Generation of induced pluripotent stem cell line (TMOi001-A-11) carrying a homozygous deletion in the synemin gene using CRISPR/Cas9.

A number of genetic variants in the SYNM gene encoding for the intermediate filament synemin have been reported in patients with cardiomyopathies, skeletal myopathies, cancer and certain neurodegenerative disorders. To better understand its role, we generated a human induced pluripotent stem cell line with a homozygous deletion in the SYNM gene by CRISPR/Cas9 genome editing. The synemin-knockout human induced pluripotent stem cells exhibit typical morphology of pluripotent cells, expression of pluripotency markers, normal karyotype and differentiation capacity in the three germ layers.

Interrelation between α-Cardiac Actin Treadmilling and Myocardin-Related Transcription Factor-A Nuclear Shuttling in Cardiomyocytes.

Myocardin-related transcription factors (MRTFs) play a central role in the regulation of actin expression and cytoskeletal dynamics that are controlled by Rho GTPases. SRF is a ubiquitous transcription factor strongly expressed in muscular tissues. The depletion of SRF in the adult mouse heart leads to severe dilated cardiomyopathy associated with the down-regulation of target genes encoding sarcomeric proteins including α-cardiac actin.

Medication-related osteonecrosis of the jaw related to epacadostat and pembrolizumab.

MRONJ is a well-known side effect of various medications, such as antiresorptive drugs, anti-angiogenic agents, immunomodulators and immunosuppressants. MRONJ related to immunotherapy is rarely described, with only one case related to ipilimumab. The interaction between the immune system and osteoclast lineage cells is well known.

Cardioprotective effects of α-cardiac actin on oxidative stress in a dilated cardiomyopathy mouse model.

The expression of α-cardiac actin, a major constituent of the cytoskeleton of cardiomyocytes, is dramatically decreased in a mouse model of dilated cardiomyopathy triggered by inducible cardiac-specific serum response factor (Srf) gene disruption that could mimic some forms of human dilated cardiomyopathy. To investigate the consequences of the maintenance of α-cardiac actin expression in this model, we developed a new transgenic mouse based on Cre/LoxP strategy, allowing together the induction of SRF loss and a compensatory expression of α-cardiac actin. Here, we report that maintenance of α-cardiac actin within cardiomyocytes temporally preserved cytoarchitecture from adverse cardiac remodeling through a positive impact on both structural and transcriptional levels.

Congenital Unilateral Zygomatico-Maxillo-Mandibular Fusion.

Congenital fusion of the jaws (syngnathia) is a rare and severe disorder. The authors report a case of bony fusion of the left mandible with the maxilla and zygomatic complex in a 5-day-old male who was not able to feed and open his mouth normally. Early surgery was performed to release the bony fusion on the tenth day of life.

Buccal paraneoplastic pemphigus multi-resistant: Case report and review of diagnostic and therapeutic strategies.

Paraneoplastic pemphigus is a rare autoimmune blistering disease generally associated with malignancy. The clinical presentation consists typically of painful and diffuse erosive stomatitis that may be accompanied by polymorphic skin lesions and systemic involvement. Diagnosis is based on clinical manifestations and confirmed by histology and immunological testing.

Srf controls satellite cell fusion through the maintenance of actin architecture.

Satellite cells (SCs) are adult muscle stem cells that are mobilized when muscle homeostasis is perturbed. Here, we show that serum response factor (Srf) is needed for optimal SC-mediated hypertrophic growth. We identified Srf as a master regulator of SC fusion required in both fusion partners, whereas it was dispensable for SC proliferation and differentiation.

Nicotinamide Riboside Preserves Cardiac Function in a Mouse Model of Dilated Cardiomyopathy.

Background: Myocardial metabolic impairment is a major feature in chronic heart failure. As the major coenzyme in fuel oxidation and oxidative phosphorylation and a substrate for enzymes signaling energy stress and oxidative stress response, nicotinamide adenine dinucleotide (NAD) is emerging as a metabolic target in a number of diseases including heart failure. Little is known on the mechanisms regulating homeostasis of NAD in the failing heart.

