Laminin γ1-dependent basement membranes are instrumental to ensure proper olfactory placode shape, position and boundary with the brain, as well as olfactory axon development.

Despite recent progress, the complex roles played by the extracellular matrix in development and disease are still far from being fully understood. Here, we took advantage of the zebrafish sly mutation which affects Laminin γ1, a major component of basement membranes, to explore its role in the development of the olfactory system. Following a detailed characterisation of Laminin distribution in the developing olfactory circuit, we analysed basement membrane integrity, olfactory placode and brain morphogenesis, and olfactory axon development in sly mutants, using a combination of immunochemistry, electron microscopy and quantitative live imaging of cell movements and axon behaviours. Our results point to an original and dual contribution of Laminin γ1-dependent basement membranes in organising the border between the olfactory placode and the adjacent brain: they maintain placode shape and position in the face of major brain morphogenetic movements, they establish a robust physical barrier between the two tissues while at the same time allowing the local entry of the sensory axons into the brain and their navigation towards the olfactory bulb. This work thus identifies key roles of Laminin γ1-dependent basement membranes in neuronal tissue morphogenesis and axon development in vivo .

Early detection of age-related memory deficits in individual mice.

To date, no consensus has been reached concerning the age of the earliest onset of age-related cognitive deficits in rodents. Our aim was to develop a behavioral model allowing early and individual detection of age-related cognitive impairments. We tested young (3 months), middle-aged (10 months) and aged (17 months) C57Bl/6 mice in the starmaze, a task allowing precise analysis of the search pattern of mice via standardized calculation of two navigation indices. We performed mouse-per-mouse analyses and compared each mouse's performance to a threshold based on young mice's performances. Using this method we identified impaired mice from the age of 10 months old. Their deficits were independent of any sensorimotor dysfunctions and were associated with an alteration of the maintenance of the hippocampal CA1 late-LTP. This study develops reliable methodology for early detection of age-related memory disorders and provides evidence that memory can decline in some individuals as early as from the age of 10 months.

Splice mutations in the p53 gene: case report and review of the literature.

Splice mutations in the p53 gene (TP53) are described as rare events that occur at a frequency of less than 1%. Using a functional assay based on the transcriptional activity of p53 and using RNA as starting material, we describe here a p53 splice mutation that could not be detected by genomic sequencing. This lack of detection is due to a deletion of the region complementary to primers commonly used for amplification. Reviewing the literature, we show that p53 splice mutations have been certainly underestimated and that careful strategy should be used for a complete mutational analysis of the p53 gene. Furthermore, some p53 gene mutations described as "neutral" due to the absence of any amino-acid change are truly deleterious, as they affect gene splicing.

Mice transgenic for the human myotonic dystrophy region with expanded CTG repeats display muscular and brain abnormalities.

The autosomal dominant mutation causing myotonic dystrophy (DM1) is a CTG repeat expansion in the 3'-UTR of the DM protein kinase (DMPK) gene. This multisystemic disorder includes myotonia, progressive weakness and wasting of skeletal muscle and extramuscular symptoms such as cataracts, testicular atrophy, endocrine and cognitive dysfunction. The mechanisms underlying its pathogenesis are complex. Recent reports have revealed that DMPK gene haploinsufficiency may account for cardiac conduction defects whereas cataracts may be due to haploinsufficiency of the neighboring gene, the DM-associated homeobox protein (DMAHP or SIX5) gene. Furthermore, mice expressing the CUG expansion in an unrelated mRNA develop myotonia and myopathy, consistent with an RNA gain of function. We demonstrated that transgenic mice carrying the CTG expansion in its human DM1 context (>45 kb) and producing abnormal DMPK mRNA with at least 300 CUG repeats, displayed clinical, histological, molecular and electrophysiological abnormalities in skeletal muscle consistent with those observed in DM1 patients. Like DM1 patients, these transgenic mice show abnormal tau expression in the brain. These results provide further evidence for the RNA trans-dominant effect of the CUG expansion, not only in muscle, but also in brain.

Protracted expression of serotonin transporter and altered thalamocortical projections in the barrelfield of hypothyroid rats.

