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Lamins A and C but not lamin B1 regulate nuclear mechanics   总被引:7,自引:0,他引:7  
Mutations in the nuclear envelope proteins lamins A and C cause a broad variety of human diseases, including Emery-Dreifuss muscular dystrophy, dilated cardiomyopathy, and Hutchinson-Gilford progeria syndrome. Cells lacking lamins A and C have reduced nuclear stiffness and increased nuclear fragility, leading to increased cell death under mechanical strain and suggesting a potential mechanism for disease. Here, we investigated the contribution of major lamin subtypes (lamins A, C, and B1) to nuclear mechanics by analyzing nuclear shape, nuclear dynamics over time, nuclear deformations under strain, and cell viability under prolonged mechanical stimulation in cells lacking both lamins A and C, cells lacking only lamin A (i.e. "lamin C-only" cells), cells lacking wild-type lamin B1, and wild-type cells. Lamin A/C-deficient cells exhibited increased numbers of misshapen nuclei and had severely reduced nuclear stiffness and decreased cell viability under strain. Lamin C-only cells had slightly abnormal nuclear shape and mildly reduced nuclear stiffness but no decrease in cell viability under strain. Interestingly, lamin B1-deficient cells exhibited normal nuclear mechanics despite having a significantly increased frequency of nuclear blebs. Our study indicates that lamins A and C are important contributors to the mechanical stiffness of nuclei, whereas lamin B1 contributes to nuclear integrity but not stiffness.  相似文献   

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C Stewart  B Burke 《Cell》1987,51(3):383-392
The nuclear lamina in adult mammalian somatic cells is composed of three major proteins, lamins A, B, and C. The expression of these proteins during the differentiation of teratocarcinomas and mouse embryogenesis is described. Embryos up to day 8 of gestation and embryonal carcinoma (EC) cells express only a single lamin species closely resembling, if not identical to, lamin B. Lamins A and/or C were detected in fertilized eggs, but disappear during the first 2-4 cleavage divisions, only reappearing in 8 day post-implantation embryos. These two lamins are absent from EC cells, but are strongly expressed in some of their derivatives. These results show that cells of the early mouse embryo do not have a functional requirement for lamins A and C and imply that the structural organization of the nucleus may change fundamentally during embryogenesis.  相似文献   

5.
The nuclear lamina is a complex meshwork of nuclear lamin filaments that lies on the interface of the nuclear envelope and chromatin and is important for cell maintenance, nucleoskeleton support, chromatin remodeling, and protein recruitment to the inner nucleolus. Protein and mRNA patterns for the major nuclear lamins were investigated in bovine in vitro fertilized (IVF) and nuclear transfer embryos. Expression of lamins A/C and B were examined in IVF bovine germinal vesicle (GV) oocytes, metaphase II oocytes, zygotes, 2-cell, 8-cell, 16-32-cell embryos, morulae, and blastocysts (n = 10). Lamin A/C was detected in 9/10 immature oocytes, 10/10 zygotes, 8/10 2-cell embryos, 4/10 morulae, 10/10 blastocysts but absent during the maternal embryonic transition. Lamin B was ubiquitously expressed during IVF preimplantation development but was only detected in 4/10 GV oocytes. Messenger RNA expression confirms that the major lamins, A/C and B1 are expressed throughout preimplantation development and transcribed by the embryo proper. Lamin A/C and B expression were observed (15 min, 30 min, 60 min, 120 min) following somatic cell nuclear transfer using adult fibroblasts and at the 2-cell, 8-cell, 16-32-cell, morula and blastocyst stage (n = 5). Altered expression levels and localization of nuclear lamins A/C and B was determined in nuclear transfer embryos during the first 2 hr post fusion, coincidental with only partial nuclear envelope breakdown as well as during the initial cleavage divisions, but was restored by the morula stage. This mechanical and molecular disruption of the nuclear lamina provides key evidence for incomplete nuclear remodeling and reprogramming following somatic cell nuclear transfer.  相似文献   

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Lamin proteins are components of metazoan cell nuclei. During evolution, two classes of lamin proteins evolved, A- and B-type lamins. B-type lamins are expressed in nearly all cell types and in all developmental stages and are thought to be indispensable for cellular survival. In contrast, A-type lamins have a more restricted expression pattern. They are expressed in differentiated cells and appear late in embryogenesis. In the earliest steps of mammalian development, A-type lamins are present in oocytes, pronuclei and during the first cleavage stages of the developing embryo. But latest after the 16-cell stage, A-type lamin proteins are not any longer detectable in embryonic cells. Amphibian oocytes and early embryos do not express lamin A. Moreover, extracts of Xenopus oocytes and eggs have the ability to selectively remove A-type lamins from somatic nuclei. This observation and the restricted expression pattern suggest that the presence of lamin A might interfere with developmental processes in the early phase of embryogenesis. To test this, we ectopically expressed lamin A during early embryonic development of Xenopus laevis by microinjection of synthetic mRNA. Here, we show that introducing mature lamin A does not interfere with normal development. However, expression of prelamin A or lamin A variants that cannot be fully processed cause severe disturbances and lead to apoptosis during gastrulation. The toxic effect is due to lack of the conversion of prenylated prelamin A to its mature form. Remarkably, even a cytoplasmic prelamin A variant that is excluded from the nucleus drives embryos into apoptosis.  相似文献   

