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ABSTRACT: Prelamin A processing impairment is a common feature of a restricted group of rare genetic alterations/disorders associated with a wide range of clinical phenotypes. Changes in histone posttranslational modifications, alterations in non-histone chromatin proteins and chromatin disorganization have been specifically linked to impairment of specific, distinct prelamin A processing steps, but the molecular mechanism involved in these processes is not yet understood . In this study, we show that the accumulation of wild-type prelamin A detected in restrictive dermopathy (RD), as well as the accumulation of mutated forms of prelamin A identified in familial partial lipodystrophy (FPLD) and mandibuloacral dysplasia (MADA), affect the nuclear localization of barrier-to-autointegration factor (BAF), a protein able to link lamin A precursor to chromatin remodeling functions. Our findings, in accordance with previously described results, support the hypothesis of a prelamin A involvement in BAF nuclear recruitment and suggest BAF-prelamin A complex as a protein platform usually activated in prelamin A-accumulating diseases. Finally, we demonstrate the involvement of the inner nuclear membrane protein emerin in the proper localization of BAF-prelamin A complex.
Cell cycle (Georgetown, Tex.) 08/2012; 11(19):3568-77. · 5.36 Impact Factor
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Daria Camozzi,
Maria Rosaria D'Apice,
Elisa Schena,
Vittoria Cenni,
Marta Columbaro, Cristina Capanni,
Nadir M Maraldi,
Stefano Squarzoni,
Michela Ortolani,
Giuseppe Novelli,
Giovanna Lattanzi
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ABSTRACT: Mandibuloacral dysplasia type A (MADA) is a rare laminopathy characterized by growth retardation, craniofacial anomalies, bone resorption at specific sites including clavicles, phalanges and mandibula, mottled cutaneous pigmentation, skin rigidity, partial lipodystrophy, and insulin resistance. The disorder is caused by recessive mutations of the LMNA gene encoding for A-type lamins. The molecular feature of MADA consists in the accumulation of the unprocessed lamin A precursor, which is detected at the nuclear rim and in intranuclear aggregates. Here, we report the characterization of prelamin A post-translational modifications in MADA cells that induce alterations in the chromatin arrangement and dislocation of nuclear envelope-associated proteins involved in correct nucleo-cytoskeleton relationships. We show that protein post-translational modifications change depending on the passage number, suggesting the onset of a feedback mechanism. Moreover, we show that treatment of MADA cells with the farnesyltransferase inhibitors is effective in the recovery of the chromatin phenotype, altered in MADA, provided that the cells are at low passage number, while at high passage number, the treatment results ineffective. Moreover, the distribution of the lamin A interaction partner SUN2, a constituent of the nuclear envelope, is altered by MADA mutations, as argued by the formation of a highly disorganized lattice. Treatment with statins partially rescues proper SUN2 organization, indicating that its alteration is caused by farnesylated prelamin A accumulation. Given the major role of SUN1 and SUN2 in the nucleo-cytoskeleton interactions and in regulation of nuclear positioning in differentiating cells, we hypothesise that mechanisms regulating nuclear membrane-centrosome interplay and nuclear movement may be affected in MADA fibroblasts.
Histochemie 06/2012; 138(4):643-51. · 2.59 Impact Factor
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ABSTRACT: Laminopathies are genetic diseases due to mutations or altered post-translational processing of nuclear envelope/lamina proteins. The majority of laminopathies are caused by mutations in the LMNA gene, encoding lamin A/C, but manifest as diverse pathologies including muscular dystrophy, lipodystrophy, neuropathy, and progeroid syndromes. Lamin-binding proteins implicated in laminopathies include lamin B2, nuclear envelope proteins such as emerin, MAN1, LBR, and nesprins, the nuclear matrix protein matrin 3, the lamina-associated polypeptide, LAP2alpha and the transcriptional regulator FHL1. Thus, the altered functionality of a nuclear proteins network appears to be involved in the onset of laminopathic diseases. The functional interplay among different proteins involved in this network implies signaling partners. The signaling effectors may either modify nuclear envelope proteins and their binding properties, or use nuclear envelope/lamina proteins as platforms to regulate signal transduction. In this review, both aspects of lamin-linked signaling are presented and the major pathways so far implicated in laminopathies are summarized.
