A progeria mutation reveals functions for lamin A in nuclear assembly, architecture, and chromosome organization

Abstract: Numerous mutations in the humancomprising the major structural components of the nuclear lamina, the fibrous meshwork underlying the inner nuclear membrane (1). They are major determinants of nuclear size and shape and are involved in essential functions such as DNA replication and transcription (1). Lamins A (LA) and C (LC) are alternatively spliced products of the LMNA gene, whereas lamins LB1 and LB2 are encoded by LMNB1 and LMNB2. Structurally, the lamins have a conserved central ␣-helical rod domain flank… Show more

“…For example, it was reported that the expression of lamin A (E145K progeria mutation) induced the formation of blebs in the nuclear membrane in which lamin B1 was excluded. 30 Another studies show that deletion of lamin B1 increases the size of the Lamin A/C meshwork and induces the formation of lamin A/C-rich and lamin B2-deficient NE blebs 32 23,[33][34][35][36] In contrast with HGP fibroblasts, the telomere length in hematopoietic cells, which typically do not express lamin A, was within the normal range in different HGPS patients' samples. These results suggest that expression of mutant lamin A is necessary for telomere loss in HGPS.…”

“…Interestingly, we, and other have shown that the overexpression of lamin B1 leads to NSA. 13,28,30 Particularly, A-T cells exhibit an accumulation of lamin B1 protein, alterations in nuclear architecture and premature senescence. Importantly, we show that the overexpression of lamin B1 in normal cells is sufficient to induce NSA and senescence.…”

Oxydative stress alters nuclear shape through lamins dysregulation

“…For example, it was reported that the expression of lamin A (E145K progeria mutation) induced the formation of blebs in the nuclear membrane in which lamin B1 was excluded. 30 Another studies show that deletion of lamin B1 increases the size of the Lamin A/C meshwork and induces the formation of lamin A/C-rich and lamin B2-deficient NE blebs 32 23,[33][34][35][36] In contrast with HGP fibroblasts, the telomere length in hematopoietic cells, which typically do not express lamin A, was within the normal range in different HGPS patients' samples. These results suggest that expression of mutant lamin A is necessary for telomere loss in HGPS.…”

“…Interestingly, we, and other have shown that the overexpression of lamin B1 leads to NSA. 13,28,30 Particularly, A-T cells exhibit an accumulation of lamin B1 protein, alterations in nuclear architecture and premature senescence. Importantly, we show that the overexpression of lamin B1 in normal cells is sufficient to induce NSA and senescence.…”

Oxydative stress alters nuclear shape through lamins dysregulation

“…For details, see references Bonne et al, 1999, Cowan et al, 2010, Speckman et al, 2000and Taimen et al, 2009. (n=18) and 1.59×10 −10 (n=38) in (C) and 0.31 (n=17), 0.75 (n=25), 0.03 (n=26), 9.44×10 −6 (n=21) and 0.08 (n=21) in (D) for EV, R460C, lmn-1 RNAi, Q159K and L535P, respectively.…”

Impaired mechanical response of an EDMD mutation leads to motility phenotypes that are repaired by loss of prenylation

“…LMNB1 is reduced in HGPS cells and declines in normal fibroblasts as they enter replicative senescence (Scaffidi and Misteli, 2005;Taimen et al, 2009;Shimi et al, 2011;Zhang et al, 2011;Freund et al, 2012). Shimi et al (2011) reported that LMNB1 reduction triggered senescence, whereas its overexpression delayed senescence.…”

Lamin B1 fluctuations have differential effects on cellular proliferation and senescence