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Current Diabetes Reports Jan 2016Wolfram syndrome is a rare genetic disorder characterized by juvenile-onset diabetes mellitus, diabetes insipidus, optic nerve atrophy, hearing loss, and... (Review)
Review
Wolfram syndrome is a rare genetic disorder characterized by juvenile-onset diabetes mellitus, diabetes insipidus, optic nerve atrophy, hearing loss, and neurodegeneration. Although there are currently no effective treatments that can delay or reverse the progression of Wolfram syndrome, the use of careful clinical monitoring and supportive care can help relieve the suffering of patients and improve their quality of life. The prognosis of this syndrome is currently poor, and many patients die prematurely with severe neurological disabilities, raising the urgency for developing novel treatments for Wolfram syndrome. In this article, we describe natural history and etiology, provide recommendations for diagnosis and clinical management, and introduce new treatments for Wolfram syndrome.
Topics: Animals; Diabetes Mellitus, Type 1; Diabetes Mellitus, Type 2; Disease Progression; Humans; Prognosis; Quality of Life; Wolfram Syndrome
PubMed: 26742931
DOI: 10.1007/s11892-015-0702-6 -
Journal of Ultrasound in Medicine :... Feb 2023Following the innovations and new discoveries of the last 10 years in the field of lung ultrasound (LUS), a multidisciplinary panel of international LUS experts from... (Review)
Review
Following the innovations and new discoveries of the last 10 years in the field of lung ultrasound (LUS), a multidisciplinary panel of international LUS experts from six countries and from different fields (clinical and technical) reviewed and updated the original international consensus for point-of-care LUS, dated 2012. As a result, a total of 20 statements have been produced. Each statement is complemented by guidelines and future developments proposals. The statements are furthermore classified based on their nature as technical (5), clinical (11), educational (3), and safety (1) statements.
Topics: Humans; COVID-19; SARS-CoV-2; Consensus; Lung; Point-of-Care Testing; Ultrasonography
PubMed: 35993596
DOI: 10.1002/jum.16088 -
International Journal of Environmental... Mar 2022Wolfram syndrome 1 (WS1) is a rare neurodegenerative disease transmitted in an autosomal recessive mode. It is characterized by diabetes insipidus (DI), diabetes... (Review)
Review
Wolfram syndrome 1 (WS1) is a rare neurodegenerative disease transmitted in an autosomal recessive mode. It is characterized by diabetes insipidus (DI), diabetes mellitus (DM), optic atrophy (OA), and sensorineural hearing loss (D) (DIDMOAD). The clinical picture may be complicated by other symptoms, such as urinary tract, endocrinological, psychiatric, and neurological abnormalities. WS1 is caused by mutations in the gene located on chromosome 4p16 that encodes a transmembrane protein named wolframin. Many studies have shown that wolframin regulates some mechanisms of ER calcium homeostasis and therefore plays a role in cellular apoptosis. More than 200 mutations are responsible for WS1. However, abnormal phenotypes of WS with or without DM, inherited in an autosomal dominant mode and associated with one or more mutations, have been found. Furthermore, recessive Wolfram-like disease without DM has been described. The prognosis of WS1 is poor, and the death occurs prematurely. Although there are no therapies that can slow or stop WS1, a careful clinical monitoring can help patients during the rapid progression of the disease, thus improving their quality of life. In this review, we describe natural history and etiology of WS1 and suggest criteria for a most pertinent approach to the diagnosis and clinical follow up. We also describe the hallmarks of new therapies for WS1.
Topics: Female; Humans; Male; Membrane Proteins; Mutation; Neurodegenerative Diseases; Optic Atrophy; Quality of Life; Wolfram Syndrome
PubMed: 35328914
DOI: 10.3390/ijerph19063225 -
Survey of Ophthalmology 2023Wolfram-like syndrome (WFLS) is a recently described autosomal dominant disorder with phenotypic similarities to autosomal recessive Wolfram syndrome (WS), including... (Review)
Review
Wolfram-like syndrome (WFLS) is a recently described autosomal dominant disorder with phenotypic similarities to autosomal recessive Wolfram syndrome (WS), including optic atrophy, hearing impairment, and diabetes mellitus. We summarize current literature, define the clinical characteristics, and investigate potential genotype phenotype correlations. A systematic literature search was conducted in electronic databases Pubmed/MEDLINE, EMBACE, and Cochrane Library. We included studies reporting patients with a clinical picture consisting at least 2 typical clinical manifestations of WSF1 disorders and heterozygous mutations in WFS1. In total, 86 patients from 35 studies were included. The most common phenotype consisted of the combination of optic atrophy (87%) and hearing impairment (94%). Diabetes mellitus was seen in 44% of the patients. Nineteen percent developed cataract. Patients with missense mutations in WFS1 had a lower number of clinical manifestations, less chance of developing diabetes insipidus, but a younger age at onset of hearing impairment compared to patients with nonsense mutations or deletions causing frameshift. There were no studies reporting decreased life expectancy. This review shows that, within the spectrum of WFS1-associated disorders or "wolframinopathies," autosomal dominantly inherited WFLS has a relatively mild phenotype compared to autosomal recessive WS. The clinical manifestations and their age at onset are associated with the specific underlying mutations in the WFS1 gene.
