The Charcot‐Marie‐Tooth (CMT) disorders comprise a group of clinically and genetically heterogeneous hereditary motor and sensory neuropathies, which are mainly characterized by muscle weakness and wasting, foot deformities, and electrophysiological, as well as histological, changes. A subtype, CMT2, is defined by a slight or absent reduction of nerve‐conduction velocities together with the loss of large myelinated fibers and axonal degeneration. CMT2 phenotypes are also characterized by a large genetic heterogeneity, although only two genes‐NF‐L and KIF1Bbeta‐have been identified to date. Homozygosity mapping in inbred Algerian families with autosomal recessive CMT2 (AR‐CMT2) provided evidence of linkage to chromosome 1q21.2‐q21.3 in two families (Z(max) = 4.14). All patients shared a common homozygous ancestral haplotype that was suggestive of a founder mutation as the cause of the phenotype. A unique homozygous mutation in LMNA (which encodes lamin A/C, a component of the nuclear envelope) was identified in all affected members and in additional patients with CMT2 from a third, unrelated family. Ultrastructural explor‐ ation of sciatic nerves of LMNA null (i.e., −/−) mice was performed and revealed a strong reduction of axon density, axonal enlargement, and the presence of nonmyelinated axons, all of which were highly similar to the phenotypes of human peripheral axonopathies. The finding of site‐specific amino acid substitutions in limb‐girdle muscular dystrophy type 1B, autosomal dominant Emery‐Dreifuss muscular dystrophy, dilated cardiomyopathy type 1A, autosomal dominant partial lipodystrophy, and, now, AR‐CMT2 suggests the existence of distinct functional domains in lamin A/C that are essential for the maintenance and integrity of different cell lineages. To our knowledge, this report constitutes the first evidence of the recessive inheritance of a mutation that causes CMT2; additionally, we suggest that mutations in LMNA may also be the cause of the genetically overlapping disorder CMT2B1.
Hutchinson–Gilford progeria syndrome (HGPS) is a lethal premature and accelerated aging disease caused by a de novo point mutation in LMNA encoding A‐type lamins. Progerin, a truncated and toxic prelamin A issued from aberrant splicing, accumulates in HGPS cells' nuclei and is a hallmark of the disease. Small amounts of progerin are also produced during normal aging. We show that progerin is sequestered into abnormally shaped promyelocytic nuclear bodies, identified as novel biomarkers in late passage HGPS cell lines. We found that the proteasome inhibitor MG132 induces progerin degradation through macroautophagy and strongly reduces progerin production through downregulation of SRSF‐1 and SRSF‐5 accumulation, controlling prelamin A mRNA aberrant splicing. MG132 treatment improves cellular HGPS phenotypes. MG132 injection in skeletal muscle of Lmna
G609G/G609G mice locally reduces SRSF‐1 expression and progerin levels. Altogether, we demonstrate progerin reduction based on MG132 dual action and shed light on a promising class of molecules toward a potential therapy for children with HGPS.
Autosomal-recessive forms of Charcot-Marie-Tooth (ARCMT) account for less than 10% of the families with CMT. On the other hand, in countries with a high prevalence of consanguinity this mode of inheritance accounts, likely, for the vast majority of CMT phenotypes. Like dominant forms, autosomal-recessive forms are generally subdivided into demyelinating forms (autosomal-recessive CMT1: ARCMT1 or CMT4) and axonal forms (ARCMT2). Until now, demyelinating ARCMT were more extensively studied at the genetic level than the axonal forms. Although the latter are undoubtedly the rarest forms among the heterogeneous group of CMT, three distinct forms have been genetically mapped and recent studies in the past 4 yr provided evidence that their respective causing genes have been characterized. Indeed, gene defects in encoding A-type lamins (LMNA), encoding Ganglioside-induced Differentiation-Associated Protein-1 (GDAP1) and encoding the mediator of RNA polymerase II transcription, subunit 25 homolog (MED25) have been identified in ARCMT2 subtypes. Given the clinical, electrophysiological and histological heterogeneity of CMT2, it is likely that unreported forms of ARCMT2, related to novel genes, remain to be discovered, leading to an even more complex classification. However, our goal in this review is to provide the reader with a clear view on the known genes and mechanisms involved in ARCMT2 and their associated phenotypes.
Background: Noonan Syndrome (NS) is a relatively common autosomal dominant condition, caused by germline mutations in different genes involved in the RAS MAP Kinase signaling pathway. Although clinically heterogeneous, characteristic findings include typical facial features, short stature, chest deformity and congenital heart diseases.
The Publisher regrets that this article is an accidental duplication of an article that has already been published, http://dx.doi.org/10.1016/j.semcdb.2014.03.022. The duplicate article has therefore been withdrawn. The full Elsevier Policy on Article Withdrawal can be found at http://www.elsevier.com/locate/withdrawalpolicy.
The biobank of the Assistance Publique Hôpitaux de Marseille (AP-HM) works as a multi-site biobank around one Quality Management System. The biobank works on the collection, preparation, storage and release of biological resources and their associated data. It receives tissue samples for neoplasms, DNA and cells for rare genetic diseases and blood samples for hematological and cardiovascular diseases. These samples are provided and classified by experts of different domains; the samples are under strict technical protocols with appropriate clinical data. This wide range of sample types, diseases and services allows collaborations with public or private laboratories to customize research projects or therapeutic trials.
Immune response induced by COVID-19 vaccine booster against delta and omicron variants was assessed in 65 adults (65–84 years old) early aftesr a first booster dose. An increase in SARS-CoV-2 neutralizing antibodies was shown in individuals not previously infected without evidence of an age-related effect, with lower increase in those infected before a single dose of primary vaccination. Of note, humoral response was observed only starting from the 5th day after the boost.
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