Little is known about the regulation of cortical bone. This genetic study showed that suppression of Wnt-signaling pathways by secreted frizzled-related protein 4 was critical to cortical-bone ...formation and strength.
Osteoporosis is a skeletal disease that is characterized by low bone mass, defective bone structure, and a high risk of fracture. Cortical-bone mass is a major determinant of bone strength and therefore of susceptibility to fractures. With aging, the mass of cortical bone may decrease more than the mass of trabecular bone, and fractures occurring in older persons result mostly from cortical-bone fragility. Although progress has been made in therapeutic approaches to reducing the risk of vertebral fracture (which occurs at sites rich in trabecular bone), currently available treatments do little to reduce the risk of nonvertebral fracture, which results . . .
We identified biallelic mutations in NANS, the gene encoding the synthase for N-acetylneuraminic acid (NeuNAc; sialic acid), in nine individuals with infantile-onset severe developmental delay and ...skeletal dysplasia. Patient body fluids showed an elevation in N-acetyl-D-mannosamine levels, and patient-derived fibroblasts had reduced NANS activity and were unable to incorporate sialic acid precursors into sialylated glycoproteins. Knockdown of nansa in zebrafish embryos resulted in abnormal skeletal development, and exogenously added sialic acid partially rescued the skeletal phenotype. Thus, NANS-mediated synthesis of sialic acid is required for early brain development and skeletal growth. Normal sialylation of plasma proteins was observed in spite of NANS deficiency. Exploration of endogenous synthesis, nutritional absorption, and rescue pathways for sialic acid in different tissues and developmental phases is warranted to design therapeutic strategies to counteract NANS deficiency and to shed light on sialic acid metabolism and its implications for human nutrition.
Purpose of Review
The goal of this review is to evaluate the management options for achondroplasia, the most common non-lethal skeletal dysplasia. This disease is characterized by short stature and a ...variety of complications, some of which can be quite severe.
Recent Findings
Despite several attempts to standardize care, there is still no widely accepted consensus. This is in part due to absence of concrete data on the incidence of sudden unexplained death in infants with achondroplasia and the best investigation for ascertaining which individuals could benefit from foramen magnum decompression surgery.
Summary
In this review, we identify the different options of care and management for the various orthopedic, neurologic, and respiratory complications. In parallel, several innovative or drug repositioning therapies are being investigated that would restore bone growth but may also prevent complications. Achondroplasia is the most common non-lethal skeletal dysplasia. It is characterized by short stature and a variety of complications, some of which can be quite severe. Despite several attempts to standardize care, there is still no widely accepted consensus. This is in part due to absence of concrete data on the incidence of sudden unexplained death in infants with achondroplasia and the best investigation for ascertaining which individuals could benefit from foramen magnum decompression surgery. In this review, we identify the different options of care and management for the various orthopedic, neurologic, and respiratory complications. In parallel, several innovative or drug repositioning therapies are being investigated that would restore bone growth but may also prevent complications.
Long non-coding RNAs (lncRNAs) can be important components in gene-regulatory networks
, but the exact nature and extent of their involvement in human Mendelian disease is largely unknown. Here we ...show that genetic ablation of a lncRNA locus on human chromosome 2 causes a severe congenital limb malformation. We identified homozygous 27-63-kilobase deletions located 300 kilobases upstream of the engrailed-1 gene (EN1) in patients with a complex limb malformation featuring mesomelic shortening, syndactyly and ventral nails (dorsal dimelia). Re-engineering of the human deletions in mice resulted in a complete loss of En1 expression in the limb and a double dorsal-limb phenotype that recapitulates the human disease phenotype. Genome-wide transcriptome analysis in the developing mouse limb revealed a four-exon-long non-coding transcript within the deleted region, which we named Maenli. Functional dissection of the Maenli locus showed that its transcriptional activity is required for limb-specific En1 activation in cis, thereby fine-tuning the gene-regulatory networks controlling dorso-ventral polarity in the developing limb bud. Its loss results in the En1-related dorsal ventral limb phenotype, a subset of the full En1-associated phenotype. Our findings demonstrate that mutations involving lncRNA loci can result in human Mendelian disease.
