Cardiomyopathies are diseases of the heart muscle with variable clinical expressivity. Most of forms are inherited as dominant trait, and with incomplete penetrance until adulthood. Severe forms of ...cardiomyopathies were observed during the antenatal period with a pejorative issue leading to fetal death or medical interruption of pregnancy. Variable phenotypes and genetic heterogeneity make etiologic diagnosis difficult. We report 11 families (16 cases) whose unborn, newborn or infant with early onset cardiomyopathies. Detailed morphological and histological examinations of hearts were implemented, as well as genetic analysis on a cardiac targeted NGS panel. This strategy allowed the identification of the genetic cause of the cardiomyopathy in 8/11 families. Compound heterozygous mutations in dominant adulthood cardiomyopathy genes were found in two, pathogenic variants in co‐dominant genes in one, de novo mutations in 5 including a germline mosaicism in one family. Parental testing was systematically performed to detect mutation carriers, and to manage cardiological surveillance and propose a genetic counseling. This study highlights the great diagnostic value of the genetic testing of severe antenatal cardiomyopathy both for genetic counseling and to detect presymptomatic parents at higher risk of developing cardiomyopathy.
Fetal cardiomyopathies are rare and could led to in utero fetal death or termination of pregnancy. Morphological analysis of 16 cases allowed to described their characteristics. Genetic analysis on a panel of cardiomyopathy genes has attested of a genetic origin of these cases and also highlighted a particular pattern (high rate of de novo mutation, compound heterozygous and co‐dominance) participating to the explanation of a severe cardiomyopathy. This work confirmed the interest of genetic testing of fetal cardiomyopathies to improve genetic counselling in the families.
The organization of mammalian genomes into sub-megabase sized Topologically Associated Domains (TADs) has recently been revealed by techniques derived from Chromosome Conformation Capture (3 C), such ...as High Chromosome Contact map (Hi-C). Disruption of this organization by structural variations can lead to ectopic interactions between enhancers and promoters, and to alteration of genes expression patterns. This mechanism has already been described as the main pathophysiological mechanism in several syndromes with congenital malformations. We describe here the case of a fetus with a severe multiple congenital anomalies syndrome, including extensive polydactyly of the four limbs. This fetus carries a de novo deletion next to the IHH gene, encompassing a TAD boundary. Such an IHH TAD boundary deletion has already been described in the Dbf mouse model, which shows a quite similar, but less severe phenotype. We hypothesize that the deletion harbored by this fetus results in the same pathophysiological mechanisms as those of the Dbf model. The description of this case expands the spectrum of the disruption of chromatin architecture of WNT6/IHH/EPHA4/PAX3 locus, and could help to understand the mechanisms of chromatin interactions at this locus.
(TAC) is a congenital heart defect in which the physiologic arterial common trunk was not divided into aorta and pulmonary artery trunk.
In this paper, we report on three observed cases from which we ...looked for (in conjunction with literature review) the different causes of TAC many of which have genetic origins.
We collected three clinical files of fetuses having a TAC. Two of them were examinated after a medical termination of pregnancy motivated by severe cardiopathy. The malformation had been diagnosed based on different techniques: echocardiography, skeletal radiography, arteriography, fetal autopsy, karyotype and fluorescence in situ hybridization (FISH).
Imaging and fetopathological examination revealed the presence of TAC type 3 and 4 in the Van Praaghs classification. FISH analysis showed a 22q11.2 deletion in one fetus in favour of Digeorge syndrome. The karyotype analysis performed in two cases was normal.
Truncus arteriosus is a rare pathology caused by numerous etiologies from which many of them have genetic origin. This malformation can be diagnosed early during prenatal period. Postmortem fetopathological examination allows a better diagnosis approach and eventually a genetic counseling in recurrent cases such as case of consanguinity.
Omphalocele is one of the most common congenital defects in the anterior abdominal wall. The malformation is associated with various pathologies especially with chromosomal disorders. The ...developmental defect is observed in Congolese hospitals, but risk factors are not well precised on the published case reports, which are more often focused on management. We aim in this paper to make a review on the condition, insisting on the risk factors of omphaloceles mainly of those of genetic origins.
Searching for stimulators of the innate antiviral response is an appealing approach to develop novel therapeutics against viral infections. Here, we established a cell-based reporter assay to ...identify compounds stimulating expression of interferon-inducible antiviral genes. DD264 was selected out of 41,353 compounds for both its immuno-stimulatory and antiviral properties. While searching for its mode of action, we identified DD264 as an inhibitor of pyrimidine biosynthesis pathway. This metabolic pathway was recently identified as a prime target of broad-spectrum antiviral molecules, but our data unraveled a yet unsuspected link with innate immunity. Indeed, we showed that DD264 or brequinar, a well-known inhibitor of pyrimidine biosynthesis pathway, both enhanced the expression of antiviral genes in human cells. Furthermore, antiviral activity of DD264 or brequinar was found strictly dependent on cellular gene transcription, nuclear export machinery, and required IRF1 transcription factor. In conclusion, the antiviral property of pyrimidine biosynthesis inhibitors is not a direct consequence of pyrimidine deprivation on the virus machinery, but rather involves the induction of cellular immune response.
