Genetic variation in IRF4 expression modulates growth characteristics, tyrosinase expression and interferon-gamma response in melanocytic cells

Yash Chhabra; Hilary X.L. Yong; Mitchell E. Fane; Arish Soogrim; Wen Lim; Dayana Nur Mahiuddin; Reuben S.Q. Kim; Melinda Ashcroft; Scott A. Beatson; Stephen A. Ainger; Darren J. Smit; Kasturee Jagirdar; Graeme J. Walker; Richard A. Sturm; Aaron G. Smith

doi:10.1111/pcmr.12620

Genetic variation in IRF4 expression modulates growth characteristics, tyrosinase expression and interferon-gamma response in melanocytic cells

Yash Chhabra, Hilary X.L. Yong, Mitchell E. Fane, Arish Soogrim, Wen Lim, Dayana Nur Mahiuddin, Reuben S.Q. Kim, Melinda Ashcroft, Scott A. Beatson, Stephen A. Ainger, Darren J. Smit, Kasturee Jagirdar, Graeme J. Walker, Richard A. Sturm, Aaron G. Smith

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

11 Scopus citations

Abstract

A SNP within intron4 of the interferon regulatory factor4 (IRF4) gene, rs12203592*C/T, has been independently associated with pigmentation and age-specific effects on naevus count in European-derived populations. We have characterized the cis-regulatory activity of this intronic region and using human foreskin-derived melanoblast strains, we have explored the correlation between IRF4 rs12203592 homozygous C/C and T/T genotypes with TYR enzyme activity, supporting its association with pigmentation traits. Further, higher IRF4 protein levels directed by the rs12203592*C allele were associated with increased basal proliferation but decreased cell viability following UVR, an etiological factor in melanoma development. Since UVR, and accompanying IFNγ-mediated inflammatory response, is associated with melanomagenesis, we evaluated its effects in the context of IRF4 status. Manipulation of IRF4 levels followed by IFNγ treatment revealed a subset of chemokines and immuno-evasive molecules that are sensitive to IRF4 expression level and genotype including CTLA4 and PD-L1.

Original language	English (US)
Pages (from-to)	51-63
Number of pages	13
Journal	Pigment Cell and Melanoma Research
Volume	31
Issue number	1
DOIs	https://doi.org/10.1111/pcmr.12620
State	Published - Jan 2018
Externally published	Yes

Keywords

IRF4
MITF
UVR response
interferon response
melanocyte
melanoma
tyrosinase

ASJC Scopus subject areas

Oncology
Biochemistry, Genetics and Molecular Biology(all)
Dermatology

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10.1111/pcmr.12620

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Chhabra, Y., Yong, H. X. L., Fane, M. E., Soogrim, A., Lim, W., Mahiuddin, D. N., Kim, R. S. Q., Ashcroft, M., Beatson, S. A., Ainger, S. A., Smit, D. J., Jagirdar, K., Walker, G. J., Sturm, R. A., & Smith, A. G. (2018). Genetic variation in IRF4 expression modulates growth characteristics, tyrosinase expression and interferon-gamma response in melanocytic cells. Pigment Cell and Melanoma Research, 31(1), 51-63. https://doi.org/10.1111/pcmr.12620

Chhabra, Y, Yong, HXL, Fane, ME, Soogrim, A, Lim, W, Mahiuddin, DN, Kim, RSQ, Ashcroft, M, Beatson, SA, Ainger, SA, Smit, DJ, Jagirdar, K, Walker, GJ, Sturm, RA & Smith, AG 2018, 'Genetic variation in IRF4 expression modulates growth characteristics, tyrosinase expression and interferon-gamma response in melanocytic cells', Pigment Cell and Melanoma Research, vol. 31, no. 1, pp. 51-63. https://doi.org/10.1111/pcmr.12620

