Constricted migration is associated with stable 3D genome structure differences in cancer cells.

To spread from a localized tumor, metastatic cancer cells must squeeze through constrictions that cause major nuclear deformations. Since chromosome structure affects nucleus stiffness, gene regulation, and DNA repair, here, we investigate the relationship between 3D genome structure and constricted migration in cancer cells. Using melanoma (A375) cells, we identify phenotypic differences in cells that have undergone multiple rounds of constricted migration. These cells display a stably higher migration efficiency, elongated morphology, and differences in the distribution of Lamin A/C and heterochromatin. Hi-C experiments reveal differences in chromosome spatial compartmentalization specific to cells that have passed through constrictions and related alterations in expression of genes associated with migration and metastasis. Certain features of the 3D genome structure changes, such as a loss of B compartment interaction strength, are consistently observed after constricted migration in clonal populations of A375 cells and in MDA-MB-231 breast cancer cells. Our observations suggest that consistent types of chromosome structure changes are induced or selected by passage through constrictions and that these may epigenetically encode stable differences in gene expression and cellular migration phenotype.

Constitutional abnormality of nuclear membrane proteins in small cell lung carcinoma.

Nuclear membrane proteins reportedly play important roles in maintaining nuclear structures and coordinating cell activities. Studying profiles of nuclear membrane proteins may help us evaluate the biological and/or clinical nature of malignant tumors. Using immunohistochemistry with antibodies for emerin, lamin A/C, lamin B, and LAP2, we examined 105 lung cancer tissues from 33 small cell lung carcinomas (SCLCs) and 72 non-SCLCs (34 adenocarcinomas, 30 squamous cell carcinomas, and 8 large cell carcinomas). Emerin had negative or local/weak positivity in 79% of SCLCs and 1% of non-SCLCs, and lamin A/C had similar positivity in 91% of SCLCs and 3% of non-SCLCs. LAP2's expression was similar between SCLCs and non-SCLCs. RT-PCR analyses for these four nuclear membrane proteins over 7 cell lines showed that mRNA of emerin and lamin A/C were distinctly downregulated in the SCLC cell lines, supporting the immunohistochemical results. In conclusion, we suggest that downregulation of the nuclear membrane proteins emerin and lamin A/C is characteristic of SCLC cells, and this constitutional abnormality of the nuclear membrane may be related to the biological and/or clinical nature of SCLC. In addition, knowing the nuclear protein profile in SCLC cells may contribute to our understanding of nuclear fragility known as the crush artifact in pulmonary biopsy specimens.

Effect of lamin-A expression on migration and nuclear stability of ovarian cancer cells.

OBJECTIVE: Nuclear lamina plays important roles in nuclear shape and mechanical stability. Many studies demonstrated that defects of lamin-A were associated with several diseases, but little research was found on its potential roles in ovarian cancer. METHODS: GEPIA and GEO database were used to analyze lamin-A in ovarian tissues, followed by assessing lamin-A and prognosis of ovarian cancer patients with Kaplan-Meier plotter. Then, transient transfected HO-8910 cells with shRNA to knockdown lamin-A. Knockdown efficiency was determined by western blot, qRT-PCR and immunofluorescence. Meanwhile, lamin-A was overexpressed in HO-8910 PM cells. Then, 2D migration, 3D migration through 3 µm and 8 µm pores were carried out, followed by immunofluorescence and TEM observation. RESULTS: Lamin-A tended to be lower in ovarian cancer, and higher expression of lamin-A was associated with better survival. After lamin-A knockdown, 2D and 3D migration (3 µm, 8 µm) abilities of HO-8910 cells were significantly increased (p < 0.001), while overexpression of lamin-A in HO-8910PM impeded migration. Meanwhile, when HO-8910 cells migrated through 3 µm pores, nuclei became strikingly elongated, and down-regulation of lamin-A promoted nuclear plasticity, making the circularity of nucleus increased. Besides, further knockdown group had the highest proportion of γ-H2AX, with micronuclei forming. Furthermore, western blot showed that the expression of BRCA1, Ku80 and Rad50 decreased significantly after further knockdown, suggesting impairment of DNA damage repair. CONCLUSIONS: Lamin-A was down-regulated in ovarian cancer, and higher lamin-A was associated with better prognosis. Nuclei with high lamin-A were severely deformed through constricted pores. Moderate lamin-A enhanced nuclear plasticity, so as to strengthen migration ability. When lamin-A was further knockdown, ovarian cancer cells that migrated through restricted pores decreased, with DNA damage, genomic instability and impairment of DNA damage repair.

