Transthyretin amyloid polyneuropathy in France: A cross-sectional study with 413 patients and real-world tafamidis meglumine use (2009-2019).

OBJECTIVE: We aimed to describe characteristics of patients with ATTR variant polyneuropathy (ATTRv-PN) and ATTRv-mixed and assess the real-world use and safety profile of tafamidis meglumine 20mg. METHODS: Thirty-eight French hospitals were invited. Patient files were reviewed to identify clinical manifestations, diagnostic methods, and treatment compliance. RESULTS: Four hundred and thirteen patients (296 ATTRv-PN, 117 ATTRv-mixed) were analyzed. Patients were predominantly male (68.0%) with a mean age of 57.2±17.2 years. Interval between first symptom(s) and diagnosis was 3.4±4.3 years. First symptoms included sensory complaints (85.9%), dysautonomia (38.5%), motor deficits (26.4%), carpal tunnel syndrome (31.5%), shortness of breath (13.3%), and unexplained weight loss (16.0%). Mini-invasive accessory salivary gland or punch skin and nerve biopsies were most common, with a performance of 78.8-100%. TTR genetic sequencing, performed in all patients, revealed 31 TTR variants. Tafamidis meglumine was initiated in 156/214 (72.9%) ATTRv-PN patients at an early disease stage. Median treatment duration was 6.00 years in ATTRv-PN and 3.42 years in ATTRv-mixed patients. Tafamidis was well tolerated, with 20 adverse events likely related to study drug among the 336 patients. CONCLUSION: In France, ATTRv patients are usually identified early thanks to the national network and the help of diagnosis combining genetic testing and mini-invasive biopsies.

Upper limb onset of hereditary transthyretin amyloidosis is common in non-endemic areas.

BACKGROUND AND PURPOSE: The aim is to describe an uncommon phenotype of hereditary ATTR neuropathy with upper limb onset. METHODS: The French TTR Familial Amyloid Polyneuropathy database was used for a retrospective evaluation of 32 consecutive patients with upper limb onset of the neuropathy (study group) and they were compared to 31 Portuguese early-onset patients and 99 late-onset patients without upper limb onset. RESULTS: Initial upper limb symptoms were mostly sensory. Lower limb symptoms began 2.3 ± 3 years after upper limb symptoms. Twenty-four (75%) patients were initially misdiagnosed, with 15 different diagnoses. More patients in the study group had a Neuropathy Impairment Score upper limb/lower limb ratio > 1 compared to the late-onset patient group. The study group had significantly more pronounced axonal loss in the median and ulnar motor nerves and the ulnar sensory and sural nerves. On radial nerve biopsies (n = 11), epineurial vessels were abnormal in six cases, including amyloid deposits in vessel walls (3/11), with vessel occlusion in two cases. CONCLUSION: Upper limb onset of hereditary ATTR neuropathy is not rare in non-endemic areas. It is important to propose early TTR sequencing of patients with idiopathic upper limb neuropathies, as specific management and treatment are required.

NOBOX is a strong autosomal candidate gene in Tunisian patients with primary ovarian insufficiency.

Premature ovarian insufficiency (POI) affects approximately 1% of women before the age of 40. Genetic contribution is a significant component of POI. In this context, heterozygous mutations in NOBOX, BMP15 and GDF9 have been reported. The objective of our study was to evaluate the prevalence of these genes mutations in 125 unrelated Tunisian patients diagnosed with POI. The screening of NOBOX gene revealed three missense mutations (p.Arg117Trp; p.Gly91Trp and p.Pro619Leu) in eight patients. These mutations were not found in a 200 ethnically matched women without fertility problem. The sequencing of BMP15 and GDF9 gene revealed only previously reported variants. In contrast to previous studies, the prevalence of BMP15 variations is not higher than in the control population. Conversely, 6.4% of the cases present a NOBOX mutations; this high prevalence strengthens the consideration of NOBOX gene as strong autosomal candidate for POI.

SALL4 and NFATC2: two major actors of interstitial 20q13.2 duplication.

Interstitial duplication within the long arm of chromosome 20 is an uncommon chromosome structural abnormality. We report here the clinical and molecular characterization associated with pure 20q13.2 duplication in three unrelated patients. The most frequent clinical features were developmental delay, facial dysmorphism, cardiac malformation and skeletal anomalies. All DNA gains occurred de novo, ranging from 1.1 Mb to 11.5 Mb. Compared with previously reported conventional cytogenetic analyses, oligonucleotides array CGH allowed us to refine breakpoints and determine the genes of interest in the region. Involvement of SALL4 in cardiac malformations and NFATC2 gene disruption in both cardiac and skeletal anomalies are discussed.

