Lysosomal sialidase, encoded by neu1, is required for the removal of terminal sialic acid residues from a variety of sialoglycoconjugates. In humans, deficiency of this enzyme results in the inborn ...error of metabolism sialidosis, characterized by the accumulation of sialoglycoconjugates within the nervous system and in peripheral organs. A subset of sialidosis patients present with symptoms of profound muscle dysfunction, including progressive muscular atrophy. We have previously shown that the 5′ regulatory region of murine neu1 is typical of skeletal muscle-specific genes due to the presence of several E-boxes and its responsiveness to stimulation by muscle regulatory factors (MRFs) such as MyoD. Here, we report that sialidase activity is increased 6-fold during the first 24 h of differentiation of C2C12 myoblasts followed by an attenuation to pre-differentiation levels by 48 h. We demonstrate that the lysosomal sialidase promoter is highly upregulated by MyoD through a mechanism that is dependent on the MyoD chromatin remodeling domain. We also show that the sialidase promoter is repressed by activated MEK. Inappropriate overexpression of sialidase 48 h after the onset of differentiation results in downregulation of myogenin as well as myosin heavy chain expression and in a halt of the differentiation cascade. This study indicates that lysosomal sialidase is a potent regulator of the early stages of myogenesis.
SM/J is an inbred mouse strain with a complex phenotype including small body size, impaired immune response and a tissue-specific sialidase deficiency. We identified a regulatory mutation, (−519G
→
...A) within the
neu1 promoter which in reporter assays resulted in significantly reduced transcription. This mutation generates a consensus binding site for Nkx3 family transcription repressors. Recombinant Nkx3.2 bound strongly to and preferentially repressed transcription of the mutant promoter. This tissue-specific deficiency results in a retarded immune response and modulates leukocyte recruitment. Examination of the hepatic microcirculation in mutant mice revealed increased rolling and decreased adhesion of leukocytes. Our findings support a significant role for lysosomal sialidase in inflammation and highlight the significance of repressor–recruitment in genetic disease.
Abstract
Background
Systemic Acquired Resistance (SAR) is an induced resistance response to pathogens, characterized by the translocation of a long-distance signal from induced leaves to distant ...tissues to prime them for increased resistance to future infection. DEFECTIVE in INDUCED RESISTANCE 1 (DIR1) has been hypothesized to chaperone a small signaling molecule to distant tissues during SAR in
Arabidopsis
.
Results
DIR1 promoter:DIR1-GUS/
dir1-1
lines were constructed to examine DIR1 expression. DIR1 is expressed in seedlings, flowers and ubiquitously in untreated or mock-inoculated mature leaf cells, including phloem sieve elements and companion cells. Inoculation of leaves with SAR-inducing avirulent or virulent
Pseudomonas syringae
pv
tomato
(
Pst
) resulted in Type III Secretion System-dependent suppression of DIR1 expression in leaf cells. Transient expression of fluorescent fusion proteins in tobacco and intercellular washing fluid experiments indicated that DIR1's ER signal sequence targets it for secretion to the cell wall. However, DIR1 expressed without a signal sequence rescued the
dir1-1
SAR defect, suggesting that a cytosolic pool of DIR1 is important for the SAR response.
Conclusions
Although expression of DIR1 decreases during SAR induction, the protein localizes to all living cell types of the vasculature, including companion cells and sieve elements, and therefore DIR1 is well situated to participate in long-distance signaling during SAR.
Lysosomal sialidase is required for the catabolism of sialoglycoconjugates such as gangliosides and deficiency in this enzyme results in the autosomal recessive disease sialidosis. Furthermore, we ...have shown that overexpression of human sialidase is sufficient to clear accumulated ganglioside in Tay–Sachs neuroglia Hum. Mol. Genet. 8 (1999) 1111. In this paper, we have characterized the 5′ regulatory region of the mouse lysosomal sialidase gene in order to understand the molecular mechanisms regulating its expression. We used bioinformatic approaches to identify a transcriptional initiation site at −45 bp relative to the ATG and significant sequence homology with the rat and human promoters. Expression by the promoter was found to be cell-type restricted and required at least 750 bp upstream of the ATG for high-level expression. DNAse I footprinting analysis and reporter gene assays indicated that the promoter is responsive to Sp-1. We discovered a CCAAT box and four E-boxes within the mouse upstream region and demonstrated that CCAAT displacement protein as well as the muscle regulatory factors MyoD and Myf-5 influence sialidase expression. Taken together, these results identify
cis- and
trans-acting factors involved in the regulation of sialidase and point to mechanisms of gene upregulation.
