Increased plasticity of the nuclear envelope and hypermobility of telomeres due to the loss of A–type lamins

Background

The nuclear lamina provides structural support to the nucleus and has a central role in defining nuclear organization. Defects in its filamentous constituents, the lamins, lead to a class of diseases collectively referred to as laminopathies. On the cellular level, lamin mutations affect the physical integrity of nuclei and nucleo-cytoskeletal interactions, resulting in increased susceptibility to mechanical stress and altered gene expression.

Methods

In this study we quantitatively compared nuclear deformation and chromatin mobility in fibroblasts from a homozygous nonsense LMNA mutation patient and a Hutchinson–Gilford progeria syndrome patient with wild type dermal fibroblasts, based on the visualization of mCitrine labeled telomere-binding protein TRF2 with light-economical imaging techniques and cytometric analyses.

Results

Without application of external forces, we found that the absence of functional lamin A/C leads to increased nuclear plasticity on the hour and minute time scale but also to increased intranuclear mobility down to the second time scale. In contrast, progeria cells show overall reduced nuclear dynamics. Experimental manipulation (farnesyltransferase inhibition or lamin A/C silencing) confirmed that these changes in mobility are caused by abnormal or reduced lamin A/C expression.

Conclusions

These observations demonstrate that A-type lamins affect both nuclear membrane and telomere dynamics.

General significance

Because of the pivotal role of dynamics in nuclear function, these differences likely contribute to or represent novel mechanisms in laminopathy development.     

Endo-β-mannanase isoforms are present in the endosperm and embryo of tomato seeds, but are not essentially linked to the completion of germination

A current hypothesis is that endo--mannanase activity in the endosperm cap of tomato (Lycopersicon esculentum Mill. cv. Moneymaker) seeds is induced by gibberellin (GA) and weakens the endosperm cap thus permitting radicle protrusion. We have tested this hypothesis. In isolated parts, the expression of endo--mannanase in the endosperm after germination is induced by GAs, but the expression of endo--mannanase in the endosperm cap prior to radicle protrusion is not induced by GAs. Also, abscisic acid (ABA) is incapable of inhibiting endo--mannanase activity in the endosperm cap, even though it strongly inhibits germination. However, ABA does inhibit enzyme activity in the endosperm and embryo after germination. There are several isoforms in the endosperm cap and embryo prior to radicle protrusion that are tissue-specific. Tissue prints showed that enzyme activity in the embryo spreads from the radicle tip to the cotyledons with time after the start of imbibition. The isoform and developmental patterns of enzyme activity on tissueprints are unaffected when seeds are incubated in ABA, even though germination is inhibited. We conclude that the presence of endo--mannanase activity in the endosperm cap is not in itself sufficient to permit tomato seeds to complete germination.Abbreviations ABA cis/trans-abscisic acid - GA(s) gibberellin(s) - IEF isoelectric focussing - pI(s) isoelectric point(s) We thank Dr. Bruce Downie for the seemingly endless but inspiring discussions.     

Do we think dreams are in black and white due to memory problems?

The present study was designed to investigate whether memory processes play a role in why some persons say their dreams are black and white. The findings indicate that the percentages of black and white dreams are related negatively to color memory and dream recall frequency. When colors were recorded immediately after the dream was recorded, the percentage of black and white dream elements dropped to 2.7%. When participants were presented the option that dream colors might not be remembered, the percentage of explicit black and white dreams became very small, and the findings are thus in line with the continuity hypothesis of dreaming. Future studies might use extensive training of color memory and dream recall in order to investigate whether highly trained persons still have some dreams or dream elements that are in black and white. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Stromal interferon-γ signaling and cross-presentation are required to eliminate antigen-loss variants of B cell lymphomas in mice

To study mechanisms of T cell-mediated rejection of B cell lymphomas, we developed a murine lymphoma model wherein three potential rejection antigens, human c-MYC, chicken ovalbumin (OVA), and GFP are expressed. After transfer into wild-type mice 60-70% of systemically growing lymphomas expressing all three antigens were rejected; lymphomas expressing only human c-MYC protein were not rejected. OVA expressing lymphomas were infiltrated by T cells, showed MHC class I and II upregulation, and lost antigen expression, indicating immune escape. In contrast to wild-type recipients, 80-100% of STAT1-, IFN-γ-, or IFN-γ receptor-deficient recipients died of lymphoma, indicating that host IFN-γ signaling is critical for rejection. Lymphomas arising in IFN-γ- and IFN-γ-receptor-deficient mice had invariably lost antigen expression, suggesting that poor overall survival of these recipients was due to inefficient elimination of antigen-negative lymphoma variants. Antigen-dependent eradication of lymphoma cells in wild-type animals was dependent on cross-presentation of antigen by cells of the tumor stroma. These findings provide first evidence for an important role of the tumor stroma in T cell-mediated control of hematologic neoplasias and highlight the importance of incorporating stroma-targeting strategies into future immunotherapeutic approaches.     

“Natural” Antibodies to chicken MHC antigens are present in mice,rats, humans,alligators and allogeneic chickens

In the absence of any deliberate immunization, mice, rats, humans and alligators all have detectable titers of antibody against chicken red blood cells (CRBC's). Remarkably, this antibody is directed predominantly against private or public determinants of MHC proteins on the CRBC's, and little or no antibody is directed against species-specific determinants on MHC or other proteins, including other polymorphic blood group antigens. In chickens, natural antibody can be detected against CRBC's from all chickens differing at the MHC locus, but natural antibodies against other polymorphic antigens are not detected. Using a rosette-forming cell (RFC) assay, we have also shown that a large percentage of mouse spleen cells will rosette with chicken erythrocytes, and that the majority of these RFC's also recognize polymorphic antigens.     