@article{a0d79429fb384a3abe32d20f23904388,

title = "Genetic variation in IRF4 expression modulates growth characteristics, tyrosinase expression and interferon-gamma response in melanocytic cells",

abstract = "A SNP within intron4 of the interferon regulatory factor4 (IRF4) gene, rs12203592*C/T, has been independently associated with pigmentation and age-specific effects on naevus count in European-derived populations. We have characterized the cis-regulatory activity of this intronic region and using human foreskin-derived melanoblast strains, we have explored the correlation between IRF4 rs12203592 homozygous C/C and T/T genotypes with TYR enzyme activity, supporting its association with pigmentation traits. Further, higher IRF4 protein levels directed by the rs12203592*C allele were associated with increased basal proliferation but decreased cell viability following UVR, an etiological factor in melanoma development. Since UVR, and accompanying IFNγ-mediated inflammatory response, is associated with melanomagenesis, we evaluated its effects in the context of IRF4 status. Manipulation of IRF4 levels followed by IFNγ treatment revealed a subset of chemokines and immuno-evasive molecules that are sensitive to IRF4 expression level and genotype including CTLA4 and PD-L1.",

keywords = "IRF4, MITF, UVR response, interferon response, melanocyte, melanoma, tyrosinase",

author = "Yash Chhabra and Yong, {Hilary X.L.} and Fane, {Mitchell E.} and Arish Soogrim and Wen Lim and Mahiuddin, {Dayana Nur} and Kim, {Reuben S.Q.} and Melinda Ashcroft and Beatson, {Scott A.} and Ainger, {Stephen A.} and Smit, {Darren J.} and Kasturee Jagirdar and Walker, {Graeme J.} and Sturm, {Richard A.} and Smith, {Aaron G.}",

note = "Funding Information: MTT-based cell viability and DAPI-stained nuclei count were employed to investigate the growth characteristics of the primary strains. Five MB strains per genotype were seeded at the same number into 24-well plates after which cells were counted and assessed by MTT assay at days 1, 3 and 7 post-plating. MTT assay data for the MB strains is shown in Figures 3a and S2D, with pooled analysis revealing that the C/C homozygote variant strains were significantly more proliferative than T/T variant strains across all the time points (p < .01) (Figure 3a). This observation was supported by DAPI nuclei staining showing significantly higher proliferation at Day 3 and Day 7 post-seeding in C/C variant strains (Figures 3b and S3A). We further corroborated these findings by performing BrdU uptake assays comparing the C/C and T/T genotyped MB strains at Day 3 post-seeding. A significantly higher percentage of fluorescence was detected in C/C MB cell strains (p < .01) indicating a greater proportion of cells in S-phase or mitosis, during which BrdU gets incorporated (Figure 3c). Funding Information: The authors thank the TRI Microscopy Core facility for technical assistance with microscopy. M. Fane is a recipient of a University of Queensland APA PhD scholarship, and RAS is an Australian NHMRC Senior Research Fellow. This study was funded by NHMRC APP1083612, Centre of Research Excellence for the Study of Naevi APP1099021 and Cancer Council Queensland APP1081219. Publisher Copyright: {\textcopyright} 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd",

year = "2018",

month = jan,

doi = "10.1111/pcmr.12620",

language = "English (US)",

volume = "31",

pages = "51--63",

journal = "Pigment Cell and Melanoma Research",

issn = "1755-1471",

publisher = "Wiley-Blackwell",

number = "1",

}

TY - JOUR

T1 - Genetic variation in IRF4 expression modulates growth characteristics, tyrosinase expression and interferon-gamma response in melanocytic cells

AU - Chhabra, Yash

AU - Yong, Hilary X.L.

AU - Fane, Mitchell E.

AU - Soogrim, Arish

AU - Lim, Wen

AU - Mahiuddin, Dayana Nur

AU - Kim, Reuben S.Q.

AU - Ashcroft, Melinda

AU - Beatson, Scott A.

AU - Ainger, Stephen A.

AU - Smit, Darren J.

AU - Jagirdar, Kasturee

AU - Walker, Graeme J.

AU - Sturm, Richard A.

AU - Smith, Aaron G.

