Genomic analysis reveals distinct mechanisms and functional classes of SOX10-regulated genes in melanocytes

Temesgen D. Fufa; Melissa L. Harris; Dawn E. Watkins-Chow; Denise Levy; David U. Gorkin; Derek E. Gildea; Lingyun Song; Alexias Safi; Gregory E. Crawford; Elena V. Sviderskaya; Dorothy C. Bennett; Andrew S. Mccallion; Stacie K. Loftus; William J. Pavan

doi:10.1093/hmg/ddv267

Genomic analysis reveals distinct mechanisms and functional classes of SOX10-regulated genes in melanocytes

Temesgen D. Fufa, Melissa L. Harris, Dawn E. Watkins-Chow, Denise Levy, David U. Gorkin, Derek E. Gildea, Lingyun Song, Alexias Safi, Gregory E. Crawford, Elena V. Sviderskaya, Dorothy C. Bennett, Andrew S. Mccallion, Stacie K. Loftus, William J. Pavan

School of Medicine

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

SOX10 is required for melanocyte development and maintenance, and has been linked to melanoma initiation and progression. However, the molecular mechanisms by which SOX10 guides the appropriate gene expression programs necessary to promote the melanocyte lineage are not fully understood. Herewe employ genetic and epigenomic analysis approaches to uncover novel genomic targets and previously unappreciated molecular roles of SOX10 in melanocytes. Through global analysis of SOX10- binding sites and epigenetic characteristics of chromatin states, we uncover an extensive catalog of SOX10 targets genomewide. Our findings reveal that SOX10 predominantly engages 'open' chromatin regions and binds to distal regulatory elements, including novel and previously known melanocyte enhancers. Integrated chromatin occupancy and transcriptome analysis suggest a role for SOX10 in both transcriptional activation and repression to regulate functionally distinct classes of genes. We demonstrate that distinct epigenetic signatures and cis-regulatory sequence motifs predicted to bind putative co-regulatory transcription factors define SOX10-activated and SOX10-repressed target genes. Collectively, these findings uncover a central role of SOX10 as a global regulator of gene expression in the melanocyte lineage by targeting diverse regulatory pathways.

Original language	English (US)
Pages (from-to)	5433-5450
Number of pages	18
Journal	Human molecular genetics
Volume	24
Issue number	19
DOIs	https://doi.org/10.1093/hmg/ddv267
State	Published - Oct 1 2015

ASJC Scopus subject areas

Molecular Biology
Genetics
Genetics(clinical)

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Fufa, T. D., Harris, M. L., Watkins-Chow, D. E., Levy, D., Gorkin, D. U., Gildea, D. E., Song, L., Safi, A., Crawford, G. E., Sviderskaya, E. V., Bennett, D. C., Mccallion, A. S., Loftus, S. K., & Pavan, W. J. (2015). Genomic analysis reveals distinct mechanisms and functional classes of SOX10-regulated genes in melanocytes. Human molecular genetics, 24(19), 5433-5450. https://doi.org/10.1093/hmg/ddv267

Fufa, TD, Harris, ML, Watkins-Chow, DE, Levy, D, Gorkin, DU, Gildea, DE, Song, L, Safi, A, Crawford, GE, Sviderskaya, EV, Bennett, DC, Mccallion, AS, Loftus, SK & Pavan, WJ 2015, 'Genomic analysis reveals distinct mechanisms and functional classes of SOX10-regulated genes in melanocytes', Human molecular genetics, vol. 24, no. 19, pp. 5433-5450. https://doi.org/10.1093/hmg/ddv267