Glutaric aciduria type I (GA-I) is a cerebral organic aciduria caused by deficiency of glutaryl-Co-A dehydrogenase (GCDH). GCDH deficiency leads to accumulation of glutaric acid (GA) and ...3-hydroxyglutaric acid (3-OHGA), two metabolites that are believed to be neurotoxic, in brain and body fluids. The disorder usually becomes clinically manifest during a catabolic state (e.g. intercurrent illness) with an acute encephalopathic crisis that results in striatal necrosis and in a permanent dystonic–dyskinetic movement disorder. The results of numerous in vitro and in vivo studies have pointed to three main mechanisms involved in the metabolite-mediated neuronal damage: excitotoxicity, impairment of energy metabolism and oxidative stress. There is evidence that during a metabolic crisis GA and its metabolites are produced endogenously in the CNS and accumulate because of limiting transport mechanisms across the blood–brain barrier. Despite extensive experimental work, the relative contribution of the proposed pathogenic mechanisms remains unclear and specific therapeutic approaches have yet to be developed. Here, we review the experimental evidence and try to delineate possible pathogenetic models and approaches for future studies.
► Despite numerous studies, neuropathogenesis of GA-I is only partially understood. ► Animal models and in vitro studies focusing on neurological damage are summarized. ► Intra-neuronal accumulation of GA seems to be an important pathomechanism. ► Excitotoxicity, impairment of energy metabolism and oxidative stress are involved. ► Intracerebral trapping of GA metabolites contribute to neuronal damage.
Diastrophic dysplasia (DTD) is a recessive chondrodysplasia caused by pathogenic variants in the SLC26A2 gene encoding for a cell membrane sulfate/chloride antiporter crucial for sulfate uptake and ...glycosaminoglycan (GAG) sulfation. Research on a DTD animal model has suggested possible pharmacological treatment approaches. In view of future clinical trials, the identification of non-invasive biomarkers is crucial to assess the efficacy of treatments. Urinary GAG composition has been analyzed in several metabolic disorders including mucopolysaccharidoses. Moreover, the N-terminal fragment of collagen X, known as collagen X marker (CXM), is considered a real-time marker of endochondral ossification and growth velocity and was studied in individuals with achondroplasia and osteogenesis imperfecta. In this work, urinary GAG sulfation and blood CXM levels were investigated as potential biomarkers for individuals affected by DTD. Chondroitin sulfate disaccharide analysis was performed on GAGs isolated from urine by HPLC after GAG digestion with chondroitinase ABC and ACII, while CXM was assessed in dried blood spots. Results from DTD patients were compared with an age-matched control population. Undersulfation of urinary GAGs was observed in DTD patients with some relationship to the clinical severity and underlying SLC26A2 variants. Lower than normal CXM levels were observed in most patients, even if the marker did not show a clear pattern in our small patient cohort because CXM values are highly dependent on age, gender and growth velocity. In summary, both non-invasive biomarkers are promising assays targeting various aspects of the disorder including overall metabolism of sulfated GAGs and endochondral ossification.
•Urinary GAG sulfation and blood collagen X marker (CXM) have been tested as non-invasive biomarkers in DTD patients.•Urinary GAG sulfation is reduced in patients with DTD and is a promising biomarker for therapies that increase GAG sulfation.•Blood CXM is below age-matched control values in DTD patients being a suitable biomarker for bone growth velocity.
Osteogenesis imperfecta is an inherited connective tissue disorder with wide phenotypic and molecular heterogeneity. A common issue associated with the molecular abnormality is a disturbance in bone ...matrix synthesis and homeostasis inducing bone fragility. In very early life, this can lead to multiple fractures and progressive bone deformities, including long bone bowing and scoliosis. Multidisciplinary management improves quality of life for patients with osteogenesis imperfecta. It consists of physical therapy, medical treatment and orthopaedic surgery as necessary. Medical treatment consists of bone-remodelling drug therapy. Bisphosphonates are widely used in the treatment of moderate to severe osteogenesis imperfecta, from infancy to adulthood. Other more recent drug therapies include teriparatide and denosumab. All these therapies target the symptoms and have effects on the mechanical properties of bone due to modification of bone remodelling, therefore influencing skeletal outcome and orthopaedic surgery. Innovative therapies, such as progenitor and mesenchymal stem cell transplantation, targeting the specific altered pathway rather than the symptoms, are in the process of development.
