cheng

Smicun

et al. 2000

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Inactivation of the retinoblastoma tumor suppressor protein (pRb) has been implicated in melanoma cells, but the molecular basis for this phenotype has not yet been elucidated, and the status of additional family members (p107 and p130, together termed pocket proteins) or the consequences on downstream targets such as E2F transcription factors are not known. Because cell cycle progression is dependent on the transcriptional activity of E2F family members (E2F1–E2F6), most of them regulated by suppressive association with pocket proteins, we characterized E2F–pocket protein DNA binding activity in normal versus malignant human melanocytes. By gel shift analysis, we show that in mitogen-dependent normal melanocytes, external growth factors tightly controlled the levels of growth-promoting free E2F DNA binding activity, composed largely of E2F2 and E2F4, and the growth-suppressive E2F4–p130 complexes. In contrast, in melanoma cells, free E2F DNA binding activity (E2F2 and E2F4, to a lesser extent E2F1, E2F3, and occasionally E2F5), was constitutively maintained at high levels independently of external melanocyte mitogens. E2F1 was the only family member more abundant in the melanoma cells compared with normal melanocytes, and the approximately fivefold increase in DNA binding activity could be accounted for mostly by a similar increase in the levels of the dimerization partner DP1. The continuous high expression of cyclin D1, A2, and E, the persistent cyclin-dependent kinase 4 (CDK4) and CDK2 activities, and the presence of hyperphosphorylated forms of pRb, p107, and p130, suggest that melanoma cells acquired the capacity for autonomous growth through inactivation of all three pocket proteins and release of E2F activity, otherwise tightly regulated in normal melanocytes by external growth factors.

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Melanomas, from the cell cycle point of view (Review).

et al. 1998

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S1P induced changes in epithelial ovarian cancer proteolysis, invasion, and attachment are mediated by Gi and Rac

Devine

Smicun

Hope

et al. 2008

Gynecologic Oncology

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OBJECTIVES-We previously demonstrated that sphingosine 1-phosphate (S1P) bimodally regulates epithelial ovarian cancer (EOC) cell invasiveness: low-concentration S1P stimulates invasion similar to lysophophatidic acid (LPA), while high-concentration S1P inhibits invasion. In this study, we investigated the mechanisms through which S1P affects EOC cell proteolysis, invasion, and adhesion in two cultured epithelial ovarian cancer cell lines. METHODS-G-proteinGi was inhibited by pertussis toxin (PTX) and GTP binding protein Rac by NSC23766. S1P conditioned media of DOV13 and OVCA429 cells were evaluated via gel zymography, fluorometric gelatinase assay, urokinase plasminogen activator (uPA) activity assay, and Western Blot for MT1-MMP. Cell invasion was analyzed in Matrigel chambers. Membrane-N-cadherin was localized via fluorescence microscopy.RESULTS-Zymography revealed pro-MMP2 in conditioned media of EOC cells regardless of treatment. Gelatinase activity was increased by low-concentration S1P. In DOV13 cells this effect was Gi and Rac dependent. In all OVCA429 and control DOV13 cells, PTX enhanced gelatinolysis, suggesting an MMP2-inhibitory pathway via Gi. MT1-MMP was decreased Gidependently by high-concentration S1P. Rac inhibition significantly counteracted low-S1P enhancement and high-S1P reduction of DOV13 invasiveness; and uPA activity in conditioned media of invading cells correlated significantly. Immunohistochemistry revealed Gi-dependent clustering of membrane-N-cadherin in DOV13 cells treated with 0.5µM S1P or 10µM LPA.CONCLUSIONS-S1P influences EOC invasion by regulating ECM-proteolysis and cell-cell attachment via MMP2, uPA, and membrane-N-cadherin. Furthermore, this study illustrates that the net effect of S1P on each of these processes reflects a complex interplay of multiple GPCR pathways involving Gi and downstream Rac.

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Yoel Smicun

Endoplasmic reticulum retention is a common defect associated with tyrosinase-negative albinism

Deregulated E2f Transcriptional Activity in Autonomously Growing Melanoma Cells

Melanomas, from the cell cycle point of view (Review).

S1P induced changes in epithelial ovarian cancer proteolysis, invasion, and attachment are mediated by Gi and Rac

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