DOI: 10.1097/dad.0000000000003350 ISSN: 0193-1091
On the Progression From Early-to Late-Stage Melanoma: A Potential Sequence of Molecular Events Using Data From Droplet Digital PCR and Array Comparative Genomic Hybridization, A Pilot Study
Jason R. McFadden, Arkar Htoo, Advaita S. Chaudhari, Mirjana Stevanovic, Gregory J. Tsongalis, Edward G. Hughes, Aravindhan Sriharan Abstract:
Melanoma progression is generally associated with a stepwise increase in genomic complexity. Although the copy number variations (CNVs) known to occur in melanoma are well characterized, the order in which they accumulate during melanomagenesis remains incompletely understood. To explore this, we used droplet digital polymerase chain reaction to calculate absolute copy numbers of
RREB1
and
CDKN2A
, the most commonly amplified and deleted genes in melanoma, in 51 formalin-fixed, paraffin-embedded melanomas. Each sample also underwent chromosomal microarray analysis to determine its CNV burden, which we graded according to the number of the following melanoma-associated CNVs present:
RREB1
gain,
CDKN2A
loss,
MYC
gain, and
MYB
loss. In this pilot study, increasing CNV burden was associated with a gradual increase in average
RREB1
copy number: from 2.00 in CNV-negative melanomas to 2.68 in melanomas with isolated
RREB1
gain; 2.75 in melanomas with
RREB1
gain and
CDKN2A
loss; 2.93 in melanomas with
RREB1
gain and
MYC
gain; and 3.23 in melanomas with
RREB1
gain,
CDKN2A
loss, and
MYC
gain (
F
= 10.43,
P
< 0.001). A parallel trend was observed for average
CDKN2A
copy number, which decreased progressively with increasing CNV burden: from 2.02 in CNV-negative melanomas to 1.33 in melanomas with isolated
CDKN2A
loss; 1.15 in melanomas with
CDKN2A
loss and
MYC
gain; and 0.53 in melanomas with
CDKN2A
loss and
MYB
loss (
F
= 12.01,
P
< 0.001). These findings support a potential model of stepwise CNV accumulation in melanoma: early
RREB1
gain and/or
CDKN2A
loss, followed by
MYC
gain, and ultimately
MYB
loss.