Regulation of Connective Tissue Growth Factor and Cardiac Fibrosis by an SRF/MicroRNA-133a Axis.

Myocardial fibrosis contributes to the remodeling of heart and the loss of cardiac function leading to heart failure. SRF is a transcription factor implicated in the regulation of a large variety of genes involved in cardiac structure and function. To investigate the impact of an SRF overexpression in heart, we developed a new cardiac-specific and tamoxifen-inducible SRF overexpression mouse model by the Cre/loxP strategy.

Inactivation of serum response factor contributes to decrease vascular muscular tone and arterial stiffness in mice.

Rationale: Vascular smooth muscle (SM) cell phenotypic modulation plays an important role in arterial stiffening associated with aging. Serum response factor (SRF) is a major transcription factor regulating SM genes involved in maintenance of the contractile state of vascular SM cells.

Objective: We investigated whether SRF and its target genes regulate intrinsic SM tone and thereby arterial stiffness.

Locally expressed IGF1 propeptide improves mouse heart function in induced dilated cardiomyopathy by blocking myocardial fibrosis and SRF-dependent CTGF induction.

Cardiac fibrosis is critically involved in the adverse remodeling accompanying dilated cardiomyopathies (DCMs), which leads to cardiac dysfunction and heart failure (HF). Connective tissue growth factor (CTGF), a profibrotic cytokine, plays a key role in this deleterious process. Some beneficial effects of IGF1 on cardiomyopathy have been described, but its potential role in improving DCM is less well characterized.

Insulin regulation of glucokinase gene expression: evidence against a role for sterol regulatory element binding protein 1 in primary hepatocytes.

Liver key genes for carbohydrate and lipid homeostasis are regulated by insulin and glucose. The sterol regulatory-element binding protein-1c (SREBP-1c) has emerged as a mediator of insulin effects on gene transcription, particularly on glucokinase (GK). In this paper, we show that despite stimulation of GK promoter transcription by overexpression of mature SREBP-1c, insulin induced GK transcription at least 4h ahead of accumulation of mature SREBP-1c in the nucleus.

Identification of a novel rat hepatic gene induced early by insulin, independently of glucose.

We used mRNA differential display to identify new genes induced early after exposure to insulin. Our screening strategy was based on the comparison of gene expression during the time course of insulin induction in the liver of 12-day-old suckling rats both in vivo and in vitro. A novel, early induced transcript, EIIH, was identified that encodes a 353-amino-acid protein with several features suggesting that it may be secreted or bound to membranes.

Quantitative fluorescence imaging approach for the study of polyploidization in hepatocytes.

We applied automatic quantitative fluorescence imaging of nuclear DNA to rat liver cells obtained from animals at various times after birth up to 3 months of age. We show that, in conditions best preserving the native cellular structures, DNA content measurements, performed on whole single cells in situ after Hoechst staining, were precise and accurate. Cells in the various ploidy and nuclearity classes could thus be identified correctly and their percentages were estimated on a total of 300 cells or more.

Liver glucokinase gene expression is controlled by the onecut transcription factor hepatocyte nuclear factor-6.

Aims/hypothesis: Glucokinase plays a key role in glucose homeostasis and the expression of its gene is differentially regulated in pancreatic beta cells and in the liver through distinct promoters. The factors that determine the tissue-specific expression of the glucokinase gene are not known. Putative binding sites for hepatocyte nuclear factor (HNF)-6, the prototype of the ONECUT family of transcription factors, are present in the hepatic promoter of the glucokinase gene and hnf6 knockout mice are diabetic [corrected].

The coactivator PGC-1 is involved in the regulation of the liver carnitine palmitoyltransferase I gene expression by cAMP in combination with HNF4 alpha and cAMP-response element-binding protein (CREB).

Liver carnitine palmitoyltransferase I catalyzes the transfer of long-chain fatty acids into mitochondria. L-CPT I is considered the rate-controlling enzyme in fatty acid oxidation. Expression of the L-CPT I gene is induced by starvation in response to glucagon secretion from the pancreas, an effect mediated by cAMP.

