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sphingolipidoses [2012/10/16 14:40] (current)
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 +======Sphingolipidoses======
 +
 +**Related Terms and Conditions:​** Sphingolipidoses, ​ Edema, [[lymphedema]],​ Enzyme replacement therapy, Lysosome, Lysosomal storage disorder, Pharmacological chaperone, Sphingolipid,​ Sphingolipidosis,​ Substrate reduction therapy, amniocentesis,​ chromosome aberration, Fabry'​s disease, Krabbe disease, Metachromatic leukodystrophy,​ Glucocerebrosides,​ Gaucher'​s disease, Metachromatic leukodystrophy,​ Glucocerebrosides,​ mucopolysaccharidosis I,  mucopolysaccharidosis II, Hunter Syndrome, mucopolysaccharidosis VI, Maroteaux-Lamy syndrome, Pompe disease, urler-Scheie,​ and Scheie syndromes, Sphingosine kinase, Sphingosine-1-phosphate,​ Immune cell, Inflammation,​ Monocytes/​macrophage,​ Neutrophil, Mast cell, Lymphocytes,​ Signalling
 +
 +Considered part of the lipid storage disease group, with symptoms appearing in childhood. ​ For the classification of the more then 50 lysomal storage diseases, please refer to this page: [[http://​emedicine.medscape.com/​article/​1182830-overview#​aw2aab6b3 |Classification of Lysosomal Storage Diseases]]
 +
 +**Clinical features.**
 +
 +(1) Complex lipids containing ceramide accumulate in cells, particularly neurons, causing neurodegeneration and shortening the life span.
 +
 +(2) The rate of synthesis of the stored lipid is normal.
 +
 +(3) The enzymatic defect is in the lysosomal degradation pathway of sphingolipids.
 +
 +**Cause**
 +
 +Genetic based - hereditary
 +
 +**Symptoms**
 +
 +There are 34 recognized “symptoms” for Sphingolipidosis. These are Psychomotor degeneration, ​ Reduced vision, Burning sensation in hands, Burning sensation in feet,  Gastrointestinal problems, ​ Fatigue, ​ Anemia, ​ Enlarged spleen, ​ Enlarged liver, ​ Seizures, ​ Easy bruising, ​ Enlarged abdomen, ​ Telangiectasia, ​ Paresthesia,​ Lymphedema, ​ Hearing problems, ​ Nausea, ​ Vomiting, ​ Diarrhea, ​ Angina, ​ Nystagmus, ​ Low blood platelets, ​ Skeletal abnormalities, ​ Bleeding problems, ​ Skin lesions, ​ Bone fractures, ​ Incoordination, ​ Spasticity, ​ Bone pain,  Reduced muscle tone,  Muscle weakness, ​ Physical malformations, ​ Mental retardation, ​ Premature death (1)
 +
 +**Diagnosis**
 +
 +A combination of physical characteristics of (coarse facies, macroglossia),​ bony abnormalities (dysostosis multiplex), cardiac involvement (arrhythmia or cardiomegaly),​ hepatosplenomegaly,​ ophthalmologic signs (corneal clouding or macular cherry-red spot) should point the clinitian towards ​ the possibility of a lysosomal storage disease.
 +
 +Neuerological ​ symptoms include: evelopmental delay, hypotonia, epilepsy (complex partial or myoclonic), peripheral neuropathy, intellectual disability, ataxia, and/or spasticity.
 +
 +A blood smear can reveal white blood cell vacuoles (granular, fingerprint lipid whorls, zebra bodies, or autophagic vacuoles). Urine can be screened for elevated excretion of oligosaccharides (oligosaccharidoses) and glycosaminoglycans (mucopolysaccharidoses). Blood chitotriosidase (an enzymatic marker of macrophage activation) may be elevated.(3)
 +
 +Definitive testing is most efficiently performed by enzymatic activity measurement in a reference laboratory,
 +
 +**Treatment**
 +
 +Currently, there is no cure for sphingolipidoses. Therapies like enzyme replacement,​ pharmacological chaperone, and substrate reduction therapy, which have been shown to be efficient in non-neuronopathic LSDs, are currently evaluated in clinical trials of neuronopathic sphingolipidoses. In the future, neural stem cell therapy and gene therapy may become an option for these disorders. (2)
 +
 +For some lipid storage diseases, enzyme replacement therapy is effective, especially for Gaucher disease types I and III,  Fabry disease, mucopolysaccharidosis I (Hurler, Hurler-Scheie,​ and Scheie syndromes), mucopolysaccharidosis II (Hunter syndrome), mucopolysaccharidosis VI (Maroteaux-Lamy syndrome), and Pompe disease.