In humans, thyroid hormone deficiency during development causes severe neurological diseases but the underlying mechanisms are unclear. We have examined the effects of thyroid hormones on the development of somatosensory thalamocortical projections, by inducing hypothyroidism in rats by methimazole treatment at embryonic day 13 and subsequent thyroidectomy at postnatal day 6 (P6). Initial development of the thalamocortical projections and their tangential and laminar patterning were similar in normal and hypothyroid rats from birth to P4. The tangential spread of the thalamocortical arbors is reduced in hypothyroid rats after P4, paralleling the overall cortical atrophy. Anterograde tracing and single axon reconstructions indicate that thalamic afferents reached layer IV but that they had fewer and shorter branches, with a 42% reduction in the number of boutons. The transient serotonin (5-HT) immunostaining and 5-HT transporter (5-HTT) expression were both prolonged by 5 days in hypothyroid rats. This does not reflect a delayed maturation of the thalamus because other transiently expressed genes such as the vesicular monoamine transporter and the 5-HT1B receptor are not modified. Protracted 5-HTT expression also occurred in other areas with transient expression, but no changes were observed in the raphe nuclei where the 5-HTT is expressed permanently. Thus, thyroid hormones appear to be important in regulating the extinction of the 5-HTT in nonserotoninergic neurons. The transient stabilization of 5-HT reuptake in hypothyroid rats could affect the growth of thalamic axons. Our data stress the importance of maternal and foetal thyroid hormones for the normal development of sensory systems.

Transgenic mice carrying large human genomic sequences with expanded CTG repeat mimic closely the DM CTG repeat intergenerational and somatic instability.

Myotonic dystrophy (DM) is caused by a CTG repeat expansion in the 3'UTR of the DM protein kinase (DMPK) gene. A very high level of instability is observed through successive generations and the size of the repeat is generally correlated with the severity of the disease and with age at onset. Furthermore, tissues from DM patients exhibit somatic mosaicism that increases with age. We generated transgenic mice carrying large human genomic sequences with 20, 55 or >300 CTG, cloned from patients from the same affected DM family. Using large human flanking sequences and a large amplification, we demonstrate that the intergenerational CTG repeat instability is reproduced in mice, with a strong bias towards expansions and with the same sex- and size-dependent characteristics as in humans. Moreover, a high level of instability, increasing with age, can be observed in tissues and in sperm. Although we did not observe dramatic expansions (or 'big jumps' over several hundred CTG repeats) as in congenital forms of DM, our model carrying >300 CTG is the first to show instability so close to the human DM situation. Our three models carrying different sizes of CTG repeat provide insight on the different factors modulating the CTG repeat instability.

Changes in apoptosis of human polymorphonuclear granulocytes with aging.

Many alterations with aging occur at the cellular and organic levels in the immune system ultimately leading to a decrease in the immune response. Our aim in the present work was to study apoptosis of polymorphonuclear granulocytes (PMN) with aging under various stimulations since apoptosis might play an important role in several pathologies encountered with aging. The PMN of healthy young (20-25 years) and elderly (65-85 years) subjects were examined after 24 h of sterile culture with and without stimulation. The stimulating agents included: phorbol myristate acetate (PMA), hydrogen peroxide (H2O2), N-formyl-methionyl-leucyl phenylalanine (FMLP), granulocyte-macrophage colony stimulating factor (GM-CSF), reduced glutathione (GSH), lipopolysaccharide (LPS) and interleukin 2 (IL-2). Apoptosis was assessed by traditional staining of the plates, by flow cytometric staining and DNA gel electrophoresis. It was found that without stimulation the susceptibility of PMN to apoptosis was slightly increased with aging. Under various stimulations, such as PMA. H2O2, apoptosis was almost 100%, while the treatment by FMLP, oxLDL and GSH did not change its extent in PMN obtained either from young or elderly subjects. Marked age-related changes were observed in the extent of apoptosis under stimulation with GM-CSF, IL-2 and LPS. These agents were able to significantly prevent apoptosis in PMN of young subjects, while only the GM-CSF was able to slightly modulate it in neutrophils of elderly subjects. From these results, we suggest that changes in apoptosis of PMN with aging could play a role in the increased incidence of certain immune system related pathologies of aging, such as cancer, infections and autoimmune disorders.

[Immunology and immunopathology of African trypanosomiasis]. / Immunologie et immunopathologie de la trypanosomose Africaine.

Human African trypanosomiasis (HAT) is characterized by a major deregulation of the immune system. Hypergammaglobulinemia, auto-antibodies, and immunodepression are cardinal features. Parasitemia occurs in waves due to the successive appearance of parasites with different variable glycoprotein surface antigens (VGSA). Antigenic variation enables parasites to elude the host's immune defenses. Although high levels of immune complexes have been detected during HAT, it seems unlikely that they play a significant pathophysiological role. Numerous auto-antibodies have been detected. B lymphocyte activation is uncommon. In vitro T lymphocytes do not proliferate normally, but synthesize cytokines, such as interferon-g which enhance parasite development. Macrophages bind and destroy parasites in the presence of antibodies. They also synthesize large quantities of TNF-alpha which promote parasite destruction but also increase the severity of clinical symptoms. Nitric acid synthesized by activated macrophages has an antiparasitic effect but induces immunosuppression. In the meningoencephalitic stage of HAT, a severe inflammatory reaction is observed. This event is preceded by astroglia which could be induced by astrocytes secreting TNF-a and IL-1. Auto-antibodies against the central nervous system (e.g. anti-galactocerebrosides, anti-tryptophan-like auto-antibodies) may also be involved in the development of encephalitis. VGSA play a key role in the immunopathology of HAT (antigenic variation, induction of cytokine and autoantibody production). Successive relapses occur with the appearance of new antigenic variants and production of antibodies. The resulting continuous stimulation of the immune system leads to deregulation of immunoglobulin production and cytokine network.