Regulation of liver carnitine palmitoyltransferase I gene expression by hormones and fatty acids.

This brief review focuses on the transcriptional regulation of liver carnitine palmitoyltransferase I (L-CPT I) by pancreatic and thyroid hormones and by long-chain fatty acids (LCFA). Both glucagon and 3,3',5-tri-iodothyronine (T(3)) enhanced the transcription of the gene encoding L-CPT I, whereas insulin had the opposite effect. Interestingly, the transcriptional effect of T(3) required, in addition to the thyroid-responsive element, the co-operation of a sequence located in the first intron of L-CPT I gene.

Long-chain fatty acids regulate liver carnitine palmitoyltransferase I gene (L-CPT I) expression through a peroxisome-proliferator-activated receptor alpha (PPARalpha)-independent pathway.

Liver carnitine palmitoyltransferase I (L-CPT I) catalyses the transfer of long-chain fatty acid (LCFA) for translocation across the mitochondrial membrane. Expression of the L-CPT I gene is induced by LCFAs as well as by lipid-lowering compounds such as clofibrate. Previous studies have suggested that the peroxisome-proliferator-activated receptor alpha (PPARalpha) is a common mediator of the transcriptional effects of LCFA and clofibrate.

Structural and functional characterizations of the 5'-flanking region of the mouse glucagon receptor gene: comparison with the rat gene.

A putative proximal promoter was defined previously for the mouse glucagon receptor (GR) gene. In the present study, a distal promoter was characterized upstream from a novel non-coding exon revealed by the 5'-rapid amplification of cDNA ends from mouse liver tissue. The 5'-flanking region of the mouse GR gene was cloned up to 6 kb and the structural organization was compared to the 5' untranslated region of the rat gene cloned up to 7 kb.

Stat 5B, activated by insulin in a Jak-independent fashion, plays a role in glucokinase gene transcription.

Stat proteins are SH2 domain-containing transcription factors that are activated by various cytokines and growth factors. In a previous work, we have identified Stat 5B as a substrate of the insulin receptor based on yeast two-hybrid and mammalian cell transfection studies. In the present study, we have approached the biological relevance of the interaction between the insulin receptor and the transcription factor Stat 5B.

[Value of a rapid screening technique for vaginal carriage of group B Streptococcus during hig-risk pregnancies].

Vaginal colonization by Group B streptococci (GBS) during pregnancy is associated with lige-threatening neonatal infections acquired during passage through the birth canal. Factors associated with an increased risk of GBS transmission to the neonate include prematurity, premature spontaneous rupture of the membranes before 37 weeks of gestational age, prolonged (> 12 h) rupture of the membranes at full term, fever in the mother, multiple pregnancy, and a history of GBS infection. A study was conducted to evaluate the performance characteristics of a rapid GBS screening test comparatively with conventional microbiological cultures.

In vivo and in vitro regulation of hepatic glucagon receptor mRNA concentration by glucose metabolism.

We have recently cloned the murine glucagon receptor (GR) gene and shown that it is expressed mainly in liver. In this organ, the glucagon-GR system is involved in the control of glucose metabolism as it initiates a cascade of events leading to release of glucose into the blood stream, which is a main feature in several physiological and pathological conditions. To better define the metabolic regulators of GR expression in liver we analyzed GR mRNA concentration in physiological conditions associating various glucose metabolic pathways in vivo and in vitro in the rat and in the mouse.

Variable expression of hepatic glucokinase in mice is due to a regulational locus that cosegregates with the glucokinase gene.

The Gk activity locus affects expression of hepatic glucokinase (GK) in mice. Analysis of microsatellites within the mouse GK gene locus revealed two major haplotypes in 19 of 22 inbred strains predictive of either high or low hepatic GK gene expression. C3H/HeJ mice, a high-activity strain, and two other wild-derived strains contain less common haplotypes.

Effects of triiodothyronine and retinoic acid on glucokinase gene expression in neonatal rat hepatocytes.

Glucokinase (EC 2.7.1.