TY - JOUR
T1 - The E262K mutation in Lamin A links nuclear proteostasis imbalance to laminopathy-associated premature aging
AU - Ghosh, Debasish Kumar
AU - Pande, Shruti
AU - Kumar, Jeevan
AU - Yesodharan, Dhanya
AU - Nampoothiri, Sheela
AU - Radhakrishnan, Periyasamy
AU - Reddy, Chilakala Gangi
AU - Ranjan, Akash
AU - Girisha, Katta M.
N1 - Publisher Copyright:
© 2022 The Authors. Aging Cell published by Anatomical Society and John Wiley & Sons Ltd.
PY - 2022/11
Y1 - 2022/11
N2 - Deleterious, mostly de novo, mutations in the lamin A (LMNA) gene cause spatio-functional nuclear abnormalities that result in several laminopathy-associated progeroid conditions. In this study, exome sequencing in a sixteen-year-old male with manifestations of premature aging led to the identification of a mutation, c.784G>A, in LMNA, resulting in a missense protein variant, p.Glu262Lys (E262K), that aggregates in nucleoplasm. While bioinformatic analyses reveal the instability and pathogenicity of LMNAE262K, local unfolding of the mutation-harboring helical region drives the structural collapse of LMNAE262K into aggregates. The E262K mutation also disrupts SUMOylation of lysine residues by preventing UBE2I binding to LMNAE262K, thereby reducing LMNAE262K degradation, aggregated LMNAE262K sequesters nuclear chaperones, proteasomal proteins, and DNA repair proteins. Consequently, aggregates of LMNAE262K disrupt nuclear proteostasis and DNA repair response. Thus, we report a structure–function association of mutant LMNAE262K with toxicity, which is consistent with the concept that loss of nuclear proteostasis causes early aging in laminopathies.
AB - Deleterious, mostly de novo, mutations in the lamin A (LMNA) gene cause spatio-functional nuclear abnormalities that result in several laminopathy-associated progeroid conditions. In this study, exome sequencing in a sixteen-year-old male with manifestations of premature aging led to the identification of a mutation, c.784G>A, in LMNA, resulting in a missense protein variant, p.Glu262Lys (E262K), that aggregates in nucleoplasm. While bioinformatic analyses reveal the instability and pathogenicity of LMNAE262K, local unfolding of the mutation-harboring helical region drives the structural collapse of LMNAE262K into aggregates. The E262K mutation also disrupts SUMOylation of lysine residues by preventing UBE2I binding to LMNAE262K, thereby reducing LMNAE262K degradation, aggregated LMNAE262K sequesters nuclear chaperones, proteasomal proteins, and DNA repair proteins. Consequently, aggregates of LMNAE262K disrupt nuclear proteostasis and DNA repair response. Thus, we report a structure–function association of mutant LMNAE262K with toxicity, which is consistent with the concept that loss of nuclear proteostasis causes early aging in laminopathies.
KW - lamin A
KW - laminopathy-associated progeroid disorder
KW - loss of DNA damage repair
KW - nuclear proteostasis imbalance
KW - protein aggregation
KW - protein instability
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U2 - 10.1111/acel.13688
DO - 10.1111/acel.13688
M3 - Article
C2 - 36225129
AN - SCOPUS:85139621127
SN - 1474-9718
VL - 21
JO - Aging Cell
JF - Aging Cell
IS - 11
M1 - e13688
ER -