Isil Aksan scite author profile

The controls that enable melanoblasts and melanoma cells to proliferate are likely to be related, but so far no key regulator of cell cycle progression specific to the melanocyte lineage has been identified. The microphthalmia-associated transcription factor Mitf has a crucial but poorly defined role in melanoblast and melanocyte survival and in differentiation. Here we show that Mitf can act as a novel anti-proliferative transcription factor able to induce a G1 cell-cycle arrest that is dependent on Mitf-mediated activation of the p21(Cip1) (CDKN1A) cyclin-dependent kinase inhibitor gene. Moreover, cooperation between Mitf and the retinoblastoma protein Rb1 potentiates the ability of Mitf to activate transcription. The results indicate that Mitf-mediated activation of p21Cip1 expression and consequent hypophosphorylation of Rb1 will contribute to cell cycle exit and activation of the differentiation programme. The mutation of genes associated with melanoma, such as INK4a or BRAF that would affect either Mitf cooperation with Rb1 or Mitf stability respectively, would impair Mitf-mediated cell cycle control.

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Targeting the Microphthalmia Basic Helix-Loop-Helix–Leucine Zipper Transcription Factor to a Subset of E-Box Elements In Vitro and In Vivo

Aksan

Goding

1998

Molecular and Cellular Biology

186

178

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The development of melanocytes, which are pigment-producing cells responsible for skin, hair, and eye color, is absolutely dependent on the action of the microphthalmia basic helix-loop-helix-leucine zipper (bHLH-LZ) transcription factor (Mi); mice lacking a functional Mi protein are entirely devoid of pigment cells. Mi has been shown to activate transcription of the tyrosinase, TRP-1, TRP-2, and QNR-71 genes through specific E-box elements, most notably the highly conserved M box. We investigated the mechanism which enables Mi to be recruited specifically to a restricted subset of E boxes in target promoters while being prevented from binding Ebox elements in other promoters. We show both in vitro and in vivo that the presence of a T residue flanking a CATGTG E box is an essential determinant of the ability of Mi to bind DNA, and we successfully predict that the CATGTG E box from the P gene would not bind Mi. In contrast, no specific requirement for the sequences flanking a CACGTG E box was observed, and no binding to an atypical E box in the c-Kit promoter was detected. The relevance of these observations to the control of melanocyte-specific gene expression was highlighted by the fact that the E-box elements located in the tyrosinase, TRP-1, TRP-2, and QNR-71 promoters without exception possess a 5 flanking T residue which is entirely conserved between species as diverse as man and turtle. The ability of Mi to discriminate between different E-box motifs provides a mechanism to restrict the repertoire of genes which are likely to be regulated by Mi and provides insight into the ability of bHLH-LZ transcription factors to achieve the specificity required for the precise coordination of transcription during development.The development of an organism is dependent on a highly specific program of gene expression coordinated by signal transduction pathways acting to modulate the activity of transcription factors in response to environmental signals. A particularly important role is played by cell type-specific transcription factors, such as Pit-1 and MyoD, that act as "master regulators" of tissue-specific gene expression by binding specific elements in their target promoters. These master regulators frequently belong to transcription factor families which share highly related DNA binding specificities. Since all cell types will contain multiple members of these families, and since similar elements will be present in promoters which are not coordinately regulated, mechanisms to restrict the repertoire of factors able to bind any given sequence element must operate. Understanding how such specificity is generated is a major goal in developmental biology.Melanocytes, which are pigment cells responsible for skin, hair, and eye color (34), afford an excellent system for studying the key events underlying cell type-specific gene expression. Mouse genetics has identified over 70 different genes which affect the melanocyte lineage, of which approximately 20 have been cloned. These include not only the genes involved direct...

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A Computer‐Based Model for the Regulation of Mitogen Activated Protein Kinase (MAPK) Activation

Aksan

Kurnaz

2003

Journal of Receptors and Signal Transduction

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Computer simulations and mathematical modeling of biological processes are becoming increasingly popular, and yet the complexity of the biochemical systems or the differences between experimental setups make it very difficult to establish a standard formula for these modeling projects. Before we can start using computer-based models for predictions or targeted experiment designs, it is very important to establish a reliable model on which those predictions can be based and experimentally tested. Here we attempt to present a computer model for the mitogen-activated protein kinase (MAPK) signaling cascade which is consistent with previously published experimental results. In this study we have focused our attention to a generic MAPK ERK (extracellular signal-regulated kinase) pathway activated by epidermal growth factor (EGF) in an attempt to understand how receptors may achieve different activation kinetics of the MAPK signaling. We successfully show that the level of receptor expression is one key determinant in this regulation, and that the binding affinity of the active receptor to adaptor proteins can have a small but albeit direct effect on the downstream activation.

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Chromatin goes global

Aksan¹

2002

Trends in Biochemical Sciences

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Isil Aksan

Mitf cooperates with Rb1 and activates p21Cip1 expression to regulate cell cycle progression

Targeting the Microphthalmia Basic Helix-Loop-Helix–Leucine Zipper Transcription Factor to a Subset of E-Box Elements In Vitro and In Vivo

A Computer‐Based Model for the Regulation of Mitogen Activated Protein Kinase (MAPK) Activation

Chromatin goes global

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