Dynamic properties of germ line-specific lamin B3: the role of the shortened rod domain

The mammalian lamin B2 gene codes for two proteins, the somatic lamin B2 and the germ line-specific lamin B3. Lamin B3 lacks the N-terminus and a part of the alpha-helical rod domain present in lamin B2. These domains are substituted by 84 amino acids unique for lamin B3. When ectopically expressed in somatic cells, lamin B3 causes severe deformation of nuclei which adopt a hook-like configuration. Accordingly, it was proposed that lamin B3 provides the germ line cells with a more flexible nuclear periphery that facilitates spermatogenesis-specific nuclear reorganization events. Here we investigated which protein domains of lamin B3 are responsible for nuclear deformation in transfected cells, and how stable is the nuclear periphery of these cells. Expression of wild-type and mutant lamins evidenced that nuclear deformations are due to the shortened rod domain of lamin B3. Cell fractionation experiments revealed that lamin B3 can be solubilized more easily than lamin B2. Fluorescence recovery after photobleaching (FRAP) and fluorescence loss in photobleaching (FLIP) analyses of transfected cells showed that lamin B3 has an increased mobility compared to B2. Our results lead to the conclusion that lamin B3 reduces the stability of the nuclear periphery. They are also consistent with the notion that lamin B3 is relevant to specific properties of the nuclear envelope during spermiogenesis.     

Towards understanding lamin gene regulation

The lamins are components of the nuclear lamina, which forms a fibrous meshwork lining the inner nuclear membrane. Lamina-membrane interactions play a crucial role during nuclear disassembly and reassembly at mitosis, whereas lamina-chromatin association has been proposed to be essential for chromatin organization. The composition of the lamina changes considerably during embryonic development and cell differentiation. Recent studies have provided insights into the regulation of the lamin genes.     

A fungal actin-related protein involved in nuclear migration

The ro-4 mutant of the filamentous fungus Neurospora crassa forms distinctive colonies in which hyphae grow into rope-like aggregates. This unusual morphology coincides with a defect in hyphal nuclear migration. The ro-4 gene was cloned from a cosmid library by complementation of the closely linked pab-2 gene. The deduced 380 amino acid protein is most similar to the vertebrate actin-related protein/centractin. The R04 protein is not essential for cell viability, and new strains created by inducing point mutations at the ro-4 locus have a phenotype which is very similar to that of the original mutant. This study provides genetic evidence that an actin-related protein plays a role in nuclear motility. Since nuclear motility is believed to be a microtubule-dependent process, the ro-4 gene product may function as a component of the dynactin complex which activates force generation by cytoplasmic dynein.     

The macronuclear envelope of Tetrahymena pyriformis GL in different physiological states

Summary Macronuclear envelopes were isolated from the ciliated protozoan Tetrahymena pyriformis GL, negatively stained and examined in the electron microscope. The frequency of central granules in the macronuclear pores was evaluated in five different physiological states: (1) stationary phase of growth, (2) exponential phase of growth, (3) heat-synchronized cultures at the end of the heat-synchronization treatment, (4) heat-synchronized cultures at the beginning of the first division, (5) heat-synchronized cultures at the end of the first division.The percentage of pores containing a central granule was markedly enhanced in heatsynchronized cultures at the end of the first division, i.e. a state known for an increase in ribosome formation. Actinomycin D was found to cause a significant decrease in central granule frequency.The observed alterations in central granule frequency seem to confirm the hypotheses which consider the central granule as representing a ribonucleoprotein particle in transit from nucleus to cytoplasm through the nuclear pore.For careful technical assistance I am indebted to Miss Marianne Whiter as well as to Drs. H. Falk, W.W. Franke and P. Sitte for helpful discussions. This work was supported in part by the Deutsche Forschungsgemeinschaft.     

Specific contribution of lamin A and lamin C in the development of laminopathies

Mutations in the lamin A/C gene are involved in multiple human disorders for which the pathophysiological mechanisms are partially understood. Conflicting results prevail regarding the organization of lamin A and C mutants within the nuclear envelope (NE) and on the interactions of each lamin to its counterpart. We over-expressed various lamin A and C mutants both independently and together in COS7 cells. When expressed alone, lamin A with cardiac/muscular disorder mutations forms abnormal aggregates inside the NE and not inside the nucleoplasm. Conversely, the equivalent lamin C organizes as intranucleoplasmic aggregates that never connect to the NE as opposed to wild type lamin C. Interestingly, the lamin C molecules present within these aggregates exhibit an abnormal increased mobility. When co-expressed, the complex formed by lamin A/C aggregates in the NE. Lamin A and C mutants for lipodystrophy behave similarly to the wild type. These findings reveal that lamins A and C may be differentially affected depending on the mutation. This results in multiple possible physiological consequences which likely contribute in the phenotypic variability of laminopathies. The inability of lamin C mutants to join the nuclear rim in the absence of lamin A is a potential pathophysiological mechanism for laminopathies.     

