TY - JOUR
T1 - Divergent accumulation patterns of SNVs and INDELs reveal negative selection in noncancerous cells
AU - Zhang, Lei
AU - Lee, Moonsook
AU - Hao, Xiaoxiao
AU - Ma, Xiao
AU - Xia, Chuwei
AU - Zhao, Yiwei
AU - Ehlert, Joseph
AU - Chi, Zhongxuan
AU - Jin, Bo
AU - Cutler, Ronald
AU - Maslov, Alexander Y.
AU - Barabási, Albert László
AU - Hoeijmakers, Jan H.J.
AU - Edelmann, Winfried
AU - Vijg, Jan
AU - Dong, Xiao
N1 - Publisher Copyright:
© 2025 The Author(s)
PY - 2025/10/6
Y1 - 2025/10/6
N2 - Somatic mutations accumulate with age in human tissues. Clonal amplification of some mutations causes cancers and other diseases. However, it is unclear if random mutation accumulation affects cellular function without clonal amplification. We tested this in cell culture, avoiding the limitation that mutation accumulation in vivo leads to cancer. We performed single-cell whole-genome sequencing of fibroblasts from DNA-mismatch-repair-deficient Msh2−/−mice and controls after long-term passaging. While maintaining the same growth rates, in the Msh2−/−fibroblasts, single-nucleotide variants increased up until >50,000 per cell, with small insertions and deletions plateauing at ∼16,000 per cell. We provide evidence for genome-wide negative selection and large-scale mutation-driven population changes, including significant clonal expansion of preexisting mutations and widespread cell-strain-specific hotspots, likely caused by positive selection of mutations in specific genes. Since negative selection to prevent mutations with adverse effects in vivo during aging is difficult to envision, these results suggest a causal role of somatic mutations in age-related cell functional decline.
AB - Somatic mutations accumulate with age in human tissues. Clonal amplification of some mutations causes cancers and other diseases. However, it is unclear if random mutation accumulation affects cellular function without clonal amplification. We tested this in cell culture, avoiding the limitation that mutation accumulation in vivo leads to cancer. We performed single-cell whole-genome sequencing of fibroblasts from DNA-mismatch-repair-deficient Msh2−/−mice and controls after long-term passaging. While maintaining the same growth rates, in the Msh2−/−fibroblasts, single-nucleotide variants increased up until >50,000 per cell, with small insertions and deletions plateauing at ∼16,000 per cell. We provide evidence for genome-wide negative selection and large-scale mutation-driven population changes, including significant clonal expansion of preexisting mutations and widespread cell-strain-specific hotspots, likely caused by positive selection of mutations in specific genes. Since negative selection to prevent mutations with adverse effects in vivo during aging is difficult to envision, these results suggest a causal role of somatic mutations in age-related cell functional decline.
KW - DNA-mismatch-repair deficiency
KW - aging
KW - mutation burden
KW - mutational signature
KW - single-cell whole-genome sequencing
UR - https://www.scopus.com/pages/publications/105010974663
U2 - 10.1016/j.xinn.2025.101008
DO - 10.1016/j.xinn.2025.101008
M3 - Article
C2 - 41113919
AN - SCOPUS:105010974663
SN - 2666-6758
VL - 6
JO - Innovation
JF - Innovation
IS - 10
M1 - 101008
ER -