Pathogenesis of aortic wall complications in Marfan syndrome.

BACKGROUND: Patients with Marfan (MFS) syndrome and patients with a bicuspid aortic valve (BAV) are more prone to develop aortic dilation and dissection compared to persons with a tricuspid aortic valve (TAV). To elucidate potential common as well as distinct pathways of clinical relevance, we compared the histopathological substrates of aortic pathology. PATIENT AND METHODS: Ascending aortic wall specimen were divided in five groups: BAV (n=36) and TAV (n=23) without and with dilation and non-dilated MFS (n=8). We performed routine histology to study aortic wall features based on the aortic consensus statement. Immunohistological markers for vascular smooth muscle cell (VSMC) maturation, and expression of fibrillin-1 were additionally investigated for the underlying pathogenesis. RESULTS: On basis of the routine histology the aorta in MFS was similar to the aorta in dilated TAVs (overall medial degeneration, elastic fiber fragmentation, loss and disorganization, , and VSMC nuclei loss). The other markers aided in clustering the MFS and BAV patients with a significantly lower fibrillin-1 expression as compared to the TAVs (p<0.05), a lower level of differentiated VSMC markers (p<0.05) and elastic fiber thinning. CONCLUSIONS: Pathogenesis of aortopathy in MFS overlaps with mechanisms seen in BAV and TAV, leading to a so called double hit hypothesis for aortic complications in MFS. The ascending aortic wall in MFS is immature with undifferentiated VSMCs and low levels of fibrillin-1. The immature media becomes even more vulnerable for aortopathy due to other degenerative features which develop probably as a direct consequence of the fibrillin-1 mutation.

Prognostic role of NF-YA splicing isoforms and Lamin A status in low grade endometrial cancer.

Although most cases of low grade (G1) endometrial cancer (EC) do not behave aggressively, in rare instances, can progress in a highly aggressive manner. In this study we analyzed formalin-fixed, paraffin-embedded (FFPE) EC tissues to find novel clinical and biological features to help diagnosis and treatment of G1 ECs s in order to better stratify patient risk of recurrence. A retrospective cohort of FFPE specimens from patients with EC (n=87) and benign tissue specimens (NE) from patients who underwent a hysterectomy to treat other benign disease (n = 13) were collected. Total RNA and proteins were extracted and analyzed, respectively, by quantitative PCR and western blotting. NF-YAs is expressed and lamin A is down-modulated in all high grade (G2 and G3) ECs. In G1 ECs, NF-YAs expression is heterogeneous being expressed only in a subset of these tumours. Interestingly, the G1 ECs that express NF-YAs display low levels of lamin A similar to those present in G2 and G3 ECs. Of note, this pattern of NF-YAs and lamin A expression correlates with tumor aggressiveness assessed by comparative analysis with estrogen receptor (ER) status and epithelial-mesenchymal transition (EMT) markers thus suggesting its potential role as biomarker of tumour aggressiveness in G1 EC. In all grade ECs, lamin A is strongly downmodulated, being its expression inversely correlated with tumor aggressiveness and its loss of expression. We identified NF-YAs and lamin A expression levels as novel potential biomarkers useful to identify G1 ECs patients with risk of recurrence.

Proteomic changes in human lung epithelial cells (A549) in response to carbon black and titanium dioxide exposures.