N1 - Funding Information: MTT-based cell viability and DAPI-stained nuclei count were employed to investigate the growth characteristics of the primary strains. Five MB strains per genotype were seeded at the same number into 24-well plates after which cells were counted and assessed by MTT assay at days 1, 3 and 7 post-plating. MTT assay data for the MB strains is shown in Figures 3a and S2D, with pooled analysis revealing that the C/C homozygote variant strains were significantly more proliferative than T/T variant strains across all the time points (p < .01) (Figure 3a). This observation was supported by DAPI nuclei staining showing significantly higher proliferation at Day 3 and Day 7 post-seeding in C/C variant strains (Figures 3b and S3A). We further corroborated these findings by performing BrdU uptake assays comparing the C/C and T/T genotyped MB strains at Day 3 post-seeding. A significantly higher percentage of fluorescence was detected in C/C MB cell strains (p < .01) indicating a greater proportion of cells in S-phase or mitosis, during which BrdU gets incorporated (Figure 3c). Funding Information: The authors thank the TRI Microscopy Core facility for technical assistance with microscopy. M. Fane is a recipient of a University of Queensland APA PhD scholarship, and RAS is an Australian NHMRC Senior Research Fellow. This study was funded by NHMRC APP1083612, Centre of Research Excellence for the Study of Naevi APP1099021 and Cancer Council Queensland APP1081219. Publisher Copyright: © 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd

PY - 2018/1

Y1 - 2018/1

N2 - A SNP within intron4 of the interferon regulatory factor4 (IRF4) gene, rs12203592*C/T, has been independently associated with pigmentation and age-specific effects on naevus count in European-derived populations. We have characterized the cis-regulatory activity of this intronic region and using human foreskin-derived melanoblast strains, we have explored the correlation between IRF4 rs12203592 homozygous C/C and T/T genotypes with TYR enzyme activity, supporting its association with pigmentation traits. Further, higher IRF4 protein levels directed by the rs12203592*C allele were associated with increased basal proliferation but decreased cell viability following UVR, an etiological factor in melanoma development. Since UVR, and accompanying IFNγ-mediated inflammatory response, is associated with melanomagenesis, we evaluated its effects in the context of IRF4 status. Manipulation of IRF4 levels followed by IFNγ treatment revealed a subset of chemokines and immuno-evasive molecules that are sensitive to IRF4 expression level and genotype including CTLA4 and PD-L1.

AB - A SNP within intron4 of the interferon regulatory factor4 (IRF4) gene, rs12203592*C/T, has been independently associated with pigmentation and age-specific effects on naevus count in European-derived populations. We have characterized the cis-regulatory activity of this intronic region and using human foreskin-derived melanoblast strains, we have explored the correlation between IRF4 rs12203592 homozygous C/C and T/T genotypes with TYR enzyme activity, supporting its association with pigmentation traits. Further, higher IRF4 protein levels directed by the rs12203592*C allele were associated with increased basal proliferation but decreased cell viability following UVR, an etiological factor in melanoma development. Since UVR, and accompanying IFNγ-mediated inflammatory response, is associated with melanomagenesis, we evaluated its effects in the context of IRF4 status. Manipulation of IRF4 levels followed by IFNγ treatment revealed a subset of chemokines and immuno-evasive molecules that are sensitive to IRF4 expression level and genotype including CTLA4 and PD-L1.

KW - IRF4

KW - MITF

KW - UVR response

KW - interferon response

KW - melanocyte

KW - melanoma

KW - tyrosinase

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U2 - 10.1111/pcmr.12620

DO - 10.1111/pcmr.12620

M3 - Article

C2 - 28755520

AN - SCOPUS:85038893027

SN - 1755-1471

VL - 31

SP - 51

EP - 63

JO - Pigment Cell and Melanoma Research

JF - Pigment Cell and Melanoma Research

IS - 1

ER -

Genetic variation in IRF4 expression modulates growth characteristics, tyrosinase expression and interferon-gamma response in melanocytic cells

Abstract

Keywords

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