 +
 +Some evidence indicates that at least in certain disorders, combination ERT and hematopoietic stem cell transplantation together might be superior to hematopoietic stem cell transplantation alone in patients who are appropriate candidates (3)
 +
 +Other treatment may be relevant to the co-morbities of the condition.
 +
 +For the complication of lymhphedema (swelling), the patient should receive a referral to a certified lymhpedema therapist for a complete examination and evaluation. ​ The protocol treatment is manual decongestive therapy with the wearing of compression garments to hold down the swelling.
 +
 +Research is also being done on the possibility of gene therapy.
 +
 +(1)  [[http://​www.rightdiagnosis.com/​s/​sphingolipidosis/​intro.htm|Right Diagnosis]]
 +
 +(2)  [[http://​www.pediatriconcall.com/​fordoctor/​conference_abstracts/​neurogeneticsdel/​lysosomal.asp |Principles of Treatment of Sphingolipidoses]]
 +
 +(3)  [[http://​emedicine.medscape.com/​article/​1182830-overview|eMedicine]] ​
 +
 +**Prognosis**
 +
 +Generally, the prognosis for a lysomal storage disease is based on the severity of the particular syndrome.  ​
 +
 +======Related Disorders======
 +
 +[[http://​www.ninds.nih.gov/​disorders/​niemann/​niemann.htm|Niemann–Pick disease]]
 +
 +[[Xanthomas]] (Xanthomatosis)
 +
 +[[http://​www.ncbi.nlm.nih.gov/​pubmedhealth/​PMH0001590/​|Gaucher disease]]
 +
 +[[http://​www.fabry.org/​FSIG.nsf/​Pages/​Fabry|Fabry’s disease]] see also: 
 +[[http://​www.lymphedemapeople.com/​thesite/​fabrys_disease.htm|Fabry’s Disease]]
 +
 +[[http://​www.ninds.nih.gov/​disorders/​Farbers/​farbers.htm|Farber’s disease]]
 +
 +[[http://​ghr.nlm.nih.gov/​condition/​wolman-disease |Wolman’s disease (acid lipase deficiency) GM2]]
 +
 +[[http://​www.ninds.nih.gov/​disorders/​metachromatic_leukodystrophy/​metachromatic_leukodystrophy.htm |Metachromatic leukodystrophy ]] (acid lipase deficiency) GM2
 +
 +[[http://​ghr.nlm.nih.gov/​condition/​krabbe-disease |Krabbé disease]] (acid lipase deficiency) GM2 - also known as globoid cell leukodystrophy and galactosylceramide lipidosis
 +
 +[[http://​ghr.nlm.nih.gov/​condition/​cholesteryl-ester-storage-disease |Cholesteryl ester storage disease]] (acid lipase deficiency) ​ GM2
 +
 +[[http://​www.ninds.nih.gov/​disorders/​taysachs/​taysachs.htm |Tay-Sachs disease]] ​ GM1
 +
 +[[http://​ghr.nlm.nih.gov/​condition/​sandhoff-disease |Sandhoff disease]] (variant AB) GM1
 +
 +======Abstracts and Studies======
 +
 +** Pathology and current treatment of neurodegenerative sphingolipidoses.**
 +Dec. 2010
 +
 +Eckhardt M.
 +Source
 +Institute of Biochemistry and Molecular Biology, University of Bonn, Nussallee 11, 53115 Bonn, Germany. [[eckhardt@ibmb.uni-bonn.de]]
 +
 +**Abstract**
 +
 +** Keywords:​** ​ Enzyme replacement therapy - Lysosome - Lysosomal storage disorder - Pharmacological chaperone - Sphingolipid - Sphingolipidosis - Substrate reduction therapy
 +
 +Sphingolipidoses constitute a large subgroup of lysosomal storage disorders (LSDs). Many of them are associated with a progressive neurodegeneration. As is the case for LSDs in general, most sphingolipidoses are caused by deficiencies in lysosomal hydrolases. However, accumulation of sphingolipids can also result from deficiencies in proteins involved in the transport or posttranslational modification of lysosomal enzymes, transport of lipids, or lysosomal membrane proteins required for transport of lysosomal degradation end products. The accumulation of sphingolipids in the lysosome together with secondary changes in the concentration and localization of other lipids may cause trafficking defects of membrane lipids and proteins, affect calcium homeostasis,​ induce the unfolded protein response, activate apoptotic cascades, and affect various signal transduction pathways. To what extent, however, these changes contribute to the pathogenesis of the diseases is not fully understood. Currently, there is no cure for sphingolipidoses. Therapies like enzyme replacement,​ pharmacological chaperone, and substrate reduction therapy, which have been shown to be efficient in non-neuronopathic LSDs, are currently evaluated in clinical trials of neuronopathic sphingolipidoses. In the future, neural stem cell therapy and gene therapy may become an option for these disorders.