Journal of Cellular Biochemistry 04/2011; 112(4):979-92. · 2.87 Impact Factor
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Sofia Avnet,
Rosanna Pallotta,
Francesca Perut,
Nicola Baldini,
Maria Gabriela Pittis,
Anita Saponari,
Enrico Lucarelli,
Barbara Dozza,
Tiziana Greggi,
Nadir M Maraldi, Cristina Capanni,
Elisabetta Mattioli,
Marta Columbaro,
Giovanna Lattanzi
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ABSTRACT: Mandibuloacral dysplasia type A (MADA) is a rare disease caused by mutations in the LMNA gene encoding A type lamins. Patients affected by mandibuloacral dysplasia type A suffer from partial lipodystrophy, skin abnormalities and accelerated aging. Typical of mandibuloacral dysplasia type A is also bone resorption at defined districts including terminal phalanges, mandible and clavicles. Little is known about the biological mechanism underlying osteolysis in mandibuloacral dysplasia type A. In the reported study, we analyzed an osteoblast primary culture derived from the cervical vertebrae of a mandibuloacral dysplasia type A patient bearing the homozygous R527H LMNA mutation. Mandibuloacral dysplasia type A osteoblasts showed nuclear abnormalities typical of laminopathic cells, but they proliferated in culture and underwent differentiation upon stimulation with dexamethasone and beta-glycerophosphate. Differentiated osteoblasts showed proper production of bone mineral matrix until passage 8 in culture, suggesting a good differentiation activity. In order to evaluate whether mandibuloacral dysplasia type A osteoblast-derived factors affected osteoclast differentiation or activity, we used a conditioned medium from mandibuloacral dysplasia type A or control cultures to treat normal human peripheral blood monocytes and investigated whether they were induced to differentiate into osteoclasts. A higher osteoclast differentiation and matrix digestion rate was obtained in the presence of mandibuloacral dysplasia type A osteoblast medium with respect to normal osteoblast medium. Further, TGFbeta 2 and osteoprotegerin expression were enhanced in mandibuloacral dysplasia type A osteoblasts while the RANKL/osteoprotegerin ratio was diminished. Importantly, inhibition of TGFbeta 2 by a neutralizing antibody abolished the effect of mandibuloacral dysplasia type A conditioned medium on osteoclast differentiation. These data argue in favor of an altered bone turnover in mandibuloacral dysplasia type A, caused by upregulation of bone-derived stimulatory cytokines, which activate non-canonical differentiation stimuli. In this context, TGFbeta 2 appears as a major player in the osteolytic process that affects mandibuloacral dysplasia type A patients.
Biochimica et Biophysica Acta 03/2011; 1812(7):711-8. · 4.66 Impact Factor
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Marta Columbaro,
Elisabetta Mattioli,
Elisa Schena, Cristina Capanni,
Vittoria Cenni,
Nicolas Levy,
Claire L Navarro,
Rosalba Del Coco,
Stefano Squarzoni,
Daria Camozzi,
Chris J Hutchison,
Manfred Wehnert,
Giovanna Lattanzi
Cell cycle (Georgetown, Tex.) 12/2010; 9(23):4766-8. · 5.36 Impact Factor
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ABSTRACT: The objective of this study was to investigate how long-term cardioplegia/reperfusion affects cardiac nitric oxide synthase 3 (NOS3). To this aim, rat hearts were mounted in a perfusion apparatus and equilibrated with a modified Krebs-Henseleit solution (KH). The hearts were then arrested by soaking them in cold St. Thomas Hospital II solution (STH) for 5, 7, and 15 h. Reperfusion was performed by low-flow cold STH delivering for 1 h followed by 15-min aerobic normothermic KH perfusion. Cardioplegia preserved the amount of NOS3 irrespective of the duration of the cardiac arrest. NOS3 content was also unaffected by reperfusion following 5 and 7 h of cardioplegia. On the contrary, reperfusion performed after 15 h of cardioplegia caused a marked reduction in the amount of NOS3 protein, in both endothelial and cardiac muscle cells, and NOS activity. The involvement of intracellular proteolysis as a cause of reduction in NOS3 cardiac level was then investigated by delivering 0.1 mmol/L of either calpain I and II inhibitors or 0.05 mmol/L leupeptin during heart reperfusion. Only the treatment with leupeptin preserved NOS3, indicating that lysosomal proteases rather then cytoplasmic calpains were mainly responsible for the cleavage of this enzyme. The observed decrease in GSH/GSSG ratio and activation of JNK in the reperfused heart suggested that proteolysis could be triggered by reactive oxygen species.