A form of skeletal dysplasia in mice is caused by a mutation in a gene that is critical for the functioning of the Golgi apparatus. A mutation in the orthologous gene in humans results in a similar ...phenotype: achondrogenesis type 1A.
A form of skeletal dysplasia in mice is caused by a mutation in a gene that is critical for the functioning of the Golgi apparatus. A mutation in the orthologous gene in humans results in a similar phenotype: achondrogenesis type 1A.
The presence of the Golgi apparatus in all cell types suggests that it is indispensable. Although cultured cells are able to survive when their well-structured Golgi architecture is transiently disrupted chemically or through RNA interference (RNAi),
1
the requirement for an intact Golgi apparatus during development has not been studied. In this article, we describe mice in which the Golgi architecture is disrupted in multiple tissues by a loss-of-function mutation in the thyroid hormone receptor interactor 11 gene (
Trip11
), which encodes the Golgi microtubule-associated protein 210 (GMAP-210 — also known as TRIP230 and TRIP11). Golgins constitute a family of . . .
BACKGROUND
This report describes a new strategy for the care of patients with osteogenesis imperfecta, based on an interdisciplinary team working. Thereby, we aim at fulfilling three main goals: ...offering thorough coordinated management for all, and improving physical activity and quality of life of the patients.
AIM
With rare diseases such as osteogenesis imperfecta (OI), patients and their family often suffer from inadequate recognition of their disease, poor care coordination and incomplete information. A coordinated interdisciplinary approach is one possible solution for providing both comprehensive and cost-effective care, with benefits for patient satisfaction. Poor physical activity and impaired quality of life represent a considerable burden for these patients. To better address these issues, in 2012 we created an interdisciplinary team for the management of OI patients in our University Hospital Centre (CHUV, Lausanne University Hospital,). In this article we describe the implementation of this interdisciplinary care strategy for patients suffering from OI, and its impact on their physical activity and quality of life.
METHODS
All patients from the French part of Switzerland were invited to join us. We proposed two complementary evaluations: the initial interdisciplinary evaluation and a yearly follow-up during a special day – the “OI day”. This day features specialised medical appointments adapted to each patient’s needs, as well as lectures and/or workshops dedicated to patients’ and families’ education. Our first aim was to propose for each patient the same management, from diagnosis to the bone health evaluation and physical therapy advice. Our second aim was to evaluate the evolution of physical activity, quality of life (measured by EQ-5D, SF-36 and a dedicated questionnaire) and satisfaction of patients and their families. Here we report both the initial and the long-term results.
RESULTS
Since 2012, 50 patients from the French part of Switzerland received the personalised medical evaluation. All of the patients included in this study had the same initial evaluation and at least one participation in an OI Day. All patients had an adaptation of their bone acting drugs. Over a 7-year period, 62% of inactive patients started some physical activity, and 44% of patients who were not involved in any athletic activity started participating in sports. The mean EQ-5D increased from 0.73 to 0.75 (p = 0.59). The mean physical SF36 (musculoskeletal function) score was 59.09 ± 22.72 and improved to 65.79 ± 21.51 (p = 0.08), whereas it was 68.06 ± 20.05 for the mental SF36 without alteration during follow-up. The OI day was revealed to be useful, it contributed to improvement in continuity of care and helped families to better understand the OI patients’ health.
CONCLUSIONS
Our interdisciplinary approach aimed at offering the same thorough management for all patients from the French part of Switzerland, and at improving both the physical activity and the satisfaction of the patients and their family. This report is a basis for future work focusing on the effect of bone fragility and the impact of OI on patients’ social relations.