The stem-loop binding protein (SLBP) binds to the 3' end of histone mRNA and participates in 3'-processing of the newly synthesized transcripts, which protects them from degradation, and probably ...also promotes their translation. In proliferating cells, translation of SLBP mRNA begins at G1/S and the protein is degraded following DNA replication. These post-transcriptional mechanisms closely couple SLBP expression to S-phase of the cell cycle, and play a key role in restricting synthesis of replication-dependent histones to S-phase. In contrast to somatic cells, replication-dependent histone mRNAs accumulate and are translated independently of DNA replication in oocytes and early embryos. We report here that SLBP expression and activity also differ in mouse oocytes and early embryos compared with somatic cells. SLBP is present in oocytes that are arrested at prophase of G2/M, where it is concentrated in the nucleus. Upon entry into M-phase of meiotic maturation, SLBP begins to accumulate rapidly, reaching a very high level in mature oocytes arrested at metaphase II. Following fertilization, SLBP remains abundant in the nucleus and the cytoplasm throughout the first cell cycle, including both G1 and G2 phases. It declines during the second and third cell cycles, reaching a relatively low level by the late 4-cell stage. SLBP can bind the histone mRNA-stem-loop at all stages of the cell cycle in oocytes and early embryos, and it is the only stem-loop binding activity detectable in these cells. We also report that SLBP becomes phosphorylated rapidly following entry into M-phase of meiotic maturation through a mechanism that is sensitive to roscovitine, an inhibitor of cyclin-dependent kinases. SLBP is rapidly dephosphorylated following fertilization or parthenogenetic activation, and becomes newly phosphorylated at M-phase of mitosis. Phosphorylation does not affect its stem-loop binding activity. These results establish that, in contrast to Xenopus, mouse oocytes and embryos contain a single SLBP. Expression of SLBP is uncoupled from S-phase in oocytes and early embryos, which indicates that the mechanisms that impose cell-cycle-regulated expression of SLBP in somatic cells do not operate in oocytes or during the first embryonic cell cycle. This distinctive pattern of SLBP expression may be required for accumulation of histone proteins required for sperm chromatin remodelling and assembly of newly synthesized embryonic DNA into chromatin.
UCP-2 is a member of the emerging family of UCP homologues. Upon high-fat feeding, UCP-2 mRNA levels are increased in epididymal fat pads of A/J mice, suggesting that the flux of fatty acids entering ...adipose tissue may regulate UCP-2 gene expression. Since fatty acids act as positive transcriptional regulators of lipid-related genes by means of peroxisome proliferator-activated receptors (PPARs), the regulation of UCP-2 gene expression by PPAR agonists (carbacyclin, α-bromopalmitate, BRL49653) has been examined in mouse preadipose and adipose cells in primary cultures or from clonal lines (Ob1771, 3T3-F442A, 1B8). In preadipose cells, carbacyclin and α-bromopalmitate are active and BRL49653 shows no effect, whereas all these ligands are active in adipose cells. The stimulatory effect of PPAR agonists is potentiated by RXR agonists in adipose cells. In contrast to the UCP-1 gene, norepinephrine as a cAMP-elevating agent does not enhance the expression of UCP-2 gene. Altogether, the data favor a predominant role of PPARδ in preadipose cells and the involvement of PPARγ2 in adipose cells in up-regulating UCP-2 gene expression. Thus, a potential link between fatty acid metabolism and thermogenesis may exist in PPAR-expressing tissues.
Ce 33e numéro des Cahiers d’EMAM traite des rapports entre ville et image, pris sous l’angle de la production, des représentations et de la circulation de l’imagerie urbanistique. Ce thème place les ...pays du Golfe au centre de l’aire géographique de compétence de la revue, en tant que principaux concepteurs et diffuseurs – au Maghreb, au Moyen-Orient et au-delà – d’images de projets architecturaux et urbains. Quatre des contributions de cette livraison leur sont consacrées. Rassemblés par Roman Stadnicki, les textes sont ceux de géographes, architectes-urbanistes, anthropologue et sociologue qui confirment tous la pertinence de l’entrée par l’image et l’imagerie pour saisir les dynamiques à l’œuvre dans la fabrique de la ville contemporaine. Relectures, préparation à l’édition, mise en ligne & cartographie : Florence Troin • 2o2o
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