Mycobacterium tuberculosis DNA gyrase, an indispensable nanomachine involved in the regulation of DNA topology, is the only type II topoisomerase present in this organism and is hence the sole target ...for quinolone action, a crucial drug active against multidrug-resistant tuberculosis. To understand at an atomic level the quinolone resistance mechanism, which emerges in extensively drug resistant tuberculosis, we performed combined functional, biophysical and structural studies of the two individual domains constituting the catalytic DNA gyrase reaction core, namely the Toprim and the breakage-reunion domains. This allowed us to produce a model of the catalytic reaction core in complex with DNA and a quinolone molecule, identifying original mechanistic properties of quinolone binding and clarifying the relationships between amino acid mutations and resistance phenotype of M. tuberculosis DNA gyrase. These results are compatible with our previous studies on quinolone resistance. Interestingly, the structure of the entire breakage-reunion domain revealed a new interaction, in which the Quinolone-Binding Pocket (QBP) is blocked by the N-terminal helix of a symmetry-related molecule. This interaction provides useful starting points for designing peptide based inhibitors that target DNA gyrase to prevent its binding to DNA.
Lactococcus lactis and Lactococcus cremoris are Gram-positive lactic acid bacteria widely used as starter in milk fermentations. Lactococcal cells are covered with a polysaccharide pellicle (PSP) ...that was previously shown to act as the receptor for numerous bacteriophages of the
class. Thus, mutant strains lacking PSP are phage resistant. However, because PSP is a key cell wall component, PSP-negative mutants exhibit dramatic alterations of cell shape and severe growth defects, which limit their technological value. In the present study, we isolated spontaneous mutants with improved growth, from
PSP-negative mutants. These mutants grow at rates similar to the wild-type strain, and based on transmission electron microscopy analysis, they exhibit improved cell morphology compared to their parental PSP-negative mutants. In addition, the selected mutants maintain their phage resistance. Whole-genome sequencing of several such mutants showed that they carried a mutation in
, a gene encoding a penicillin-binding protein involved in peptidoglycan biosynthesis. Our results indicate that lowering or turning off PBP2b activity suppresses the requirement for PSP and ameliorates substantially bacterial fitness and morphology.
Lactococcus lactis and Lactococcus cremoris are widely used in the dairy industry as a starter culture. As such, they are consistently challenged by bacteriophage infections which may result in reduced or failed milk acidification with associated economic losses. Bacteriophage infection starts with the recognition of a receptor at the cell surface, which was shown to be a cell wall polysaccharide (the polysaccharide pellicle PSP) for the majority of lactococcal phages. Lactococcal mutants devoid of PSP exhibit phage resistance but also reduced fitness, since their morphology and division are severely impaired. Here, we isolated spontaneous, food-grade non-PSP-producing
mutants resistant to bacteriophage infection with a restored fitness. This study provides an approach to isolate non-GMO phage-resistant L. cremoris and L. lactis strains, which can be applied to strains with technological functionalities. Also, our results highlight for the first time the link between peptidoglycan and cell wall polysaccharide biosynthesis.
Multiple becomings in digital story creation Dagenais, Diane; Brisson, Geneviève; André, Gwénaëlle ...
Language and intercultural communication,
09/2020, Volume:
20, Issue:
5
Journal Article
Peer reviewed
Using ethnographic approaches, we document encounters of humans and materials in environments where a digital tool was used to create multilingual and multimodal stories. Thinking with theories of ...the sociomaterial and concepts of agencement and becoming (Deleuze & Guattari, 1987), we reflect on identity construction as a collective process of coming into being. To do so, we examine relationships formed among young children, adults, digital devices and platforms, language and literacy norms, as well as discourses about monolingualism, multilingualism and literacy instruction to better understand how they converge during story creation.
Native Amine Dehydrogenases (nat‐AmDHs) are NAD(P)H‐enzymes performing reductive amination, mainly active towards small aliphatic aldehydes and cyclic ketones, due to active site volumes limited by ...the presence of several bulky amino acids. Herein, inspired by the diversity of residues at these positions among the family, we report the implementation of mutations F140A and W145A in CfusAmDH and their transposition in nine other members. Moderate to high conversions were obtained with substrates not accepted by the native enzymes, notably n‐alkylaldehydes (44.6 %–99.5 % for hexanal to nonanal) and n‐alkylketones (16.0 %–53.7 % for hexan‐2‐one to nonan‐2‐one) with retention of excellent (S)‐enantioselectivity (>99 % ee). Complementary to the reported (R)‐selective AmDHs, the promising mutant CfusAmDH−W145A was further characterized for its synthetic potential. Crystal structure resolution and molecular dynamics gave insights into the cofactor and substrate specificity and the whole structural dynamics, thus providing keys for mutagenesis work on this enzyme family.
Biodiversity is a good inspiring source for protein engineering. A targeted mutation in the active site of diverse native Amine Dehydrogenases allowed to extend their substrate scope to linear aliphatic aldehydes and ketones up to C8. The structure and dynamics of these enzymes are now better understood thanks to crystal structure of the mutant and molecular dynamics studies.