This study combined cytotoxicity assays with proteomic analysis to characterize the unique biological responses of the A549 human lung epithelial cell line to two physicochemically distinct respirable particles titanium dioxide (TiO2) and carbon black (CB). Cellular LDH, ATP, BrdU incorporation and resazurin reduction indicated that CB was more potent than TiO2. Proteomic analysis was done using 2D-GE and MALDI-TOF-TOF-MS. Proteomic changes reflected common and particle-specific responses. Particle-specific proteomic responses were associated with cell death (necrosis and apoptosis), viability and proliferation pathways. Our results suggested that these pathways were consistent with the cytotoxicity data. For instance, increased expressions of anti-proliferative proteins LMNA and PA2G4 were in agreement with the decreased BrdU incorporation in A549 cells after exposure to CB. Similarly, increased expression of HSPA5 that is associated with ATPase activity was consistent with decreased cellular ATP levels in these cells. These findings reveal that proteomic changes can explain the cellular cytotoxicity characteristics of the particles. In essence, our results demonstrate that the in vitro toxicoproteomic approach is a promising tool to gain insight into molecular mechanisms underlying particle exposure-specific cytotoxicity. BIOLOGICAL SIGNIFICANCE: In this study we have shown that toxicoproteomics is a sensitive and informative method to resolve the toxicity characteristics of particles with different physicochemical properties. This approach can be useful in the investigation of molecular mechanisms underpinning cellular cytotoxic responses elicited by particle exposures. Thus, the toxicoproteomic approach can be valuable in assessing the risk associated with particle exposures in vitro.

Lamin A and lamin-associated polypeptide 2 (LAP-2) in human skin in the process of aging.

At present time, relationships between lamins and processes leading to aging are established. Mutations of genes of lamins lead to diseases, one of them is progeria. This disease is caused by violation of splaysing of lamin A gene and accumulation the farnezylated prelamin A (progerin) in the nucleus. LAP-2 is an important factor which regulates and stabilizes the lamin A. However, roles of lamin A and LAP-2 in behavior of population of dermal fibroblasts in relation to age were not examined. The aim of this research was to study A type lamin and LAP-2 in human skin at different ages. Lamin A and LAP-2 were detected in sections of the skin by indirect immunohistochemistry. The number of fibroblasts containing lamin A was gradually decreased from 90,4 to 76,9 % from 20 weeks of gestation to 85 years old. There were 32 % of dermal fibroblasts with positive staining for LAP-2 at the period from 20 weeks of gestation to 20 years old. From 21 to 40 years, 37,8 % of fibroblasts containing lamin A were found in the dermis. In age interval 41-85 years, 49-51 % of dermal fibroblasts had a positive staining for LAP-2. Content of lamin A in the nuclei of fibroblasts was almost constant from 20 weeks of gestation to 85 years old. Expression of LAP-2 in the nuclei of fibroblasts was reduced from birth to 20 years old but increased from 21 years old. Number of fibroblasts and PCNA+ fibroblasts in dermis was diminished with age. The most significant decrease in the number of fibroblasts was observed from 20 weeks of gestation to 20 years old. Results allow to assume the participation of lamin A and LAP-2 in triggering age-dependent decrease in the number of fibroblasts in the dermis in humans.

Generation of iPS Cells from Granulosa Cells.

Various types of somatic cells can be reprogrammed to induced pluripotent stem (iPS) cells. Somatic stem cells may generate iPS cells more efficiently than do differentiated cells. We show that granulosa cells exhibit characteristic of somatic stem cells and can be reprogrammed to iPS cells more efficiently or with few factors. Here, we describe generation of mouse and pig iPS cells from granulosa cells with high efficiency.

Differential Predictive Roles of A- and B-Type Nuclear Lamins in Prostate Cancer Progression.

