Randi J Hagerman, K.H. Choo, Devika Ganesamoorthy, Howard R. Slater, Freya Gehling, Lavinia Gordon, Flora Tassone, Danuta Z. Loesch, Debbie Hennerich, Trent Burgess, Annette K. Taylor, Andrew Evans, David E. Godler, Godler, David Eugeny, Tassone, Flora, Loesch, Danuta Zuzanna, Taylor, Annette Kimball, Gehling, Freya, Hagerman, Randi Jenssen, Burgess, Trent, Ganesamoorthy, Devika, Hennerich, Debbie, Gordon, Lavinia, Evans, Andrew, Choo, KH, and Slater, Howard Robert
The fragile X syndrome (FXS) is caused by silencing of the fragile X mental retardation gene (FMR1) and the absence of its product, fragile X mental retardation protein (FMRP), resulting from CpG island methylation associated with large CGG repeat expansions (more than 200) termed full mutation (FM). We have identified a number of novel epigenetic markers for FXS using matrix-assisted laser desorption/ionization-time of flight mass spectrometry (MALDI-TOF MS), naming the most informative fragile X-related epigenetic element 1 (FREE1) and 2 (FREE2). Methylation of both regions was correlated with that of the FMR1 CpG island detected using Southern blot (FREE1 R = 0.97; P < 0.00001, n = 23 and FREE2 R = 0.93; P < 0.00001, n = 23) and negatively correlated with lymphocyte expression of FMRP (FREE1 R = −0.62; P = 0.01, n = 15 and FREE2 R = −0.55; P = 0.03, n = 15) in blood of partially methylated ‘high functioning’ FM males. In blood of FM carrier females, methylation of both markers was inversely correlated with the FMR1 activation ratio (FREE1 R = −0.93; P < 0.0001, n = 12 and FREE2 R = −0.95; P < 0.0001, n = 9). In a sample set of 49 controls, 18 grey zone (GZ 40–54 repeats), 22 premutation (PM 55–170 repeats) and 22 (affected) FXS subjects, the FREE1 methylation pattern was consistent between blood and chorionic villi as a marker of methylated FM alleles and could be used to differentiate FXS males and females from controls, as well as from carriers of GZ/PM alleles, but not between GZ and PM alleles and controls. Considering its high-throughput and specificity for pathogenic FM alleles, low cost and minimal DNA requirements, FREE MALDI-TOF MS offers a unique tool in FXS diagnostics and newborn population screening. Refereed/Peer-reviewed