[Defense mechanisms in trypanosomiasis]. / Mécanismes de défense au cours des trypanosomoses.

Quantitative and functional alterations in macrophages are observed in trypanosomiasis. Two molecules from macrophages exert potent anti-microbial effect: Nitric Oxide (NO) and Tumor Necrosis Factor-alpha (TNF-alpha). The role of NO in trypanosomiasis is investigated at first on a murine parasite. Trypanosoma musculi, at first and then on Trypanosoma brucei gambiense and T. brucei brucei. Macrophages from T. musculi-infected mice synthesize NO and their trypanostatic activity is correlated with NO production. In vitro activation of macrophage NO synthase by IFN-gamma induces a trypanostatic activity and TNF-alpha is involved in NO synthase induction. High serum levels of TNF-alpha are correlated with disease severity in human African trypanosomiasis. TNF-alpha is increased in supernatants of leucocyte and trypanosome cocultures. TNF-alpha exerts a strong anti-trypanosomal effect. Messengers RNA of TNF-alpha are detected in monocytes after 8 hours of coculture with trypanosomes. Macrophage effector molecules participate with other immune effector mechanisms in resistance of host to trypanosomes.

An essential yeast protein, CBF5p, binds in vitro to centromeres and microtubules.

Yeast centromere DNA (CEN) affinity column chromatography has been used to purify several putative centromere and kinetochore proteins from yeast chromatin extracts. The single yeast gene (CBF5) specifying one of the major low-affinity centromere-binding proteins (p64'/CBF5p) has been cloned and shown to be essential for viability of Saccharomyces cerevisiae. CBF5 specifies a 55-kDa highly charged protein that contains a repeating KKD/E sequence domain near the C terminus, similar to known microtubule-binding domains in microtubule-associated proteins 1A and 1B, CBF5p, obtained by overexpression in bacterial cells, binds microtubules in vitro, whereas C-terminal deleted proteins lacking the (KKD/E)n domain do not. Dividing yeast cells containing a C-terminal truncated CBF5 gene, producing CBF5p containing only three copies of the KKD/E repeat, delay with replicated genomes at the G2/M phase of the cell cycle, while depletion of CBF5p arrests most cells in G1/S. Overproduction of CBF5p in S. cerevisiae complements a temperature sensitivity mutation in the gene (CBF2) specifying the 110-kDa subunit of the high-affinity CEN DNA-binding factor CBF3, suggesting in vivo interaction of CBF5p and CBF3. A second low-affinity centromere-binding factor has been identified as topoisomerase II.

Effect of cis-located human satellite DNA on the electroporation efficiency of neo and HSV-1 tk containing plasmids.

Highly repetitive satellite DNAs comprise a significant portion of higher eukaryotic genomes and have been implicated in a variety of chromosome processes, such as centromere structure and function, that are related to their presence in heterochromatin. In addition, heterochromatin can induce metastable expression of adjacent genes. However, the role of highly repetitive satellite DNAs in these effects remains to be elucidated. In an effort to address this question, plasmids containing a human 1797-bp EcoRI satellite II DNA, plus the neo and the HSV-1 tk genes, were electroporated into a TK-/NEO- human cell line. The presence of the satellite DNA sequences within the electroporated plasmids was found to interfere with the generation of stable TK+, but not NEO+, transfectants depending on the location and/or orientation of the cloned satellite DNA.

Detection of human satellite II DNA-binding polypeptides in HeLa cellular and nuclear extracts.

Highly-repetitive satellite DNA's are generally located in centromeric heterochromatin, yet little is known about how they are maintained and condensed. In an effort to address this question, we have searched for specific satellite DNA-binding proteins in cell-free extracts (both total cellular and nuclear), prepared from HeLa cells, using southwestern blotting. Four polypeptides were detected that specifically bound to a human 1797 bp EcoRI satellite II DNA, which consists in large part of tandemly repeated pentamer (5' TTCCA 3') units, but not to a control probe from plasmid pBR322. These proteins have apparent molecular weights of 100, 93, 77 and 34 kDa and were termed satellite binding protein (Sbp) -1, -2, -3, and -4, respectively.