Journal of Surgical Research 11/2010; 164(1):e27-35. · 2.25 Impact Factor
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ABSTRACT: Lamin A is a nuclear envelope constituent involved in a group of human disorders, collectively referred to as laminopathies, which include Emery-Dreifuss muscular dystrophy. Because increasing evidence suggests a role of lamin A precursor in nuclear functions, we investigated the processing of prelamin A along muscle differentiation. Both protein levels and cellular localization of prelamin A appears to be modulated during C2C12 mouse myoblasts activation. Similar changes also occur in the expression of two lamin A-binding proteins: emerin and LAP2α. Furthermore prelamin A forms a complex with LAP2α in differentiating myoblasts. Prelamin A accumulation in cycling myoblasts by expressing unprocessable mutants affects LAP2α and PCNA amount and increases caveolin 3 mRNA and protein levels, whilst accumulation of prelamin A in differentiated muscle cells following treatment with a farnesyl transferase inhibitor inhibits caveolin 3 expression. These data provide evidence for a critical role of lamin A precursor in the early steps of muscle cell differentiation. In fact the post-translational processing of prelamin A affects caveolin 3 expression and influences the myoblast differentiation process. Thus, altered lamin A processing could affect myoblast differentiation and/or muscle regeneration and might contribute to the myopathic phenotype.
Advances in enzyme regulation 10/2010; 51(1):246-56.
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ABSTRACT: Lamin A, a protein component of the nuclear lamina, is synthesized as a precursor named prelamin A, whose multi-step maturation process involves different protein intermediates. As demonstrated in laminopathies such as familial partial lipodystrophy, mandibuloacral dysplasia, Werner syndrome, Hutchinson-Gilford progeria syndrome and restrictive dermopathy, failure of prelamin A processing results in the accumulation of lamin A protein precursors inside the nucleus which dominantly produces aberrant chromatin structure. To understand if nuclear lamina components may be involved in prelamin A chromatin remodeling effects, we investigated barrier-to-autointegration factor (BAF) localization and expression in prelamin A accumulating cells. BAF is a DNA-binding protein that interacts directly with histones, lamins and LEM-domain proteins and has roles in chromatin structure, mitosis and gene regulation. In this study, we show that the BAF heterogeneous localization between nucleus and cytoplasm observed in HEK293 cycling cells changes in response to prelamin A accumulation. In particular, we observed that the accumulation of lamin A, non-farnesylated prelamin A and farnesylated carboxymethylated lamin A precursors induce BAF nuclear translocation. Moreover, we show that the treatment of human fibroblasts with prelamin A interfering drugs results in similar changes. Finally, we report that the accumulation of progerin, a truncated form of farnesylated and carboxymethylated prelamin A identified in Hutchinson-Gilford progeria syndrome cells, induces BAF recruitment in the nucleus. These findings are supported by coimmunoprecipitation of prelamin A or progerin with BAF in vivo and suggest that BAF could mediate prelamin A-induced chromatin effects.
Cell cycle (Georgetown, Tex.) 07/2010; 9(13):2600-10. · 5.36 Impact Factor
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ABSTRACT: Emerin is a nuclear envelope protein that contributes to nuclear architecture, chromatin structure, and gene expression through its interaction with various nuclear proteins. In particular, emerin is molecularly connected with the nuclear lamina, a protein meshwork composed of lamins and lamin-binding proteins underlying the inner nuclear membrane. Among nuclear lamina components, lamin A is a major emerin partner. Lamin A, encoded by the LMNA gene (lamin A/C gene), is produced as a precursor protein (prelamin A) that is post-transcriptionally modified at its C-terminal region where the CaaX motif triggers a sequence of modifications, including farnesylation, carboxymethylation, and proteolytic cleavage by ZMPSTE 24 (zinc metalloproteinase Ste24) metalloproteinase. Impairment of the lamin A maturation pathway causing lamin A precursor accumulation is linked to the development of rare diseases such as familial partial lipodystrophy, MADA (mandibuloacral dysplasia), the Werner syndrome, Hutchinson-Gilford progeria syndrome and RD (restrictive dermopathy).
