Wolfram Syndrome 1: From Genetics to Therapy

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...

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Veröffentlicht in:	International journal of environmental research and public health 2022-03, Vol.19 (6), p.3225
Hauptverfasser:	Rigoli, Luciana, Caruso, Valerio, Salzano, Giuseppina, Lombardo, Fortunato
Format:	Artikel
Sprache:	eng
Schlagworte:	Abnormalities Apoptosis Atrophy Biosynthesis Calcium homeostasis Chromosome 4 Diabetes Diabetes insipidus Diabetes mellitus Disease Disease transmission Endoplasmic reticulum Epidemiology Etiology Female Genetics Genotype & phenotype Hearing loss Homeostasis Humans Insulin Kinases Male Medical prognosis Membrane Proteins - genetics Membrane Proteins - metabolism Mutation Neurodegenerative Diseases Neurophysiology Optic atrophy Optic Atrophy - complications Optic Atrophy - genetics Optic Atrophy - therapy Phenotypes Physiology Population Proteins Quality of Life Review Signs and symptoms Transcription factors Urinary tract Wolfram Syndrome - diagnosis Wolfram Syndrome - genetics Wolfram Syndrome - therapy
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description	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.
doi_str_mv	10.3390/ijerph19063225
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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. 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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. 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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.</abstract><cop>Switzerland</cop><pub>MDPI AG</pub><pmid>35328914</pmid><doi>10.3390/ijerph19063225</doi><oa>free_for_read</oa></addata></record>
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subjects	Abnormalities Apoptosis Atrophy Biosynthesis Calcium homeostasis Chromosome 4 Diabetes Diabetes insipidus Diabetes mellitus Disease Disease transmission Endoplasmic reticulum Epidemiology Etiology Female Genetics Genotype & phenotype Hearing loss Homeostasis Humans Insulin Kinases Male Medical prognosis Membrane Proteins - genetics Membrane Proteins - metabolism Mutation Neurodegenerative Diseases Neurophysiology Optic atrophy Optic Atrophy - complications Optic Atrophy - genetics Optic Atrophy - therapy Phenotypes Physiology Population Proteins Quality of Life Review Signs and symptoms Transcription factors Urinary tract Wolfram Syndrome - diagnosis Wolfram Syndrome - genetics Wolfram Syndrome - therapy
title	Wolfram Syndrome 1: From Genetics to Therapy
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