7.
By immunocytochemistry, quantitative immunoblotting, and two-dimensional gel electrophoresis, we have analyzed the distribution of nuclear lamin proteins during chicken embryonic development. Whereas no qualitative differences in the patterns of expression of lamins A, B1, and B2 were observed during gametogenesis in either the female or the male germ line, profound changes in the composition of the nuclear lamina occurred during the development of somatic tissues. Most unexpectedly, early chicken embryos were found to contain little if any lamin A, although they contained substantial amounts of lamins B1 and B2. During embryonic development, lamin A became increasingly prominent, whereas the amounts of lamin B1 decreased in many tissues. Interestingly, the extent and the developmental timing of these changes displayed pronounced tissue-specific variations. Lamin B2 was expressed in fairly constant amounts in all cell types investigated (except for pachytene-stage germ cells). These results have implications for the purported functional specializations of individual lamin proteins. In addition, they suggest that alterations in the composition of the nuclear lamina may be important for the establishment of cell- or tissue-specific differences in nuclear architecture.  相似文献   

8.
Hemopoietic cells from blood and bone marrow of mammals usually do not express lamins A/C but only lamin B, and this feature distinguishes these cells from the vast majority of somatic cells of the adult animal, which reveal lamins A/C as well as lamin B. Here we have cultivated rat bone marrow precursor cells and human monocytes isolated from peripheral blood in tissue culture supplemented with certain growth factors. These conditions allow bone marrow precursor cells and monocytes to differentiate almost quantitatively into accessory cells and/or mature macrophages. The different cell types in the cultures can be identified both morphologically and by other assays. Antibodies specific for mouse A/C lamins, human A/C lamins, or B lamins have been used to define the lamin complement as a function of time in culture and of cell type. A dramatic increase in lamin A/C-positive cells was observed in the first 3 days of culture with both accessory cells and macrophages expressing lamins A/C as soon as such cell types could be identified. Parallel in vivo experiments showed that treatment with thioglycollate caused the percentage of lamin A/C-positive peritoneal macrophages to increase from 5 to 80% between Days 0 and 6.  相似文献   

9.
Expression of nuclear lamins during mouse preimplantation development   总被引:2,自引:0,他引:2  
The expression of nuclear lamins during mouse preimplantation development was studied by immunofluorescence, immunoblotting and immunoprecipitation. Two sera were used, specific either for lamin B or lamins A and C. Both sera gave a positive staining of the nuclear periphery throughout preimplantation development (fertilized eggs to late blastocysts). Immunoblots revealed that the three lamins were present in eggs and blastocysts. However, lamin A from eggs was found to have a higher apparent Mr than lamin A from blastocysts and other mouse cells. Using immunoprecipitation, synthesis of lamin A was detected in eggs while synthesis of lamin B was detected in 8-cell embryos and blastocysts, indicating that at least some of the lamins used during early development do not come from a store in the egg. These results are discussed in relation to the possible role of lamins during cell differentiation.  相似文献   

10.
The present study was designed to clarify the localization of LAP2beta and to compare it with those of lamins A/C and B in bovine oocytes after activation and in vitro fertilization (IVF). After fertilization, LAP2beta was not found until telophase II, and was observed around condensed chromatin after the extrusion of the second polar body, but not in activated oocytes. Although the reaction of LAP2beta was temporally negative or weak on the membrane of the growing small pronuclei, it became strong on the fully grown pronuclei of both activated and fertilized oocytes. Examination of the timing of DNA synthesis using bromodeoxyuridine revealed that the expression of LAP2beta on the pronuclear membrane became strong around the end of the DNA synthesis in both activated and fertilized oocytes. Both male and female pronuclei exhibited the same reactivity to all nuclear proteins examined. It was also shown that LAP2beta first assembled around condensed chromatin, followed by the integration of lamins B and A/C as in somatic cells. LAP2beta staining was maintained on the nuclear membrane of the embryonic cells at interphase until the later stage of preimplantational development. There were no differences between parthenogenetic and fertilized embryos in the expression and localization of LAP2beta from the PN-stage oocyte to the blastocyst. The assembly of LAP2beta was observed around the telophase chromatin of both blastocyst and cumulus cells. Thus, it was shown that the timing of the aggregation of LAP2beta at the second meiosis was different from that in the mitosis of blastocyst and somatic cells. LAP2beta was constantly expressed in the nuclear membrane in in vitro fertilized and parthenogenetic embryos as was lamin B, and lamin A/C was expressed stage-dependently in both types of embryos. Lamin A/C was positive in some inner cell mass cells of parthenogenetic blastocysts, but not those of in vitro fertilized embryos.  相似文献   

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