In the present study, we show that emerin and different prelamin A forms influence each other's localization. We show that the accumulation of non-farnesylated as well as farnesylated carboxymethylated lamin A precursors in human fibroblasts modifies emerin localization. On the contrary, emerin absence at the inner nuclear membrane leads to unprocessed (non-farnesylated) prelamin A aberrant localization only. Moreover, we observe that the restoration of emerin expression in emerin-null cells induces the recovery of non-farnesylated prelamin A localization.
These results indicate that emerin-prelamin A interplay influences nuclear organization. This finding may be relevant to the understanding of laminopathies.
Biology of the Cell 04/2009; 101(9):541-54. · 3.60 Impact Factor
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Cristina Capanni,
Rosalba Del Coco,
Stefano Squarzoni,
Marta Columbaro,
Elisabetta Mattioli,
Daria Camozzi,
Anna Rocchi,
Katia Scotlandi,
Nadir Maraldi,
Roland Foisner,
Giovanna Lattanzi
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ABSTRACT: Lamin A is a nuclear lamina constituent implicated in a number of human disorders including Emery-Dreifuss muscular dystrophy. Since increasing evidence suggests a role of the lamin A precursor in nuclear functions, we investigated the processing of prelamin A during differentiation of C2C12 mouse myoblasts. We show that both protein levels and cellular localization of prelamin A are modulated during myoblast activation. Similar changes of lamin A-binding proteins emerin and LAP2alpha were observed. Furthermore, prelamin A was found in a complex with LAP2alpha in differentiating myoblasts. Prelamin A accumulation in cycling myoblasts by expressing unprocessable mutants affected LAP2alpha and PCNA amount and increased caveolin 3 mRNA and protein levels, while accumulation of prelamin A in differentiated muscle cells following treatment with a farnesyl transferase inhibitor appeared to inhibit caveolin 3 expression. Our data provide evidence for a critical role of the lamin A precursor in the early steps of muscle cell differentiation.
Experimental Cell Research 11/2008; 314(20):3628-37. · 3.58 Impact Factor
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ABSTRACT: A fundamental step in the efficient production of human cytomegalovirus (HCMV) progeny is viral egress from the nucleus to the cytoplasm of infected cells. In the family Herpesviridae, this process involves alteration of nuclear lamina components by two highly conserved proteins, whose homologues in HCMV are named pUL50 and pUL53. This study showed that HCMV infection induced the mislocalization of nuclear lamins and that pUL50 and pUL53 play a role in this event. At late stages of infection, both lamin A/C and lamin B showed an irregular distribution on the nuclear rim, coincident with areas of pUL53 accumulation. No variations in the total amount of nuclear lamins could be detected, supporting the view that HCMV induces a qualitative, rather than a quantitative, alteration of these cellular components, as has been suggested previously for other herpesviruses. Interestingly, pUL53, in the absence of other viral products, localized diffusely in the nucleus, whilst the co-expression and interaction of pUL53 with its partner, pUL50, restored its nuclear rim localization in distinct patches, thus indicating that pUL50 is sufficient to induce the localization of pUL53 observed during virus infection. Importantly, analysis of the nuclear lamina in the presence of pUL50-pUL53 complexes at the nuclear boundary and in the absence of other viral products showed that the two viral proteins were sufficient to promote alterations of lamins, strongly resembling those observed during HCMV infection. These results suggest that pUL50 and pUL53 may play an important role in the exit of virions from the nucleus by inducing structural modifications of the nuclear lamina.