Array comparative genomic hybridization analysis of small supernumerary marker chromosomes in human infertility.

Small supernumerary marker chromosomes (sSMC) are structurally abnormal chromosomes that cannot be unambiguously identified by conventional banding cytogenetics. This study describes four patients with sSMC in relation with infertility. Patient 1 had primary infertility. His brother, fertile, carried the same sSMC (patient 2). Patient 3 presented polycystic ovary syndrome and patient 4 primary ovarian insufficiency. Cytogenetic studies, array comparative genomic hybridization (CGH) and sperm analyses were compared with cases previously reported. sSMC corresponded to the 15q11.2 region (patients 1 and 2), the centromeric chromosome 15 region (patient 3) and the 21p11.2 region (patient 4). Array CGH showed 3.6-Mb gain for patients 1 and 2 and 0.266-Mb gain for patient 4. Sperm fluorescent in-situ hybridization analyses found ratios of 0.37 and 0.30 of sperm nuclei with sSMC(15) for patients 1 and 2, respectively (P < 0.001). An increase of sperm nuclei with disomy X, Y and 18 was noted for patient 1 compared with control and patient 2 (P < 0.001). Among the genes mapped in the unbalanced chromosomal regions, POTE B and BAGE are related to the testis and ovary, respectively. The implication of sSMC in infertility could be due to duplication, but also to mechanical effects perturbing meiosis.

Effect of NFE2L2 genetic polymorphism on the association between oral estrogen therapy and the risk of venous thromboembolism in postmenopausal women.

Oral, but not transdermal, estrogen therapy increases the risk of venous thromboembolism (VTE) in women who are past menopause. Data from the Estrogen and Thromboembolism Risk (ESTHER) study were used to investigate the effects of the genetic polymorphism of NFE2L2 rs6721961, which may impair Nrf2-dependent hepatic conjugation of estrogen metabolites. As compared with nonusers, the odds ratio (OR) for VTE in current users of oral estrogens was 2.5 (95% confidence interval (CI): 1.3-4.8) in patients with wild-type NFE2L2 and 17.9 (95% CI: 3.7-85.7) in those with the polymorphism (interaction, P = 0.01).

Congenital hypogonadotropic hypogonadism in females: clinical spectrum, evaluation and genetics.

Congenital hypogonadotropic hypogonadisms (CHH) are a well-known cause of pubertal development failure in women. In a majority of patients, the clinical spectrum results from an insufficient and concomitant secretion of both pituitary gonadotropins LH and FSH that impedes a normal endocrine and exocrine cyclical ovary functioning after the age of pubertal activation of gonadotropic axis. In exceptional but interesting cases, they can result from an elective deficit of one of the gonadotropins follicle-stimulating hormone (FSH) or luteinizing hormone (LH) by genetic anomaly of their specific ss sub-unit. CHH prevalence, estimated from teaching hospital series, is considered to be two to five fold less important in women compared to men bearing the disease. This frequency is probably under-estimated in reason of under-diagnosis of forms with partial pubertal development. Isolated or apparently isolated forms (i.e., Kallmann syndrome with anosmia or hyposmia not spontaneously expressed by the patients) of these diseases are most of the time discovered during adolescence or in adulthood in reason of lacking, incomplete or even apparently complete pubertal development, but with almost constant primary amenorrhea. In a minority of cases and mainly in familial forms, genetic autosomal causes have been found. These cases are related to mutations of genes impinging the functioning of the pituitary-hypothalamic pathways involved in the normal secretion of LH and FSH (mutations of GnRHR, GnRH1, KISS1R/GPR54, TAC3, TACR3), which are always associated to isolated non syndromic CHH without anosmia. Some cases of mutations of FGFR1, and more rarely of its ligand FGF8, or of PROKR2 or its ligand PROK2 have been shown in women suffering from Kallmann syndrome or its hyposmic or normosmic variant. In complex syndromic causes (mutations of CHD7, leptin and leptin receptor anomalies, Prader-Willi syndrome, etc.), diagnosis of the CHH cause is most often suspected or set down before the age of puberty in reason of the associated clinical signs, but some rare cases of paucisymptomatic syndromic causes can initially be revealed during adolescence, like isolated non syndromic CHH or Kallmann syndrome.

Thymidine phosphorylase gene mutations in patients with mitochondrial neurogastrointestinal encephalomyopathy syndrome.