BACKGROUND: Prostate cancer (PCa) is the most common cancer among men in western countries. While active surveillance is increasingly utilized, the majority of patients are currently treated with radical prostatectomy. In order to avoid over-treatment, there is an indisputable need for reliable biomarkers to identify the potentially aggressive and lethal cases. Nuclear intermediate filament proteins called lamins play a role in chromatin organization, gene expression and cell stiffness. The expression of lamin A is associated with poor outcome in colorectal cancer but to date the prognostic value of the lamins has not been tested in other solid tumors. METHODS: We studied the expression of different lamins with immunohistochemistry in a tissue microarray material of 501 PCa patients undergoing radical prostatectomy and lymph node dissection. Patients were divided into two staining categories (low and high expression). The correlation of lamin expression with clinicopathological variables was tested and the association of lamin status with biochemical recurrence (BCR) and disease specific survival (DSS) was further analyzed. RESULTS: Low expression of lamin A associated with lymph node positivity (p<0.01) but not with other clinicopathological variables and low expression had a borderline independent significant association with DSS (HR = 0.4; 95% CI 0.2-1.0; p = 0.052). Similarly, low lamin C expression associated with poorer survival (HR = 0.2; 95% CI 0.1-0.6; p = 0.004). Lamin B1 expression did not associate with clinicopathological variables but high expression independently predicted BCR in multivariable Cox regression analysis (HR = 1.8; 95% CI 1.1-2.9; p = 0.023). Low expression of lamin B2 correlated with lymph node positivity (p<0.01) and predicted unfavorable DSS (HR = 0.4; 95% CI 0.2-1.0; p = 0.047). CONCLUSIONS: These results suggest differential roles for lamins in PCa progression. Reduced amounts of lamin A/C and B2 increase risk for lymph node metastasis and disease specific death possibly through increased nuclear deformability while high expression of lamin B1 predicts disease recurrence.

Expression of nuclear membrane proteins in normal, hyperplastic, and neoplastic thyroid epithelial cells.

Emerin, lamin A/C, lamin B, and lamin-associated polypeptide 2 (LAP2) are nuclear membrane proteins that play an important role in maintaining nuclear structure and coordinating cell activity. We studied the expression and significance of nuclear membrane proteins in neoplastic thyroid cells by immunohistochemistry, RT-PCR, and real-time PCR. In papillary carcinomas (PCs), the nuclear proteins most frequently expressed at high levels were emerin (82 % positive), lamin A/C (64 %), and LAP2 (82 %). Follicular carcinomas (FCs) most frequently expressed lamin B, while none of the undifferentiated carcinomas (UCs) showed strong expression of emerin or lamin A/C. In all medullary carcinomas (MCs), intermediate to high levels of expression of lamin A/C and LAP2 were found. By RT-PCR analysis, messenger RNA (mRNA) expression of all nuclear membrane proteins except emerin was higher in PC than in normal tissue. Real-time PCR analysis showed that mRNA expression of nuclear membrane protein varied between cell lines. Our findings suggest that expression of nuclear membrane proteins may be related to follicular function in normal and hyperplastic follicles, and we hypothesize that they are also involved in the proliferation and differentiation of neoplastic thyroid cells. We suggest that they reflect the biological nature and/or function of normal, hyperplastic, and neoplastic thyroid cells and may have some value in diagnosing thyroid tumors.

Recruitment of HP1ß to UVA-induced DNA lesions is independent of radiation-induced changes in A-type lamins.

BACKGROUND INFORMATION: The optimal repair of DNA lesions is fundamental for physiological processes. We asked whether the recruitment of HP1ß, 53BP1 and BMI1 proteins to ultraviolet (UVA)-induced DNA lesions requires functional A-type lamins. RESULTS: We found that UVA irradiation of nuclear lamina abolished the fluorescence of mCherry-tagged A-type lamins and destroyed the nuclear lamina as also observed by electron microscopy studies. Similarly, an absence of endogenous A- and B-type lamins was found in irradiated regions by UVA. However, irradiation did not affect the recruitment of HP1ß, 53BP1 and BMI1 to DNA lesions. The UVA-induced shrinkage of the nuclear lamina, which anchors chromatin, explains why UVA-micro-irradiated chromatin is relaxed. Conversely, additional experiments with γ-irradiation showed that the nuclear lamina remained intact and the genome-wide level of HP1ß was stable. Fluorescence intensity of HP1ß and BMI1 in UVA-induced DNA lesions and level of HP1ß after γ-irradiation were unaffected by deficiency in A-type lamins, whereas those parameters of 53BP1 were changed. CONCLUSIONS: We conclude that only the 53BP1 status in DNA lesions, induced by UVA or γ-rays, is affected by A-type lamin deficiency, which was not observed for heterochromatin-related proteins HP1ß and BMI1.