 +
 +[[http://​www.springerlink.com/​content/​1157l6l508071852/​|Springerlink]]
 +
 +** Sphingolipid synthetic pathways are major regulators of lipid homeostasis.**
 +
 +2011
 +
 +Worgall TS.
 +
 +Source
 +
 +Department of Pathology, Columbia University, New York, New York, USA. [[tpw7@columbia.edu]]
 +
 +**Abstract**
 +
 +This chapter focuses on the role of sphingolipids in the regulation of sterol-regulatory element binding protein (SREBP) dependent lipid synthesis and ATP-binding cassette protein ABCA1 and ABCG1 mediated lipid efflux, key regulators of cellular lipid homeostasis. Sphingolipid synthesis activates SREBPs independently of whether sphingolipid synthesis occurs through recycling or de novo pathways. SREBPs are major transcription factors of lipid metabolism that regulate more than 30 genes of cholesterol,​ fatty acid and phospholipid synthetic enzymes and they required NADPH cofactors. SREBPs are downstream of sphingolipid synthesis and do not regulate activity of sphingolipid synthetic enzymes. Cells that cannot synthesize sphingolipids fail to increase SREBP in response to lipid depletion. Similar mechanisms are found in D. melanogaster in which SREBP activity depends on expression of a ceramide synthase analog. SREBP is inhibited by its end products cholesterol and unsaturated fatty acids. Ceramide decreases SREBP by inhibiting sphingolipid synthesis. Molecular mechanisms of regulation are related to the effect of sphingolipids on intracellular trafficking but are overall not clear. Several groups have investigated the effect of sphingolipids in the regulation of cholesterol efflux receptors ABCA1 and ABCG1, major regulators of plasma high-density lipoprotein (HDL) concentration,​ an important anti-atherogenic lipoprotein. Data indicate an inverse relationship between sphingolipid de novo synthesis and cholesterol efflux. Inhibition of sphingolipid de-novo synthesis increases ABCA1 mediated cholesterol efflux independent of sphingomyelin. Potential mechanisms include the physical interaction of subunit 1 of serine-palmitoyl transferase (SPT), the rate limiting enzyme of de-novo sphingolipid synthesis, with ABCA1. ABCG1 mediated efflux, in contrast, is dependent on sphingomyelin mass. Animal studies support the findings made in cultured cells. Inhibition of sphingolipid de novo synthesis increases anti-atherogenic lipoproteins and decreases atherosclerosis in mouse models. Together, manipulation of sphingolipid synthetic pathways is a potentially promising therapeutic target for treatment of low-HDL dyslipidemia and atherosclerosis.
 +
 +[[http://​www.springerlink.com/​content/​k8lngn7w33m7u27g/​|Springerlink]]
 +
 +** Blood sphingolipids in homeostasis and pathobiology.**
 +
 +2011
 +
 +Hammad SM.
 +
 +Source
 +
 +Department of Regenerative Medicine and Cell Biology, Medical University of South Carolina, Charleston, South Carolina, USA. [[hammadsm@musc.edu]]
 +
 +**Abstract**
 +Sphingolipids have emerged as key signaling molecules involved in the regulation of a variety of cellular functions including cell growth and differentiation,​ proliferation and apoptotic cell death. Sphingolipids in blood constitute part of the circulating lipoprotein particles (HDL, LDL and VLDL), carried by serum albumin and also present in blood cells and platelets. Recent lipidomic and proteomic studies of plasma lipoproteins have provided intriguing data concerning the protein and lipid composition of lipoproteins in the context of disease. Sphingolipids have been implicated in several diseases such as cancer, obesity, atherosclerosis and sphingolipidoses;​ however, efforts addressing blood sphingolipidomics are still limited. The development of methods to determine levels of circulating bioactive sphingolipids in humans and validation of these methods to be a routine clinical laboratory test could be a pioneering approach to diagnose disease in the population. This approach would probably evolve to be analogous in implication to determining "​good"​ and "​bad"​ cholesterol and triglyceride levels in lipoprotein classes.