The mitochondrial neurogastrointestinal encephalomyopathy (MNGIE) syndrome is characterized by the association of gastrointestinal and neurological symptoms. It is a rare autosomal recessive mitochondrial disorder with multiple mitochondrial DNA deletions and/or depletion. It is caused by thymidine phosphorylase (TP) gene mutations resulting in a complete abolition of TP activity. We tested 31 unrelated patients presenting either with a complete MNGIE syndrome (8 patients), a severe intestinal pseudo-obstruction (10 patients), and multiple deletions and/or depletion of mitochondrial DNA (13 patients). All the tested patients presenting with a complete MNGIE had increased thymidine levels in plasma and urine, and no TP activity. The group with pseudo-obstruction syndrome had normal or partial reduction of TP activity. We found pathogenic mutations on TP gene only in the MNGIE syndrome group: all the MNGIE patients were compound heterozygous or homozygous for mutations in the TP gene. Eight of these mutations are yet unreported, confirming the lack of genotype/phenotype correlation in this syndrome. Enzymatic activity and thymidine level are thus rapid diagnosis tests to detect MNGIE affected patients prior to genetic testing for patients with gastrointestinal symptoms.

The range of chronic demyelinating neuropathy of infancy: a clinico-pathological and genetic study of 15 unrelated cases.

The concept of Dejerine-Sottas disease, which corresponds to presumed recessive demyelinating neuropathies with onset in infancy, remains controversial. To learn more on the subject, we performed a clinico-pathological and molecular genetic study in 15 unrelated patients with the Dejerine-Sottas phenotype seen over a 16 year period. There were 12 females and 3 males, born to asymptomatic parents. Study of the PMP22, P0 and Egr2 genes was performed in all cases and 14 underwent a nerve biopsy. First manifestations of neuropathy occurred before 3 years of age in all patients. An inherited disorder was suspected in 10 patients, because of their family history and/or disclosure of a molecular genetic defect in 4 of them. One patient had a recessively transmitted homozygous point mutation (Arg157Trp) of the PMP22 gene. A heterozygous duplication of the 17p11.2-12 segment was detected in one offspring of a consanguineous marriage. One patient carried a "de novo" heterozygous Ser72Leu substitution in the PMP22. A heterozygous double mutation of the P0 gene including a "de novo" Val42 deletion and an Ala221Thr substitution, maternally inherited, were found in an apparently sporadic case. No mutation of the Egr2 gene was identified. A neuropathy with focally folded myelin sheaths (CMT4B) was diagnosed in the nerve biopsy specimens of two patients. In five patients, the clinico-pathological findings along with the absence of an identified mutation suggested the diagnosis of chronic inflammatory demyelinating polyneuropathy of infantile onset. Our findings illustrate the genetic heterogeneity of cases with identified mutations, the scarcity of cases with "demonstrated" recessive transmission and the likelihood of early acquired chronic inflammatory demyelinating polyneuropathy in several patients.

Phe 84 deletion of the PMP22 gene associated with hereditary motor and sensory neuropathy HMSN III with multiple cranial neuropathy: clinical, neurophysiological and magnetic resonance imaging findings.

Hereditary motor and sensory neuropathy (HMSN) is a heterogeneous group of peripheral neuropathies which are diagnosed on the basis of clinical, electrophysiological and neuropathological findings. Among the hypertrophic demyelinating neuropathies, HMSN III is the most severe. It is often associated with de novo mutations in the genes encoding for peripheral myelin proteins. While peripheral nerve hypertrophy is an expected finding in HMSN III, cranial nerve hypertrophy is exceptional. Here we describe a mutation in the PMP22 gene in a 19-year-old man with infantile onset of sensory motor polyneuropathy without family history and multiple cranial nerve hypertrophy shown by cranial magnetic resonance imaging.

Peripheral neuropathy with hypomyelination, chronic intestinal pseudo-obstruction and deafness: a developmental "neural crest syndrome" related to a SOX10 mutation.

We describe the case of a girl with an unusual congenital phenotype, combining peculiar peripheral nerve lesions with hypomyelination, chronic intestinal pseudoobstruction, and deafness. She was found to have a de novo heterozygous frameshift mutation in the gene encoding the SOX10 transcription factor. The likely role of SOX10 in determining the fate of Schwann cells during early embryogenesis may explain the peripheral nervous system developmental disorder observed in this patient.

[Specific modulators of estrogen action]. / Les modulateurs spécifiques de l'action des oestrogènes.

Selective estradiol receptor modulators (SERMs) are specific modulators of estradiol action. They are used in therapeutics to obtain an estrogenic effect on certain cells and an antiestrogenic effect on other cells. Recent progress in the knowledge of the mechanism of action of estradiols implies that new molecules could be designed. This progress involves the cloning of a new estradiol receptor, ER beta, the discovery of co-activators and the elucidation of their molecular mechanism of action, and the crystallization of the ligand binding domain in the presence of an agonist or an antagonist.