Formation of the nuclear envelope during mitotic anaphase inSpirogyra

The formation of the nuclear envelope in the mitosis ofSpirogyra was studied with an electron microscope. The nuclear envelope was disrupted around the spindle equator in the metaphase. Many small vesicles were observed in the metaphase spindle. These vesicles surrounded the masses of chromosomes and nucleolar substance in the early anaphase, and they fused with each other to form daughter nuclear envelopes during the early anaphase. The formation of new envelopes from small vesicles at such an early mitotic anaphase is reported here for the first time. The possible origin of these vesicles is also discussed.     

TheNeurospora crassa erg3 gene encodes a protein with sequence homology to both yeast sterol C-14 reductase and chicken lamin B receptor

Theerg3 gene ofNeurospora crassa was sequenced (EMBL accession no. X77955) and found to encode a protein of 490 amino acid residues with significant homology to the yeast sterol biosynthetic enzyme C-14 reductase (39% identity) and also to the C-tenninal region in the sequence reported for the chicken lamin B receptor (41% identity). The possibility that a single protein may possess both lamin B receptor and sterol C-14 reductase functions might account for non-sterol-biosynthetic effects of mutations in sterol biosynthesis genes and of inhibitors of sterol biosynthetic enzymes.     

Nuclear envelope remodeling during mouse spermiogenesis: postmeiotic expression and redistribution of germline lamin B3

Lamins are members of a multigene family of structural nuclear envelope (NE) proteins. Differentiated mammalian somatic cells express lamins A, C, B1, and B2. The composition and organization of the nuclear lamina of mammalian spermatogenic cells differ significantly from that of somatic cells as they express lamin B1 as well as two short germ line-specific isoforms, namely lamins B3 and C2. Here we describe in detail the expression pattern and localization of lamin B3 during mouse spermatogenesis. By combining RT-PCR, immunoblotting, and immunofluorescence microscopy, we show that lamin B3 is selectively expressed during spermiogenesis (i.e., postmeiotic stages of spermatogenesis). In round spermatids, lamin B3 is distributed in the nuclear periphery and, notably, also in the nucleoplasm. In the course of spermiogenesis, lamin B3 becomes redistributed as it concentrates progressively to the posterior pole of spermatid nuclei. Our results show that during mammalian spermiogenesis the nuclear lamina is composed of B-type isoforms only, namely the ubiquitous lamin B1 and the germline-specific lamin B3. Lamin B3 is the first example of a mammalian lamin that is selectively expressed during postmeiotic stages of spermatogenesis.     

Characterization of Vacuolar Arginine Uptake and Amino Acid Efflux inNeurospora crassaUsing Cupric Ion to Permeabilize the Plasma Membrane

Treatment ofNeurospora crassamycelia with cupric ion has been shown to permeabilize the plasma and mitochondrial membranes. Permeabilized mycelia were shown to take up arginine into the vacuoles. Uptake was ATP-independent and appeared to be driven by an existing K⁺-gradient. The kinetic characteristics of the observed uptake were similar to those observed using vacuolar membrane vesicles: theK_mfor arginine uptake was found to be 4.2–4.5 mM. Permeabilized mycelia were used to study the regulation of arginine uptake into vacuoles. The results suggest that uptake is relatively indifferent to the contents of the vacuoles and is not affected by growth of mycelia in amino acid-supplemented medium. Efflux of arginine, lysine, and ornithine from vacuoles was also measured using mycelia permeabilized with cupric ion. Arginine release was shown to be specifically enhanced by cytosolic ornithine and/or increases in the vacuolar pool of arginine or ornithine. Lysine efflux was shown be indifferent to the presence of other amino acids. These observations emphasize the importance of vacuolar compartmentation in controlling arginine and ornithine metabolism and suggest that vacuolar compartmentation may play an important role in nitrogen homeostasis of filamentous fungi.     