LMNA variants cause cytoplasmic distribution of nuclear pore proteins in Drosophila and human muscle.

Mutations in the human LMNA gene, encoding A-type lamins, give rise to laminopathies, which include several types of muscular dystrophy. Here, heterozygous sequence variants in LMNA, which result in single amino-acid substitutions, were identified in patients exhibiting muscle weakness. To assess whether the substitutions altered lamin function, we performed in vivo analyses using a Drosophila model. Stocks were generated that expressed mutant forms of the Drosophila A-type lamin modeled after each variant. Larvae were used for motility assays and histochemical staining of the body-wall muscle. In parallel, immunohistochemical analyses were performed on human muscle biopsy samples from the patients. In control flies, muscle-specific expression of the wild-type A-type lamin had no apparent affect. In contrast, expression of the mutant A-type lamins caused dominant larval muscle defects and semi-lethality at the pupal stage. Histochemical staining of larval body wall muscle revealed that the mutant A-type lamin, B-type lamins, the Sad1p, UNC-84 domain protein Klaroid and nuclear pore complex proteins were mislocalized to the cytoplasm. In addition, cytoplasmic actin filaments were disorganized, suggesting links between the nuclear lamina and the cytoskeleton were disrupted. Muscle biopsies from the patients showed dystrophic histopathology and architectural abnormalities similar to the Drosophila larvae, including cytoplasmic distribution of nuclear envelope proteins. These data provide evidence that the Drosophila model can be used to assess the function of novel LMNA mutations and support the idea that loss of cellular compartmentalization of nuclear proteins contributes to muscle disease pathogenesis.

Loss of lamin A/C expression in stage II and III colon cancer is associated with disease recurrence.

AIM OF THE STUDY: Loss of the nuclear lamina protein lamin A/C (LMNA) has been observed in several human malignancies. The present study aimed to investigate associations between LMNA expression and clinical outcome in colon cancer patients. PATIENTS AND METHODS: Clinicopathological data and formalin-fixed paraffin embedded tissues were collected from 370 stage II and III colon cancer patients. Tissue microarrays were constructed, stained for lamin A/C and evaluated microscopically. Microsatellite instability status was determined for 318 tumours. RESULTS: Low levels of LMNA expression were observed in 17.8% of colon tumours, with disease recurrence occurring in 45.5% of stage II and III colon cancer patients with LMNA-low expressing tumours compared to 29.6% of patients with LMNA-high expressing tumours (p=0.01). For stage II patients, disease recurrence was observed for 35.7% of LMNA-low compared to 20.3% of LMNA-high expressing tumours (p=0.03). Microsatellite stable (MSS) tumours exhibited more frequently low LMNA expression than microsatellite instable (MSI) tumours (21% versus 9.8%; p=0.05). Interestingly, disease recurrence among LMNA-low and LMNA-high expressing MSS tumours varied significantly for stage III patients who had not received adjuvant chemotherapy (100% versus 37.8%; p<0.01) while no such difference was observed for patients who received adjuvant chemotherapy (46.7% versus 46.0%; p=0.96). CONCLUSION: These data indicate that low expression of LMNA is associated with an increased disease recurrence in stage II and III colon cancer patients, and suggest that these patients in particular may benefit from adjuvant chemotherapy.

Proteomic analysis for nuclear proteins related to tumour malignant progression: a comparative proteomic study between malignant progressive cells and regressive cells.