 +
 +[[http://​www.springerlink.com/​content/​w6063737983252kn/​|Springerlink]]
 +
 +======External Links======
 +
 +[[http://​www.orpha.net/​consor/​cgi-bin/​OC_Exp.php?​lng=en&​Expert=79225|Orphanet]]
 +
 +[[http://​jb.oxfordjournals.org/​content/​150/​6/​597.abstract|Kunihiko Suzuki ​
 +and sphingolipidoses.]] Dec. 2011
 +
 +[[http://​archneur.ama-assn.org/​cgi/​reprint/​55/​8/​1055.pdf |Therapy for the 
 +Sphingolipidoses]]
 +
 +[[http://​www.ncbi.nlm.nih.gov/​pubmed/​21961367|Prenatal diagnosis by amniocentesis. Clinical and cytogenetic experience in 1,500 cases]] Sept 2010
 +
 +[[http://​www.sciencedirect.com/​science/​article/​pii/​S1570963907001781 |Sphingosine kinase signalling in immune cells: potential as novel therapeutic targets.]] Jan 2008
 +
 +
 +[[http://​www.sciencedirect.com/​science/​article/​pii/​S1028455909601881|Detection of chromosome aberrations in the second trimester using genetic amniocentesis:​ experience during 1995-2004.]] ​ Mar 2006
 +
 +[[http://​www.meddean.luc.edu/​lumen/​MedEd/​USMLE/​lipid%20storage%20table.pdf|Lysosomal Storage Diseases/​Sphingolipidoses]]
 +
 +[[http://​www.ncbi.nlm.nih.gov/​pubmed/​9763522 |Sphingolipids in atherosclerosis and vascular biology.]] 1998
 +
 +======Organizations ======
 +
 +**National Organization for RareDisorders (NORD)**
 +P.O. Box 1968
 +(55 Kenosia Avenue)
 +Danbury, CT   ​06813-1968
 +
 +[[orphan@rarediseases.org]]
 +
 +[[http://​www.rarediseases.org|Rare Disorders]]
 +
 +Tel: 203-744-0100 Voice Mail 800-999-NORD (6673)
 +Fax: 203-798-2291
 +
 +**BRAIN**
 +P.O. Box 5801
 +Bethesda, MD 20824
 +
 +(800) 352-9424
 +
 +[[http://​www.ninds.nih.gov|BRAIN]]
 +
 +Fabry Support & Information Group
 +108 NE 2nd Street, Ste. C
 +P.O. Box 510
 +Concordia, MO   ​64020-0510
 +
 +Tel: 660-463-1355
 +Fax: 660-463-1356
 +
 +[[info@fabry.org]]
 +
 +[[ http://​www.fabry.org|Fabry Sup & Info Grp]]
 +
 +**Children'​s Gaucher Research Fund**
 +.P.O.. Box 2123
 +Granite Bay, CA   ​95746-2123
 +
 +Tel: 916-797-3700
 +Fax: 916-797-3707
 +
 +[[research@childrensgaucher.org]]
 +
 +[[http://​www.childrensgaucher.org|Childrens Gaucher Research Fund]]
 +
 +**National Gaucher Foundation**
 +2227 Idlewood Road, Suite 12
 +Tucker, GA   30084
 +
 +Tel: 800-504-3189
 +Fax: 770-934-2911
 +
 +[[ngf@gaucherdisease.org]]
 +
 +[[http://​www.gaucherdisease.org|Nat Gaucher Fndn]]
 +
 +**National Niemann-Pick Disease Foundation, Inc.**
 +P.O. Box 49
 +Ft. Atkinson, WI   53538
 +
 +Tel: 920-563-0930 877-CURE-NPC (287-3672)
 +Fax: 920-563-0931
 +
 +[[nnpdf@idcnet.com]]
 +
 +[[http://​www.nnpdf.org|Nat Nieman-Pick Disease Fdn]]
 +
 +**National Tay-Sachs and Allied Diseases Association**
 +2001 Beacon Street
 +Suite 204
 +Boston, MA   02135
 +
 +Tel: 800-90-NTSAD (906-8723)
 +Fax: 617-277-0134
 +