Solution structure and molecular interactions of lamin B receptor Tudor domain

Lamin B receptor (LBR) is a polytopic protein of the nuclear envelope thought to connect the inner nuclear membrane with the underlying nuclear lamina and peripheral heterochromatin. To better understand the function of this protein, we have examined in detail its nucleoplasmic region, which is predicted to harbor a Tudor domain (LBR-TD). Structural analysis by multidimensional NMR spectroscopy establishes that LBR-TD indeed adopts a classical β-barrel Tudor fold in solution, which, however, features an incomplete aromatic cage. Removal of LBR-TD renders LBR more mobile at the plane of the nuclear envelope, but the isolated module does not bind to nuclear lamins, heterochromatin proteins (MeCP2), and nucleosomes, nor does it associate with methylated Arg/Lys residues through its aromatic cage. Instead, LBR-TD exhibits tight and stoichiometric binding to the "histone-fold" region of unassembled, free histone H3, suggesting an interesting role in histone assembly. Consistent with such a role, robust binding to native nucleosomes is observed when LBR-TD is extended toward its carboxyl terminus, to include an area rich in Ser-Arg residues. The Ser-Arg region, alone or in combination with LBR-TD, binds both unassembled and assembled H3/H4 histones, suggesting that the TD/RS interface may operate as a "histone chaperone-like platform."     

Linear kalilo DNA is a Neurospora mitochondrial plasmid that integrates into the mitochondrial DNA

Summary The linear autonomous form of kalilo DNA (previously called AR-kalDNA) is shown to be resident within mitochondria rather than nuclei, as had been suggested by previous experiments. This form has been renamed mtAR-kalDNA, to signify its mitochondrial location. Experiments are described that illustrate the inheritance and somatic transmission patterns of the mitochondrial kalilo plasmid and the mitochondrial inserted form of kalilo DNA (mtlS-kalDNA). Progeny of a cross with a pre-senescent subculture as the female parent inherited mtAR-ka1DNA only; mtIS-kalDNA was not transmitted sexually. During somatic propagation of the ascospore cultures, novel kalilo DNA inserts appeared and most of them persisted until death. We propose that these inserts originated from de novo integration of mtAR-kalDNA into the mitochondrial DNA. In two of the ascopore-derived series analyzed, the first inserts detected were seen only transiently and inserts appearing subsequent to the transient inserts were retained until death. We propose that these enduring inserts originated either from rearrangements of the transient inserts or from novel integration events, either from mtAR-kalDNA or from transposition of the transient inserts.     

In vivo phosphorylation of the lamin B receptor. Binding of lamin B to its nuclear membrane receptor is affected by phosphorylation

Previous studies have shown that the nuclear envelope of avian erythrocytes contains a 58-kDa integral membrane protein (p58) which serves as a receptor for the karyoskeletal protein lamin B (Worman, J. H., Yuan, J., Blobel, G., and Georgatos, S. D. (1988) Proc. Natl. Acad. Sci. U. S. A. 85, 8531-8534). We now demonstrate that p58 is phosphorylated in vivo at serine residues and that its phosphorylation is stimulated by isoproterenol in a dose-dependent fashion. We further show that dephosphorylation of p58 reduces significantly its binding to lamin B. These data suggest that phosphorylation may constitute one of the major mechanisms regulating the lamina-nuclear membrane interactions.     

Excision of pyrimidine dimers from the DNA of Neurospora

Summary Germinated conidia of Neurospora have been monitored for their ability to excise pyrimidine dimers. Dimer concentration was measured in DNA extracted immediately after UV treatment, and it was compared to that of DNA from cells which had a post-UV incubation before extraction. Two methods were used to assay dimer level in DNA: 1) measurement of the number of single-strand breaks (as revealed in alkaline sucrose gradients) produced by a dimer-specific endonuclease; 2) monitoring the ability to compete for binding to dimer-specific antibodies in a radioimmuno assay. Both methods showed efficient excision of dimers by wild-type and by uvs-2, even though an earlier study had reported that uvs-2 was unable to excise dimers.UV-induced mutation shows a dose-rate effect: acute UV yields several times as many mutations as does the same dose of chronic UV. There is a parallel effect on dimer accumulation. The concentration of dimers at the conclusion of the UV treatment shows a strong correlation with the resultant mutation frequency.     