Caught with their PAMPs down? The extracellular signalling actions of molecular chaperones are not due to microbial contaminants

In recent years, it has been hypothesised that a new signalling system may exist in vertebrates in which secreted molecular chaperones form a dynamic continuum between the cellular stress response and corresponding homeostatic physiological mechanisms. This hypothesis seems to be supported by the finding that many molecular chaperones are released from cells and act as extracellular signals for a range of cells. However, this nascent field of biological research seems to suffer from an excessive criticism that the biological activities of molecular chaperones are due to undefined components of the microbial expression hosts used to generate recombinant versions of these proteins. In this article, a number of the proponents of the cell signalling actions of molecular chaperones take this criticism head-on. They show that sufficient evidence exists to support fully the hypothesis that molecular chaperones have cell–cell signalling actions that are likely to be part of the homeostatic mechanism of the vertebrate.     

β-Catenin stabilization in skeletal muscles, but not in motor neurons, leads to aberrant motor innervation of the muscle during neuromuscular development in mice

β-Catenin, a key component of the Wnt signaling pathway, has been implicated in the development of the neuromuscular junction (NMJ) in mice, but its precise role in this process remains unclear. Here we use a β-catenin gain-of-function mouse model to stabilize β-catenin selectively in either skeletal muscles or motor neurons. We found that β-catenin stabilization in skeletal muscles resulted in increased motor axon number and excessive intramuscular nerve defasciculation and branching. In contrast, β-catenin stabilization in motor neurons had no adverse effect on motor innervation pattern. Furthermore, stabilization of β-catenin, either in skeletal muscles or in motor neurons, had no adverse effect on the formation and function of the NMJ. Our findings demonstrate that β-catenin levels in developing muscles in mice are crucial for proper muscle innervation, rather than specifically affecting synapse formation at the NMJ, and that the regulation of muscle innervation by β-catenin is mediated by a non-cell autonomous mechanism.     

Neurturin, RET, GFRα-1 and GFRα-2, but not GFRα-3, mRNA are expressed in mice gonads

The gonads are known to produce numerous hormones and also neurotrophins and their receptors. Here we demonstrate expression of glial-cell-line-derived neurotrophic factor (GDNF) family ligands and related receptors in adult mice gonads by in situ hybridization. GDNF mRNA was expressed in the ovary, but was not detectable in testis. Neurturin (NTN), another ligand in this family, gave rise to strong mRNA hybridization signals in a mosaic pattern in the seminiferous tubules of the testis at stages IX-XII and I-II of the cycle. NTN mRNA signals were also found in uterus and the oviduct. In testis, the transducing receptor RET as well as GDNF receptor alpha-1 (GFR)alpha-1 and GFRalpha-2 were distributed in complementary and overlapping patterns, the former at stages XI-XII-I and the latter at stages VII and VIII. GFRalpha-3 could not be detected. Expression of these trophic molecules suggests involvement of GDNF family ligands and related receptor components in reproduction.     

The relationship of γ-aminobutyrate levels and its metabolism to age in brains of mice

The activities of glutamate decarboxylase, aspartate aminotransferase, and γ-aminobutyrate aminotransferase were determined in the brains of C57B1/6J mice of selected biological ages (10, 24, 33, and 37 months old). The glutamate decarboxylase activity was the same in the 10 and 24 month mice, but was decreased in the 30 and 37 month mice. The aspartate aminotransferase activity was constant in the 10, 24, and 33 month old mice and was slightly decreased in the 37 month mice. The γ-aminobutyrate aminotransferase activity was the same in the brains of the 10 and 24 month old mice and was increased in the 33 month mice and even more in the 37 month mice.The steady state levels of aspartate, glutamate, and γ-aminobutyrate were determined in the brains of mice 10, 18, 29, and 36 months old. The concentration of aspartate was the same in the 10, 18, and 29 month mice and was increased in the 36 month mice. The mice in all the age groups had the same brain concentration of glutamate. γ-Aminobutyrate concentration decreased somewhat with age.The weights of the brains did not vary with age from 10 to 33 months. The wet weights of the brains of the 36 and 37 month mice were lower than those of all the other age groups. The amount of protein per gram of wet weight of brain did not vary with age.     

Polymorphisms in 5��-flanking regions of genes encoding adiponectin, leptin, and resistin are not associated with obesity of Polish children and adolescents

Genes encoding adipokines are important functional candidates for development of obesity. In this study we screened for polymorphism 5??-flanking regions of the adiponectin (ADIPOQ), leptin (LEP) and resistin (RETN) genes in a cohort of Polish obese children and adolescents (n = 243) and a control group of non-obese adults (n = 100). Altogether 13 SNPs (single nucleotide polymorphisms) and 1 InDel (insertion/deletion polymorphism) were found. Among them five polymorphisms, localized in the LEP gene, turned out to be novel, but their distribution was insufficient for association studies. We found no consistent evidence for association between obesity and the SNPs demonstrating minor allele frequency (MAF) above 0.2 (ADIPOQ: ?11377C>G, LEP: ?2548C>T, 19A>G, RETN: ?1300G>A, ?1258C>T, ?420C>G). Comparison of polymorphisms distribution in patients and control group suggested association with ADIPOQ ?11377C>G (Pearson test P = 2.76 × 10^?11), however, we did not observe any effect of this polymorphism on BMI or relative BMI (RBMI) within obese patients (P = 0.41). We conclude that the tested SNPs are not useful markers of childhood and adolescence obesity in Polish population.