Topics: Humans; Hearing Loss; Mutation; Optic Atrophy; Tungsten; Wolfram Syndrome
PubMed: 36764396
DOI: 10.1016/j.survophthal.2023.01.012 -
The Journal of Clinical Investigation Feb 2021Monogenic diabetes refers to diabetes mellitus (DM) caused by a mutation in a single gene and accounts for approximately 1%-5% of diabetes. Correct diagnosis is... (Review)
Review
Monogenic diabetes refers to diabetes mellitus (DM) caused by a mutation in a single gene and accounts for approximately 1%-5% of diabetes. Correct diagnosis is clinically critical for certain types of monogenic diabetes, since the appropriate treatment is determined by the etiology of the disease (e.g., oral sulfonylurea treatment of HNF1A/HNF4A-diabetes vs. insulin injections in type 1 diabetes). However, achieving a correct diagnosis requires genetic testing, and the overlapping of the clinical features of monogenic diabetes with those of type 1 and type 2 diabetes has frequently led to misdiagnosis. Improvements in sequencing technology are increasing opportunities to diagnose monogenic diabetes, but challenges remain. In this Review, we describe the types of monogenic diabetes, including common and uncommon types of maturity-onset diabetes of the young, multiple causes of neonatal DM, and syndromic diabetes such as Wolfram syndrome and lipodystrophy. We also review methods of prioritizing patients undergoing genetic testing, and highlight existing challenges facing sequence data interpretation that can be addressed by forming collaborations of expertise and by pooling cases.
Topics: Diabetes Mellitus; Genetic Diseases, Inborn; Hepatocyte Nuclear Factor 1-alpha; Hepatocyte Nuclear Factor 4; Humans; Mutation; Precision Medicine; Sulfonylurea Compounds
PubMed: 33529164
DOI: 10.1172/JCI142244 -
Cell Death & Disease Mar 2018Wolfram syndrome (WS) is a rare neurodegenerative disease, the main pathological hallmarks of which associate with diabetes, optic atrophy, and deafness. Other symptoms... (Review)
Review
Wolfram syndrome (WS) is a rare neurodegenerative disease, the main pathological hallmarks of which associate with diabetes, optic atrophy, and deafness. Other symptoms may be identified in some but not all patients. Prognosis is poor, with death occurring around 35 years of age. To date, no treatment is available. WS was first described as a mitochondriopathy. However, the localization of the protein on the endoplasmic reticulum (ER) membrane challenged this hypothesis. ER contacts mitochondria to ensure effective Ca transfer, lipids transfer, and apoptosis within stabilized and functionalized microdomains, termed "mitochondria-associated ER membranes" (MAMs). Two types of WS are characterized so far and Wolfram syndrome type 2 is due to mutation in CISD2, a protein mostly expressed in MAMs. The aim of the present review is to collect evidences showing that WS is indeed a mitochondriopathy, with established MAM dysfunction, and thus share commonalities with several neurodegenerative diseases, including Alzheimer's disease, Parkinson's disease, and amyotrophic lateral sclerosis, as well as metabolic diseases, such as diabetes.
Topics: Endoplasmic Reticulum; Endoplasmic Reticulum Stress; Humans; Intracellular Membranes; Mitochondria; Models, Biological; Wolfram Syndrome
PubMed: 29511163
DOI: 10.1038/s41419-018-0406-3 -
Endokrynologia Polska 2021Wolfram syndrome (WFS) is a neurological and endocrinological degenerative disorder, also known as DIDMOAD (Diabetes Insipidus, early-onset Diabetes Mellitus,...
INTRODUCTION
Wolfram syndrome (WFS) is a neurological and endocrinological degenerative disorder, also known as DIDMOAD (Diabetes Insipidus, early-onset Diabetes Mellitus, progressive Optic Atrophy, and Deafness) syndrome. It is an autosomal recessive disorder, mostly involving the Wolfram syndrome 1 gene (WFS1). The phenotypic pleiomorphism, rarity, and molecular complexity complicate the follow-up of these patients.
MATERIAL AND METHODS
We aimed to describe the clinical characteristics and the follow-up of 11 patients with this disorder. We retrospectively analysed all WFS patients diagnosed between 1990 and 2020 in the Centro Hospitalar São João, a tertiary hospital in Northern Portugal.