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title = "Genomic analysis reveals distinct mechanisms and functional classes of SOX10-regulated genes in melanocytes",

abstract = "SOX10 is required for melanocyte development and maintenance, and has been linked to melanoma initiation and progression. However, the molecular mechanisms by which SOX10 guides the appropriate gene expression programs necessary to promote the melanocyte lineage are not fully understood. Herewe employ genetic and epigenomic analysis approaches to uncover novel genomic targets and previously unappreciated molecular roles of SOX10 in melanocytes. Through global analysis of SOX10- binding sites and epigenetic characteristics of chromatin states, we uncover an extensive catalog of SOX10 targets genomewide. Our findings reveal that SOX10 predominantly engages 'open' chromatin regions and binds to distal regulatory elements, including novel and previously known melanocyte enhancers. Integrated chromatin occupancy and transcriptome analysis suggest a role for SOX10 in both transcriptional activation and repression to regulate functionally distinct classes of genes. We demonstrate that distinct epigenetic signatures and cis-regulatory sequence motifs predicted to bind putative co-regulatory transcription factors define SOX10-activated and SOX10-repressed target genes. Collectively, these findings uncover a central role of SOX10 as a global regulator of gene expression in the melanocyte lineage by targeting diverse regulatory pathways.",

author = "Fufa, {Temesgen D.} and Harris, {Melissa L.} and Watkins-Chow, {Dawn E.} and Denise Levy and Gorkin, {David U.} and Gildea, {Derek E.} and Lingyun Song and Alexias Safi and Crawford, {Gregory E.} and Sviderskaya, {Elena V.} and Bennett, {Dorothy C.} and Mccallion, {Andrew S.} and Loftus, {Stacie K.} and Pavan, {William J.}",

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AU - Gorkin, David U.

AU - Gildea, Derek E.

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AU - Safi, Alexias

AU - Crawford, Gregory E.

AU - Sviderskaya, Elena V.

AU - Bennett, Dorothy C.

AU - Mccallion, Andrew S.

AU - Loftus, Stacie K.

AU - Pavan, William J.

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N2 - SOX10 is required for melanocyte development and maintenance, and has been linked to melanoma initiation and progression. However, the molecular mechanisms by which SOX10 guides the appropriate gene expression programs necessary to promote the melanocyte lineage are not fully understood. Herewe employ genetic and epigenomic analysis approaches to uncover novel genomic targets and previously unappreciated molecular roles of SOX10 in melanocytes. Through global analysis of SOX10- binding sites and epigenetic characteristics of chromatin states, we uncover an extensive catalog of SOX10 targets genomewide. Our findings reveal that SOX10 predominantly engages 'open' chromatin regions and binds to distal regulatory elements, including novel and previously known melanocyte enhancers. Integrated chromatin occupancy and transcriptome analysis suggest a role for SOX10 in both transcriptional activation and repression to regulate functionally distinct classes of genes. We demonstrate that distinct epigenetic signatures and cis-regulatory sequence motifs predicted to bind putative co-regulatory transcription factors define SOX10-activated and SOX10-repressed target genes. Collectively, these findings uncover a central role of SOX10 as a global regulator of gene expression in the melanocyte lineage by targeting diverse regulatory pathways.

AB - SOX10 is required for melanocyte development and maintenance, and has been linked to melanoma initiation and progression. However, the molecular mechanisms by which SOX10 guides the appropriate gene expression programs necessary to promote the melanocyte lineage are not fully understood. Herewe employ genetic and epigenomic analysis approaches to uncover novel genomic targets and previously unappreciated molecular roles of SOX10 in melanocytes. Through global analysis of SOX10- binding sites and epigenetic characteristics of chromatin states, we uncover an extensive catalog of SOX10 targets genomewide. Our findings reveal that SOX10 predominantly engages 'open' chromatin regions and binds to distal regulatory elements, including novel and previously known melanocyte enhancers. Integrated chromatin occupancy and transcriptome analysis suggest a role for SOX10 in both transcriptional activation and repression to regulate functionally distinct classes of genes. We demonstrate that distinct epigenetic signatures and cis-regulatory sequence motifs predicted to bind putative co-regulatory transcription factors define SOX10-activated and SOX10-repressed target genes. Collectively, these findings uncover a central role of SOX10 as a global regulator of gene expression in the melanocyte lineage by targeting diverse regulatory pathways.

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Genomic analysis reveals distinct mechanisms and functional classes of SOX10-regulated genes in melanocytes

Abstract

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