Tumour development and progression consists a series of multiple changes in gene expression. Progressive tumour cells acquire more aggressive properties manifested by rapid growth, invasiveness and metastatic ability, as well as increased genetic instability leading to multiple genetic alterations. Therefore, it is crucial to identify the possible intracellular and extracellular molecular mechanisms that accelerate tumour progression, in particular to identify nuclear proteins which interact with DNA. Nuclear proteomics provides an opportunity to qualitatively and quantitatively examine protein effectors that contribute to cellular phenotype. This study performed a differential display analysis for the expression of nuclear proteome between regressive tumour cell clone QR-32 and malignant progressive tumour cell clone QRsP-11 using two-dimensional gel electrophoresis (2-DE) and mass spectrometry (MS). Eight nuclear proteins whose expressions were different between QR-32 and QRsP-11 cells were identified. Seven of those protein spots, zinc finger protein ZXDC, lamin-A/C, far upstream clement-binding protein 1, heterogeneous nuclear ribonucleoprotein K, heterogeneous nuclear ribonucleoprotein A/B and guanine nucleotide-binding protein G(I)/G(S)/G(T) subunit beta-1, were down-regulated in QRsP-11, while one protein, nucleolin, was up-regulated in QRsP-11.

Tethering by lamin A stabilizes and targets the ING1 tumour suppressor.

ING proteins interact with core histones through their plant homeodomains (PHDs) and with histone acetyltransferase (HAT) and histone deacetylase (HDAC) complexes to alter chromatin structure. Here we identify a lamin interaction domain (LID) found only in ING proteins, through which they bind to and colocalize with lamin A. Lamin knockout (LMNA(-/-)) cells show reduced levels of ING1 that mislocalize. Ectopic lamin A expression increases ING1 levels and re-targets it to the nucleus to act as an epigenetic regulator. ING1 lacking the LID does not interact with lamin A or affect apoptosis. In LMNA(-/-) cells, apoptosis is not affected by ING1. Mutation of lamin A results in several laminopathies, including Hutchinson-Gilford progeria syndrome (HGPS), a severe premature ageing disorder. HGPS cells have reduced ING1 levels that mislocalize. Expression of LID peptides to block lamin A-ING1 interaction induces phenotypes reminiscent of laminopathies including HGPS. These data show that targeting of ING1 to the nucleus by lamin A maintains ING1 levels and biological function. Known roles for ING proteins in regulating apoptosis and chromatin structure indicate that loss of lamin A-ING interaction may be an effector of lamin A loss, contributing to the HGPS phenotype.

Hutchinson-Gilford progeria syndrome: clinical findings in three patients carrying the G608G mutation in LMNA and review of the literature.

BACKGROUND: Hutchinson-Gilford progeria syndrome (HGPS) is a rare premature ageing disorder that belongs to a group of conditions called laminopathies which affect nuclear lamins. Classical and atypical forms of HGPS have been reported and there are clinical overlaps with mandibulo-acral dysplasia and restrictive dermopathy. To date, mutations in two genes, LMNA and ZMPSTE24, have been found in patients with HGPS. The p.G608G LMNA mutation is the most commonly reported mutation. Correlations between genotype and phenotype in children with progeroid syndromes are beginning to emerge. OBJECTIVES: To establish whether the LMNA p.G608G mutation is associated with a particular phenotype of HGPS. METHODS: We reviewed the clinical features and skin histology of three children with HGPS associated with the p.G608G LMNA mutation, and compared our findings with those reported in the literature. RESULTS: Our patients shared a very similar presentation and clinical course. Skin changes were the earliest finding in all three. Skin histology showed nonspecific changes only. CONCLUSIONS: The LMNA p.G608G mutation results in a uniform phenotype through early to mid-childhood, in keeping with that described in classical HGPS. Skin changes are the earliest distinctive clinical finding and should prompt careful physical and radiological examination for other features of HGPS. Skin biopsy for histology is not a useful investigation when a diagnosis of HGPS is suspected.

Experimental evidence for the influence of molecular crowding on nuclear architecture.