Intracellular assembly and sorting of intermediate filament proteins: role of the 42 amino acid lamin insert

Nuclear and cytoplasmic intermediate filament (IF) proteins segregate into two independent cellular networks by mechanisms that are poorly understood. We examined the role of a 42 amino acid (aa) insert unique to vertebrate lamin rod domains in the coassembly of nuclear and cytoplasmic IF proteins by overexpressing chimeric IF proteins in human SW13+ and SW13- cells, which contain and lack endogenous cytoplasmic IF proteins, respectively. The chimeric IF proteins consisted of the rod domain of human nuclear lamin A/C protein fused to the amino and carboxyl-terminal domains of the mouse neurofilament light subunit (NF-L), which contained or lacked the 42 aa insert. Immunofluorescence microscopy was used to follow assembly and targeting of the proteins in cells. Chimeric proteins that lacked the 42 aa insert colocalized with vimentin, whereas those that contained the 42 aa insert did not. When overexpressed in SW13- cells, chimeric proteins containing the 42 aa formed very short or broken cytoplasmic filaments, whereas chimeric proteins that lacked the insert assembled efficiently into long, stable cytoplasmic filaments. To examine the roles of other structural motifs in intracellular targeting, we added two additional sequences to the chimera, a nuclear localization signal (NLS) and a CAAX motif, which are found in nuclear IF proteins. Addition of an NLS alone or an NLS in combination with the CAAX motif to the chimera with the 42 aa insert resulted in cagelike filament that assembled close to the nuclear envelope and nuclear lamina-like targeting, respectively. Our results suggest that the rod domains of eukaryotic nuclear and cytoplasmic IF proteins, which are related to each other, are still compatible upon deletion of the 42 aa insert of coassembly. In addition, NF-L end domains can substitute for the corresponding lamin domains in nuclear lamina targeting.     

Nuclear envelope projections from pronuclei in karyogamy ofSpirogyra

Karyogamy ofSpirogyra (S. verruculosa andSpirogyra sp.) was investigated by electron microscopy. After conjugation both male and female pronuclei migrated to the center of the zygote and adjoined. Many regular finger-like projections arose from the nuclear envelopes of the pronuclei; each involved both the outer and inner nuclear membranes and was ca. 0.17 μm in diameter. The inner membrane was underlaid by electron-dense bands parallel to one another in arrangement and perpendicular to the axis of protrusion in direction. Subsequently, the two pronuclei were connected by internuclear bridges, and the approximating surfaces of them were closely apposed. The bridges resembled the said projections both in diameter and structure, having a diameter of ca. 0.17 μm and electron-opaque bands lining the inner membrane. The adjacent surfaces of the two pronuclei approximated to each other more and more, and by 30 days after conjugation both pronuclei intermingled into a synkaryon, from which the projections disappeared. Probably, the nuclear envelope projections are involved in the initial contact between the two pronuclei and then the internuclear bridges are formed.     

Regulation of amino acid synthetic enzymes in Neurospora crassa in the presence of high concentrations of amino acids

Summary Ornithine carbamoyl transferase and leucine aminotransferase of Neurospora crassa represent two of many amino acid synthetic enzymes which are regulated through cross-pathway (or general) amino acid control. In the wild-type strain both enzymes display derepressed activities if the growth medium is supplemented with high (mM range) concentrations of l-amino acids derived from branched pathways, i.e. the aspartate, pyruvate, glycerophosphate and aromatic families of amino acids. A cpc-1 mutant strain, impaired in cross-pathway regulation i.e. lacking the ability to derepress, shows delayed growth under such conditions. In the presence of glycine, homoserine and isoleucine various cpc-1 isolates do not grow at all. Derepression of the wild-type enzymes and the retarded growth of the mutant strain can be reversed if certain amino acids are present in the medium in addition to the inhibitory amino acids.     

Factors regulating cryIVB expression in the cyanobacterium Synechococcus PCC 7942

The expression of the larvicidal Bacillus thuringiensis subsp. israelensis cryIVB gene in cyanobacteria has been suggested to be an effective means of controlling mosquito populations. Using a variety of cryIVB constructs, in this study we have examined the effect of Synechococcus PCC 7942 culture age on intracellular toxin levels and have attempted to determine the mechanisms by which cryIVB gene expression is regulated. The data suggest that specific degradation of the cryIVB mRNA limits toxin production; however, the addition of cyanobacterial 3 untranslated DNA sequences to the cryIVB gene did not improve mRNA stability or toxin levels. An analysis of the cryIVB sequence and comparison of codon usage patterns with highly expressed cyanobacterial genes suggest that inefficient translation and intragenic ribosomal binding sites impede protein synthesis and result in rapid turnover of the toxin mRNA.