RESULTS
Eleven patients were included. Four patients had all 4 components of DIDMOAD. The presentation was diabetes mellitus (DM) in 9 patients, optic atrophy (OA) in another patient, and diabetes insipidus (DI) in another one. The median age of DM and OA diagnosis was 6 and 14 years, respectively. Nine patients had diabetes mellitus, and the other 2 patients had impaired glucose tolerance. All patients had OA. Four patients presented DI, all of them diagnosed in adolescence. Four patients had hearing impairment, 5 had urological abnormalities, 5 had neurological disorders, and 8 had psychiatry disorders. Eight patients had a broad spectrum of recessive mutations in WFS1.
CONCLUSION
The information obtained in this study can facilitate further research in an attempt to improve prevention strategies for this devastating disease.
Topics: Adolescent; Child; Diabetes Insipidus; Humans; Membrane Proteins; Optic Atrophy; Portugal; Retrospective Studies; Wolfram Syndrome
PubMed: 34010437
DOI: 10.5603/EP.a2021.0038 -
Biochimica Et Biophysica Acta.... Apr 2021CDGSH Iron Sulfur Domain 2 (CISD2) is the causative gene for the disease Wolfram syndrome 2 (WFS2; MIM 604928), which is an autosomal recessive disorder showing... (Review)
Review
CDGSH Iron Sulfur Domain 2 (CISD2) is the causative gene for the disease Wolfram syndrome 2 (WFS2; MIM 604928), which is an autosomal recessive disorder showing metabolic and neurodegenerative manifestations. CISD2 protein can be localized on the endoplasmic reticulum (ER), outer mitochondrial membrane (OMM) and mitochondria-associated membrane (MAM). CISD2 plays a crucial role in the regulation of cytosolic Ca homeostasis, ER integrity and mitochondrial function. Here we summarize the most updated publications and discuss the central role of CISD2 in maintaining cellular homeostasis. This review mainly focuses on the following topics. Firstly, that CISD2 has been recognized as a prolongevity gene and the level of CISD2 is a key determinant of lifespan and healthspan. In mice, Cisd2 deficiency shortens lifespan and accelerates aging. Conversely, a persistently high level of Cisd2 promotes longevity. Intriguingly, exercise stimulates Cisd2 gene expression and thus, the beneficial effects offered by exercise may be partly related to Cisd2 activation. Secondly, that Cisd2 is down-regulated in a variety of tissues and organs during natural aging. Three potential mechanisms that may mediate the age-dependent decrease of Cisd2, via regulating at different levels of gene expression, are discussed. Thirdly, the relationship between CISD2 and cell survival, as well as the potential mechanisms underlying the cell death control, are discussed. Finally we discuss that, in cancers, CISD2 may functions as a double-edged sword, either suppressing or promoting cancer development. This review highlights the importance of the CISD2 in aging and age-related diseases and identifies the urgent need for the translation of available genetic evidence into pharmaceutic interventions in order to alleviate age-related disorders and extend a healthy lifespan in humans.
Topics: Aging; Animals; Autophagy-Related Proteins; Calcium; Endoplasmic Reticulum; Homeostasis; Humans; Longevity; Membrane Proteins; Mice; Mitochondria; Mitochondrial Membranes; Nerve Tissue Proteins
PubMed: 33422617
DOI: 10.1016/j.bbamcr.2021.118954 -
International Journal of Environmental... Feb 2022Wolfram Syndrome (WS) is a very rare genetic disorder characterized by several symptoms that occur from childhood to adulthood. Usually, the first clinical sign is... (Review)
Review
Wolfram Syndrome (WS) is a very rare genetic disorder characterized by several symptoms that occur from childhood to adulthood. Usually, the first clinical sign is non-autoimmune diabetes even if other clinical features (optic subatrophy, neurosensorial deafness, diabetes insipidus) may be present in an early state and may be diagnosed after diabetes' onset. Prognosis is poor, and the death occurs at the median age of 39 years as a consequence of progressive respiratory impairment, secondary to brain atrophy and neurological failure. The aim of this paper is the description of the metabolic treatment of the WS. We reported the experience of long treatment in patients with this syndrome diagnosed in pediatric age and followed also in adult age. It is known that there is a correlation between metabolic control of diabetes, the onset of other associated symptoms, and the progression of the neurodegenerative alterations. Therefore, a multidisciplinary approach is necessary in order to prevent, treat and carefully monitor all the comorbidities that may occur. An extensive understanding of WS from pathophysiology to novel possible therapy is fundamental and further studies are needed to better manage this devastating disease and to guarantee to patients a better quality of life and a longer life expectancy.
Topics: Adolescent; Adult; Child; Humans; Neurodegenerative Diseases; Quality of Life; Wolfram Syndrome; Young Adult
PubMed: 35270448
DOI: 10.3390/ijerph19052755