Journal of General Virology 04/2008; 89(Pt 3):731-40. · 3.36 Impact Factor
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Elisabetta Mattioli,
Marta Columbaro, Cristina Capanni,
Spartaco Santi,
Nadir M Maraldi,
M Rosaria D'Apice,
Giuseppe Novelli,
Massimo Riccio,
Stefano Squarzoni,
Roland Foisner,
Giovanna Lattanzi
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ABSTRACT: Increasing interest in drugs acting on prelamin A has derived from the finding of prelamin A involvement in severe laminopathies. Amelioration of the nuclear morphology by inhibitors of prelamin A farnesylation has been widely reported in progeroid laminopathies. We investigated the effects on chromatin organization of two drugs inhibiting prelamin A processing by an ultrastructural and biochemical approach. The farnesyltransferase inhibitor FTI-277 and the non-peptidomimetic drug N-acetyl-S-farnesyl-l-cysteine methylester (AFCMe) were administered to cultured control human fibroblasts for 6 or 18 h. FTI-277 interferes with protein farnesylation causing accumulation of non-farnesylated prelamin A, while AFCMe impairs the last cleavage of the lamin A precursor and is expected to accumulate farnesylated prelamin A. FTI-277 caused redistribution of heterochromatin domains at the nuclear interior, while AFCMe caused loss of heterochromatin domains, increase of nuclear size and nuclear lamina thickening. At the biochemical level, heterochromatin-associated proteins and LAP2 alpha were clustered at the nuclear interior following FTI-277 treatment, while they were unevenly distributed or absent in AFCMe-treated nuclei. The reported effects show that chromatin is an immediate target of FTI-277 and AFCMe and that dramatic remodeling of chromatin domains occurs following treatment with the drugs. These effects appear to depend, at least in part, on the accumulation of prelamin A forms, since impairment of prelamin A accumulation, here obtained by 5-azadeoxycytidine treatment, abolishes the chromatin effects. These results may be used to evaluate downstream effects of FTIs or other prelamin A inhibitors potentially useful for the therapy of laminopathies.
Experimental Cell Research 03/2008; 314(3):453-62. · 3.58 Impact Factor
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ABSTRACT: Metastasis is the most frequent cause of death among patients with osteosarcoma. We have previously demonstrated in independent experiments that the forced expression of L/B/K ALP and CD99 in U-2 OS osteosarcoma cell lines markedly reduces the metastatic ability of these cancer cells. This behavior makes these cell lines a useful model to assess the intersection of multiple and independent gene expression signatures concerning the biological problem of dissemination. With the aim to characterize a common transcriptional profile reflecting the essential features of metastatic behavior, we employed cDNA microarrays to compare the gene expression profiles of L/B/K ALP- and CD99-transfected osteosarcoma clones showing low metastatic ability with those of osteosarcoma cell lines showing contrasting behavior. Changes in gene expression were validated by real-time PCR and immunohistochemistry in independent samples. In our study we identified several differentially expressed genes (GADD45alpha, VCP, DHX9, survivin, alpha-catulin, ARPC1B) related to growth arrest and apoptosis. Most of these genes are functionally related with the nuclear factor (NF)-kappaB cell survival pathway that appeared to be inhibited in the less malignant osteosarcoma cells. Hence, we propose the inhibition of the NF-kappaB pathway as a rational strategy for effective management of human osteosarcoma.
International Journal of Oncology 02/2008; 32(1):17-31. · 2.40 Impact Factor
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Giovanna Lattanzi,
Marta Columbaro,
Elisabetta Mattioli,
Vittoria Cenni,
Daria Camozzi,
Manfred Wehnert,
Spartaco Santi,
Massimo Riccio,
Rosalba Del Coco,
Nadir M Maraldi,
Stefano Squarzoni,
Roland Foisner, Cristina Capanni
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ABSTRACT: Pre-lamin A undergoes subsequent steps of post-translational modification at its C-terminus, including farnesylation, methylation, and cleavage by ZMPSTE24 metalloprotease. Here, we show that accumulation of different intermediates of pre-lamin A processing in nuclei, induced by expression of mutated pre-lamin A, differentially affected chromatin organization in human fibroblasts. Unprocessed (non-farnesylated) pre-lamin A accumulated in intranuclear foci, caused the redistribution of LAP2alpha and of the heterochromatin markers HP1alpha and trimethyl-K9-histone 3, and triggered heterochromatin localization in the nuclear interior. In contrast, the farnesylated and carboxymethylated lamin A precursor accumulated at the nuclear periphery and caused loss of heterochromatin markers and Lap2alpha in enlarged nuclei. Interestingly, pre-lamin A bound both HP1alpha and LAP2alpha in vivo, but the farnesylated form showed reduced affinity for HP1alpha. Our data show a link between pre-lamin A processing and heterochromatin remodeling and have major implications for understanding molecular mechanisms of human diseases linked to mutations in lamins.
