Degradation of methylation signals in cryopreserved DNA

Ning Yuan Lee; Melissa Hum; Guek Peng Tan; Ai Choo Seah; Patricia T Kin; Ngiap Chuan Tan; Hai-Yang Law; Ann S G Lee

doi:10.1186/s13148-023-01565-y

Degradation of methylation signals in cryopreserved DNA

Clin Epigenetics. 2023 Sep 11;15(1):147. doi: 10.1186/s13148-023-01565-y.

Authors

Ning Yuan Lee¹, Melissa Hum¹, Guek Peng Tan², Ai Choo Seah³, Patricia T Kin³, Ngiap Chuan Tan^{3

4}, Hai-Yang Law², Ann S G Lee^{5

6

7}

Affiliations

¹ Division of Cellular and Molecular Research, National Cancer Centre Singapore, 30 Hospital Boulevard, Singapore, 168583, Singapore.
² DNA Diagnostic and Research Laboratory, KK Women's and Children's Hospital, 100 Bukit Timah Rd, Singapore, 229899, Singapore.
³ SingHealth Polyclinics, 167 Jalan Bukit Merah, Singapore, 150167, Singapore.
⁴ SingHealth Duke-NUS Family Medicine Academic Clinical Programme, Duke-NUS Medical School, 8 College Road, Singapore, 169857, Singapore.
⁵ Division of Cellular and Molecular Research, National Cancer Centre Singapore, 30 Hospital Boulevard, Singapore, 168583, Singapore. gmslimsg@nus.edu.sg.
⁶ SingHealth Duke-NUS Oncology Academic Clinical Programme (ONCO ACP), Duke-NUS Medical School, 8 College Road, Singapore, 169857, Singapore. gmslimsg@nus.edu.sg.
⁷ Department of Physiology, Yong Loo Lin School of Medicine, National University of Singapore, 2 Medical Drive, Singapore, 117593, Singapore. gmslimsg@nus.edu.sg.

Abstract

Background: Blood-based DNA methylation has shown great promise as a biomarker in a wide variety of diseases. Studies of DNA methylation in blood often utilize samples which have been cryopreserved for years or even decades. Therefore, changes in DNA methylation associated with long-term cryopreservation can introduce biases or otherwise mislead methylation analyses of cryopreserved DNA. However, previous studies have presented conflicting results with studies reporting hypomethylation, no effect, or even hypermethylation of DNA following long-term cryopreservation. These studies may have been limited by insufficient sample sizes, or by their profiling of methylation only on an aggregate global scale, or profiling of only a few CpGs.

Results: We analyzed two large prospective cohorts: a discovery (n = 126) and a validation (n = 136) cohort, where DNA was cryopreserved for up to four years. In both cohorts there was no detectable change in mean global methylation across increasing storage durations as DNA. However, when analysis was performed on the level of individual CpG methylation both cohorts exhibited a greater number of hypomethylated than hypermethylated CpGs at q-value < 0.05 (4049 hypomethylated but only 50 hypermethylated CpGs in discovery, and 63 hypomethylated but only 6 hypermethylated CpGs in validation). The results were the same even after controlling for age, storage duration as buffy coat prior to DNA extraction, and estimated cell type composition. Furthermore, we find that in both cohorts, CpGs have a greater likelihood to be hypomethylated the closer they are to a CpG island; except for CpGs at the CpG islands themselves which are less likely to be hypomethylated.

Conclusion: Cryopreservation of DNA after a few years results in a detectable bias toward hypomethylation at the level of individual CpG methylation, though when analyzed in aggregate there is no detectable change in mean global methylation. Studies profiling methylation in cryopreserved DNA should be mindful of this hypomethylation bias, and more attention should be directed at developing more stable methods of DNA cryopreservation for biomedical research or clinical use.

Keywords: Blood; Buffy coat; Cryopreservation; DNA; Methylation; Storage.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Biomedical Research*
Cryopreservation
DNA / genetics
DNA Methylation*
Humans
Prospective Studies

Substances

DNA