 +[[info@ntsad.org]]
 +
 +[[http://​www.ntsad.org|Tay-Sachs Allied Disease Assoc]]
 +
 +**March of Dimes**
 +1275 Mamaroneck Avenue
 +White Plains, NY   10605
 +
 +Tel: 914-997-4488 888-MODIMES (663-4637)
 +Fax: 914-428-8203
 +
 +[[askus@marchofdimes.com]]
 +
 +[[http://​www.marchofdimes.com|March of Dimes]]
 +
 +**Hide and Seek Foundation for Lysosomal Storage Disease Research**
 +6475 East Pacific Coast Highway
 +Suite 466
 +Long Beach, CA   90803
 +
 +Tel: 877-621-1122
 +Fax: 818-762-2502
 +
 +[[info@hideandseek.org]]
 +
 +[[http://​www.hideandseek.org|Hide and Seek]]
 +
 +National Fabry Disease Foundation
 +4301 Connecticut Avenue, NW
 +Suite 404
 +Washington, DC   ​20008-2369
 +
 +Tel: 800-651-9131
 +Fax: 800-651-9135
 +
 +[[info@TheNFDF.org]]
 +
 +[[http://​www.thenfdf.org|National Fabry Fdn]]
 +Tel: 800-651-9131
 +Fax: 800-651-9135
 +
 +** Ara Parseghian Medical Research Foundation[For Niemann-Pick Type C Disease]**
 +3530 East Campo Abierto
 +Suite 105
 +Tucson, AZ   ​85718-3327
 +
 +Tel: 520-577-5106
 +Fax: 520-577-5212
 +
 +[[victory@parseghian.org]]
 +
 +[[http://​www.parseghian.org|Parseghian Research Fdn]]
 +
 +======Classifications======
 +
 +[[https://​www.cms.gov/​ICD10/​|ICD-10]] ​ E75.3, E75.1, E75.2
 +
 +ICD-9                            [[http://​www.icd9data.com/​2012/​Volume1/​240-279/​270-279/​272/​272.7.htm|272.7]]
 +
 +DiseaseDB ​                   [[ http://​www.diseasesdatabase.com/​ddb33438.htm|33438]]
 +
 +MeSH                           ​[[http://​www.nlm.nih.gov/​cgi/​mesh/​2011/​MB_cgi?​field=uid&​term=D013106|D013106]]
 +
 +Orpha Numer                [[http://​www.orpha.net/​consor/​cgi-bin/​OC_Exp.php?​lng=en&​Expert=79225|ORPHA79225]]
 +
 +======Lymphedema People Internal Links======
 +
 +[[Lymphedema in Children]]
 +
 +[[Lymphedema]]
 +
 +[[Treatment]]
 +
 +[[Manual Lymphatic Drainage MLD Complex Decongestive Therapy CDT]]
 +
 +[[Lymphedema and Pain Management]]
 +
 +[[Pathophysiology of Lymphedema]]
 +
 +[[Lymphedema Advocacy]]
 +
 +[[Lymph Nodes]]
 +
 +[[Arm Lymphedema]]
 +
 +[[Leg Lymphedema]]
 +
 +[[How to Diagnose Lymphedema]]
 +
 +[[Lymphedema and Pain Management]]
 +
 +[[Short Stretch Bandages for Lymphedema]]
 +
 +[[Compression Bandages for Lymphedema]]
 +
 +[[Turner Syndrome]]
 +
 +[[Noonan'​s Syndrome]]
 +
 +[[Yellow Nail Syndrome]]
 +
 +[[Klippel Trenaunay Weber Syndrome]]
 +
 +======Lymphedema People Resources======
 +
 +[[Lymphedema People Blogs]]
 +
 +[[Lymphedema People Forums]]
 +
 +[[Lymphedema People Glossaries]]
 +
 +[[Lymphedema People Online Support Groups]]
 +
 +[[Privacy Statement]]
 +
 +[[Terms of Use]]
 +
 +[[Rules of Conduct]]
 +
 +Contact:
 +
 +[[lymphedemapeople@aol.com]]
 +
 +[[lymphedemapeople@yahoo.com]]
  
sphingolipidoses.txt · Last modified: 2012/10/16 14:40 (external edit)