Journal of Cellular Biochemistry 01/2008; 102(5):1149-59. · 2.87 Impact Factor
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Advances in enzyme regulation 12/2007; 48:209-23.
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Advances in Enzyme Regulation 02/2007; 47:154-67.
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ABSTRACT: The understanding of a common complex phenotype such as insulin resistance can be favoured by evaluation of monogenic syndromes. Clinical definition, pathogenesis, and therapeutical strategies for the insulin resistance syndrome can thus be improved by the characterization at the molecular genetic level of monogenic forms of lipodystrophies. Here we report experimental evidence on the pathogenic mechanism underlying insulin resistance in a rare form of laminopathy, due to mutation of the LMNA gene coding for lamin A/C, the Dunnigan-type familial partial lipodystrophy (FPLD). The defect, consisting in the intranuclear accumulation of mutant unprocessed precursors of lamin A, reduces the amount of the DNA-bound adipocyte transcription factor sterol regulatory element binding protein 1 (SREBP1) and lowers the peroxisome proliferator-activated receptor (PPARgamma) expression, causing the impairment of pre-adipocyte differentiation. The treatment with the PPARgamma ligand troglitazone (TDZ) is able to rescue the adipogenic program. Since FPLD recapitulates the essential metabolic abnormalities of the common insulin resistance syndrome, the beneficial effects of TDZ on monogenic lipodystrophies might provide a clue as to the future treatment strategies also for the common syndrome of insulin resistance.
Acta bio-medica: Atenei Parmensis 02/2007; 78 Suppl 1:207-15.
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Stefano Squarzoni,
Patrizia Sabatelli,
Natascha Bergamin,
Pascale Guicheney,
Ercan Demir,
Luciano Merlini,
Giovanna Lattanzi,
Andrea Ognibene, Cristina Capanni,
Elisabetta Mattioli,
Marta Columbaro,
Paolo Bonaldo,
Nadir Mario Maraldi
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ABSTRACT: Ultrastructural alterations of collagen VI in cultured fibroblasts and reduced collagen VI immunostaining in the papillary dermis and endomysium were detected in a patient with a mild form of Ullrich congenital muscular dystrophy caused by a COL6A3 gene mutation. The patient had been previously demonstrated to express an alpha3(VI) chain shorter than normal due to skipping of the mutated exon. We show that collagen VI filaments are not organized in a normal network in the extracellular matrix secreted by patient's cultured fibroblasts. Moreover, we demonstrate that in this patient the alpha3(VI) chain is produced in lower amounts and it is almost exclusively represented by the shorter, alternatively spliced N6-C5 isoform. These results suggest that different alpha3(VI) chain isoforms, containing also domains of the N10-N7 region, are required for assembling a proper collagen VI network in the extracellular matrix.
Journal of Cellular Physiology 02/2006; 206(1):160-6. · 3.87 Impact Factor
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Advances in Enzyme Regulation 02/2006; 46:33-49.
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Ilaria Filesi,
Francesca Gullotta,
Giovanna Lattanzi,
Maria Rosaria D'Apice, Cristina Capanni,
Anna Maria Nardone,
Marta Columbaro,
Gioacchino Scarano,
Elisabetta Mattioli,
Patrizia Sabatelli,
Nadir M Maraldi,
Silvia Biocca,
Giuseppe Novelli
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ABSTRACT: Autosomal recessive mandibuloacral dysplasia [mandibuloacral dysplasia type A (MADA); Online Mendelian Inheritance in Man (OMIM) no. 248370] is caused by a mutation in LMNA encoding lamin A/C. Here we show that this mutation causes accumulation of the lamin A precursor protein, a marked alteration of the nuclear architecture and, hence, chromatin disorganization. Heterochromatin domains are altered or completely lost in MADA nuclei, consistent with the finding that heterochromatin-associated protein HP1beta and histone H3 methylated at lysine 9 and their nuclear envelope partner protein lamin B receptor (LBR) are delocalized and solubilized. Both accumulation of lamin A precursor and chromatin defects become more severe in older patients. These results strongly suggest that altered chromatin remodeling is a key event in the cascade of epigenetic events causing MADA and could be related to the premature-aging phenotype.
Physiological Genomics 11/2005; 23(2):150-8. · 2.73 Impact Factor
