Epigenetic transdifferentiation of normal melanocytes by a metastatic melanoma microenvironment

Elisabeth A. Seftor; Kevin M. Brown; Lynda Chin; Dawn A. Kirschmann; William W. Wheaton; Alexei Protopopov; Bin Feng; Yoganand Balagurunathan; Jeffrey M. Trent; Brian J. Nickoloff; Richard E.B. Seftor; Mary J.C. Hendrix

doi:10.1158/0008-5472.CAN-05-2497

Epigenetic transdifferentiation of normal melanocytes by a metastatic melanoma microenvironment

Elisabeth A. Seftor, Kevin M. Brown, Lynda Chin, Dawn A. Kirschmann, William W. Wheaton, Alexei Protopopov, Bin Feng, Yoganand Balagurunathan, Jeffrey M. Trent, Brian J. Nickoloff, Richard E.B. Seftor, Mary J.C. Hendrix

Genomic Medicine

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

54 Scopus citations

Abstract

The clinical management of cutaneous melanoma would benefit significantly from a better understanding of the molecular changes that occur during melanocytic progression to a melanoma phenotype. To gain unique insights into this process, we developed a three-dimensional in vitro model that allows observations of normal human melanocytes interacting with a metastatic melanoma matrix to determine whether these normal cells could be reprogrammed by inductive cues in the tumor cell microenvironment. The results show the epigenetic transdifferentiation of the normal melanocytic phenotype to that of an aggressive melanoma-like cell with commensurate increased migratory and invasive ability with no detectable genomic alterations. Removal of the trans-differentiated melanocytes from the inductive metastatic melanoma microenvironment results in a reversion to their normal phenotype. However, a normal melanocyte microenvironment had no epigenetic influence on the phenotype of metastatic melanoma cells. This novel approach identifies specific genes involved in the transdifferentiation of melanocytes to a more aggressive phenotype, which may offer significant therapeutic value.

Original language	English (US)
Pages (from-to)	10164-10169
Number of pages	6
Journal	Cancer Research
Volume	65
Issue number	22
DOIs	https://doi.org/10.1158/0008-5472.CAN-05-2497
State	Published - Nov 15 2005

ASJC Scopus subject areas

Oncology
Cancer Research

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Seftor, E. A., Brown, K. M., Chin, L., Kirschmann, D. A., Wheaton, W. W., Protopopov, A., Feng, B., Balagurunathan, Y., Trent, J. M., Nickoloff, B. J., Seftor, R. E. B., & Hendrix, M. J. C. (2005). Epigenetic transdifferentiation of normal melanocytes by a metastatic melanoma microenvironment. Cancer Research, 65(22), 10164-10169. https://doi.org/10.1158/0008-5472.CAN-05-2497

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title = "Epigenetic transdifferentiation of normal melanocytes by a metastatic melanoma microenvironment",

abstract = "The clinical management of cutaneous melanoma would benefit significantly from a better understanding of the molecular changes that occur during melanocytic progression to a melanoma phenotype. To gain unique insights into this process, we developed a three-dimensional in vitro model that allows observations of normal human melanocytes interacting with a metastatic melanoma matrix to determine whether these normal cells could be reprogrammed by inductive cues in the tumor cell microenvironment. The results show the epigenetic transdifferentiation of the normal melanocytic phenotype to that of an aggressive melanoma-like cell with commensurate increased migratory and invasive ability with no detectable genomic alterations. Removal of the trans-differentiated melanocytes from the inductive metastatic melanoma microenvironment results in a reversion to their normal phenotype. However, a normal melanocyte microenvironment had no epigenetic influence on the phenotype of metastatic melanoma cells. This novel approach identifies specific genes involved in the transdifferentiation of melanocytes to a more aggressive phenotype, which may offer significant therapeutic value.",

author = "Seftor, {Elisabeth A.} and Brown, {Kevin M.} and Lynda Chin and Kirschmann, {Dawn A.} and Wheaton, {William W.} and Alexei Protopopov and Bin Feng and Yoganand Balagurunathan and Trent, {Jeffrey M.} and Nickoloff, {Brian J.} and Seftor, {Richard E.B.} and Hendrix, {Mary J.C.}",

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doi = "10.1158/0008-5472.CAN-05-2497",

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AU - Seftor, Elisabeth A.

AU - Brown, Kevin M.

AU - Chin, Lynda

AU - Kirschmann, Dawn A.

AU - Wheaton, William W.

AU - Protopopov, Alexei

AU - Feng, Bin

AU - Balagurunathan, Yoganand

AU - Trent, Jeffrey M.

AU - Nickoloff, Brian J.

AU - Seftor, Richard E.B.

AU - Hendrix, Mary J.C.

PY - 2005/11/15

Y1 - 2005/11/15

N2 - The clinical management of cutaneous melanoma would benefit significantly from a better understanding of the molecular changes that occur during melanocytic progression to a melanoma phenotype. To gain unique insights into this process, we developed a three-dimensional in vitro model that allows observations of normal human melanocytes interacting with a metastatic melanoma matrix to determine whether these normal cells could be reprogrammed by inductive cues in the tumor cell microenvironment. The results show the epigenetic transdifferentiation of the normal melanocytic phenotype to that of an aggressive melanoma-like cell with commensurate increased migratory and invasive ability with no detectable genomic alterations. Removal of the trans-differentiated melanocytes from the inductive metastatic melanoma microenvironment results in a reversion to their normal phenotype. However, a normal melanocyte microenvironment had no epigenetic influence on the phenotype of metastatic melanoma cells. This novel approach identifies specific genes involved in the transdifferentiation of melanocytes to a more aggressive phenotype, which may offer significant therapeutic value.

AB - The clinical management of cutaneous melanoma would benefit significantly from a better understanding of the molecular changes that occur during melanocytic progression to a melanoma phenotype. To gain unique insights into this process, we developed a three-dimensional in vitro model that allows observations of normal human melanocytes interacting with a metastatic melanoma matrix to determine whether these normal cells could be reprogrammed by inductive cues in the tumor cell microenvironment. The results show the epigenetic transdifferentiation of the normal melanocytic phenotype to that of an aggressive melanoma-like cell with commensurate increased migratory and invasive ability with no detectable genomic alterations. Removal of the trans-differentiated melanocytes from the inductive metastatic melanoma microenvironment results in a reversion to their normal phenotype. However, a normal melanocyte microenvironment had no epigenetic influence on the phenotype of metastatic melanoma cells. This novel approach identifies specific genes involved in the transdifferentiation of melanocytes to a more aggressive phenotype, which may offer significant therapeutic value.

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Epigenetic transdifferentiation of normal melanocytes by a metastatic melanoma microenvironment

Abstract

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