[Regulation of the differentiation and proliferation of smooth muscle cells by the sex hormones]. / Régulation de la différenciation et de la prolifération des cellules musculaires lisses par les stéroïdes sexuels.

Steroids effects are mediated by their receptors. These proteins define the large family of steroid hormone receptors, characterized by the presence of 3 functional domains: a transactivation domain, a DNA-binding domain and a ligand-binding domain. Receptor activation induces the modulation of transcription of specific genes, and as a consequence, the modulation of production of specific proteins. Sex steroid receptors are located in the nucleus. This nuclear localization is in fact a dynamic situation, resulting from a continuous shuttling of the receptor between the cytoplasm and the nucleus. The recent discovery that an additional estrogen receptor is present in various tissues has advanced our understanding of the mechanism underlying estrogen signalling. Non genomic effects of steroids have also been described. Sex steroids inhibit proliferation of smooth muscle cells. On the contrary, they stimulate proliferation of tumoral muscle cells. The mechanisms of sex steroid effects on cellular proliferation are complex, and may involve transcriptional or non transcriptional phenomena.

The Roussy-Lévy family: from the original description to the gene.

In 1926, Roussy and Lévy described a large family whose members manifested an early onset dominantly inherited gait ataxia, pes cavus, and areflexia, which was eventually associated with distal muscle atrophy, postural tremor, and minor sensory loss. Slow nerve conduction and demyelination of nerve fibers with onion bulb formations in nerve biopsy specimens led to the Roussy-Lévy syndrome (RLS) being considered a variant of demyelinating Charcot-Marie-Tooth disease (CMT-1). In the present article, we report on the long-term follow-up, on nerve biopsy findings, and on the underlying molecular genetic defect in members of the original family studied by Roussy and Lévy. All patients were able to walk during their seventh decade of life. Morphologically, a chronic demyelinating neuropathy with the remarkable aspects of a focally hypertrophic myelin sheath and major loss of myelinated fibers was observed in nerve biopsy specimens of 3 members of this family. Molecular genetic testing identified a previously unknown heterozygous missense point mutation which yielded an Asn131Lys substitution in the extracellular domain of the myelin protein zero (P0). These findings show that the Roussy-Lévy family belongs to the CMT-1B subtype and has original morphological and genetic features.

[Steroid receptors and mechanism of action of sex steroids]. / Récepteurs stéroïdiens et mécanismes d'action des stéroïdes sexuels.

Steroid hormone receptors define a large family of proteins. Recently, a new estradiol receptor has been identified. This discovery suggests the existence of a previously unrecognized pathway of estrogen signalling. Moreover, it implies important pharmacological consequences. Receptors activation induces the modulation of transcription of specific genes. Proteins involved in this effect have been identified: coactivators, corepressors and cointegrators. Their mechanism of action have been characterized. They modify histone acetylation of the corresponding promotor. Sex steroid receptors are located in the nucleus. This nuclear localization is in fact a dynamic situation, resulting from a continuous shuttling of the receptor between the cytoplasm and the nucleus. Non genomic effects of steroids have also been described.

Recessive inheritance of a new point mutation of the PMP22 gene in Dejerine-Sottas disease.

The existence of recessive transmission of Dejerine-Sottas disease, a severe demyelinating neuropathy of childhood, has been questioned, because only heterozygous mutations of the myelin proteins P0 or PMP22 genes have been identified in virtually all patients with this phenotype. We report on a family with 3 affected children with this phenotype, born to clinically and electrophysiologically unaffected parents. All 3 children carried a previously unknown homozygous missense point mutation (Arg157Trp) of the PMP22 gene. The parents were heterozygous for the same mutation. These findings demonstrate the occurrence of recessive transmission in this setting.

[Estrogen biosynthesis and receptors]. / Biosynthèse et récepteurs des estrogènes.

Most of the enzymes involved in steroidogenesis belong to the family of cytochrome P 450. Most of the corresponding genes have been cloned. The key enzyme for estradiol biosynthesis is P 450 arom. Several germline mutations have been described. These observations have lead to reconsider the role of estradiol. Estradiol plays a key role in bone growth and mineralisation and in gonadotrope regulation in male. Moreover, the recent discovery that an additional estrogen receptor (ER beta) is present in various tissues has advanced our understanding of the mechanisms underlying estrogen signalling. It suggests the existence of two previously unrecognized pathways of estrogen signalling: via the ER beta subtype in tissues exclusively expressing this subtype and via the formation of heterodimers in tissues expressing both ER subtypes. Various models have been suggested as explanations for the stricking cell and promoter-specific effects of estrogens and antiestrogens, all on the basis of the assumption that only a single ER exists. These models have to be reconsidered. Moreover, new antiestrogens with improved therapeutic profiles could be designed.