Many compounds in the cell nucleus are structurally organized. To assess the influence of structural organization on nuclear function, we investigated the physical mechanisms of structure formation by using molecular crowding as a parameter for nuclear integrity. Molecular crowding promotes compaction of macromolecular compounds depending on their size and shape without the need for site-specific interactions. HeLa and MCF7 cells were incubated with hypertonic medium to increase crowding of their macromolecular content as a result of the osmotic loss of water. Supplementation of sucrose, sorbitol or NaCl to the growth medium shifted nuclear organization, observed by fluorescence and electron microscopy, towards compaction of chromatin and segregation of other nuclear compounds. With increasing hypertonic load and incubation time, this nuclear re-organization proceeded gradually, irrespective of the substances used, and reversibly relaxed to a regular phenotype upon re-incubation of cells in isotonic growth medium. Gradual and reversible re-organization are major features of controlled de-mixing by molecular crowding. Of fundamental importance for nuclear function, we discuss how macromolecular crowding could account for the stabilization of processes that involve large, macromolecular machines.

Differential expression of nuclear lamins in normal and cancerous prostate tissues.

The process of carcinogenesis is characterized by definite changes in the protein composition of the nuclear matrix. We have recently found that lamins form, in addition to the nuclear lamina, an intranuclear web of thin fibrils. This finding prompted us to address the question of whether changes in the expression of lamins occur in the course of tumor development. In prostate cancer, lamin B undergoes a significant increase; interestingly, its nuclear content strongly correlates with tumor differentiation. Moreover, all the lamins show reproducible alterations in the distribution of the isoelectric variants, suggesting that dephosphorylation events could trigger changes in the pattern of gene expression by inducing structural rearrangements of the nuclear scaffold.

Hutchinson-Gilford progeria mutant lamin A primarily targets human vascular cells as detected by an anti-Lamin A G608G antibody.

Hutchinson-Gilford progeria syndrome (HGPS; Online Mendelian Inheritance in Man accession no. 176670) is a rare disorder that is characterized by segmental premature aging and death between 7 and 20 years of age from severe premature atherosclerosis. Mutations in the LMNA gene are responsible for this syndrome. Approximately 80% of HGPS cases are caused by a G608 (GGC-->GGT) mutation within exon 11 of LMNA, which elicits a deletion of 50 aa near the C terminus of prelamin A. In this article, we present evidence that the mutant lamin A (progerin) accumulates in the nucleus in a cellular age-dependent manner. In human HGPS fibroblast cultures, we observed, concomitantly to nuclear progerin accumulation, severe nuclear envelope deformations and invaginations preventable by farnesyltransferase inhibition. Nuclear alterations affect cell-cycle progression and cell migration and elicit premature senescence. Strikingly, skin biopsy sections from a subject with HGPS showed that the truncated lamin A accumulates primarily in the nuclei of vascular cells. This finding suggests that accumulation of progerin is directly involved in vascular disease in progeria.

Cytoskeletal influences on nuclear shape in granulocytic HL-60 cells.

BACKGROUND: During granulopoiesis in the bone marrow, the nucleus differentiates from ovoid to lobulated shape. Addition of retinoic acid (RA) to leukemic HL-60 cells induces development of lobulated nuclei, furnishing a convenient model system for nuclear differentiation during granulopoiesis. Previous studies from our laboratory have implicated nuclear envelope composition as playing important roles in nuclear shape changes. Specifically noted were: 1) a paucity of lamins A/C and B1 in the undifferentiated and RA treated cell forms; 2) an elevation of lamin B receptor (LBR) during induced granulopoiesis. RESULTS: The present study demonstrates that perturbation of cytoskeletal elements influences nuclear differentiation of HL-60 cells. Because of cytotoxicity from prolonged exposure to cytoskeleton-modifying drugs, most studies were performed with a Bcl-2 overexpressing HL-60 subline. We have found that: 1) nocodazole prevents RA induction of lobulation; 2) taxol induces lobulation and micronuclear formation, even in the absence of RA; 3) cytochalasin D does not inhibit RA induced nuclear lobulation, and prolonged exposure induces nuclear shape changes in the absence of RA. CONCLUSIONS: The present results, in the context of earlier data and models, suggest a mechanism for granulocytic nuclear lobulation. Our current hypothesis is that the nuclear shape change involves factors that increase the flexibility of the nuclear envelope (reduced lamin content), augment connections to the underlying heterochromatin (increased levels of LBR) and promote distortions imposed by the cytoskeleton (microtubule motors creating tension in the nuclear envelope).