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Decreased size of nerve terminals

MedGen UID:
871144
Concept ID:
C4025615
Anatomical Abnormality
HPO: HP:0003443

Definition

A reduction in the size of nerve terminals. [from HPO]

Term Hierarchy

CClinical test,  RResearch test,  OOMIM,  GGeneReviews,  VClinVar  
  • CROGVDecreased size of nerve terminals

Conditions with this feature

Congenital myasthenic syndrome 4C
MedGen UID:
373251
Concept ID:
C1837091
Disease or Syndrome
Congenital myasthenic syndrome associated with AChR deficiency is a disorder of the postsynaptic neuromuscular junction (NMJ) clinically characterized by early-onset muscle weakness with variable severity. Electrophysiologic studies show low amplitude of the miniature endplate potential (MEPP) and current (MEPC) resulting from deficiency of AChR at the endplate. Patients with mutations in the CHRNE gene may have compensatory increased expression of the fetal subunit CHRNG (100730) and may respond to treatment with cholinergic agents, pyridostigmine, or amifampridine (summary by Engel et al., 2015). For a discussion of genetic heterogeneity of CMS, see CMS1A (601462).
Congenital myasthenic syndrome 5
MedGen UID:
400481
Concept ID:
C1864233
Disease or Syndrome
Congenital myasthenic syndromes (CMS) are a group of inherited disorders affecting the neuromuscular junction. Patients present clinically with onset of variable muscle weakness between infancy and adulthood. These disorders have been classified according to the location of the defect: presynaptic, synaptic, and postsynaptic. Endplate acetylcholinesterase deficiency is an autosomal recessive congenital myasthenic syndrome characterized by a defect within the synapse at the neuromuscular junction (NMJ). Mutations in COLQ result in a deficiency of acetylcholinesterase (AChE), which causes prolonged synaptic currents and action potentials due to extended residence of acetylcholine in the synaptic space. Treatment with ephedrine may be beneficial; AChE inhibitors and amifampridine should be avoided (summary by Engel et al., 2015). For a discussion of genetic heterogeneity of CMS, see CMS1A (601462).
Congenital myasthenic syndrome 1A
MedGen UID:
419336
Concept ID:
C2931107
Disease or Syndrome
Congenital myasthenic syndromes (CMS) are a group of inherited disorders affecting the neuromuscular junction (NMJ). Patients present clinically with onset of variable muscle weakness between infancy and adulthood. These disorders have been classified according to the location of the defect: presynaptic, synaptic, and postsynaptic, as well as by pathologic mechanism and electrophysiologic studies (i.e., acetylcholine receptor (AChR) deficiency, slow-channel or fast-channel kinetic defects at the AChR) (summary by Engel et al., 2003; Engel et al., 2015). Approximately 10% of CMS cases are presynaptic, 15% are synaptic, and 75% are postsynaptic, the majority of which are caused by AChR deficiency (Engel et al., 2003). Slow-channel congenital myasthenic syndrome (SCCMS) is a disorder of the postsynaptic NMJ characterized by early-onset progressive muscle weakness. The disorder results from kinetic abnormalities of the AChR channel, specifically prolonged opening and activity of the channel, which causes prolonged synaptic currents resulting in a depolarization block. This is associated with calcium overload, which may contribute to subsequent degeneration of the endplate and postsynaptic membrane. Treatment with quinine, quinidine, or fluoxetine may be helpful; acetylcholinesterase inhibitors and amifampridine should be avoided (summary by Engel et al., 2015). Genetic Heterogeneity of Congenital Myasthenic Syndromes Recessive mutations in subunits of the acetylcholine receptor are the most common cause of CMS (Harper, 2004). CMS1A and CMS1B (608930) are caused by mutation in the CHRNA1 gene (100690); CMS2A (616313) and CMS2C (616314) are caused by mutation in the CHRNB1 gene (100710) on 17p12; CMS3A (616321), CMS3B (616322), and CMS3C (616323) are caused by mutation in the CHRND gene (100720) on 2q33; and CMS4A (605809), CMS4B (616324), and CMS4C (608931) are caused by mutation in the CHRNE gene (100725) on 17p13. CMS5 (603034) is caused by mutation in the COLQ gene (603033) on 3p25; CMS6 (254210) is caused by mutation in the CHAT gene (118490) on 10q; CMS7 (616040) is caused by mutation in the SYT2 gene (600104) on 1q32; CMS8 (615120) is caused by mutation in the AGRN gene (103320) on 1p; CMS9 (616325) is caused by mutation in the MUSK gene (601296) on 9q31; CMS10 (254300) is caused by mutation in the DOK7 gene (610285) on 4p; CMS11 (616326) is caused by mutation in the RAPSN gene (601592) on 11p11; CMS12 (610542) is caused by mutation in the GFPT1 gene (138292) on 2p14; CMS13 (614750) is caused by mutation in the DPAGT1 gene (191350) on 11q23; CMS14 (616228) is caused by mutation in the ALG2 gene (607905) on 9q22; CMS15 (616227) is caused by mutation in the ALG14 gene (612866) on 1p21; CMS16 (614198) is caused by mutation in the SCN4A gene (603967) on 17q; CMS17 (616304) is caused by mutation in the LRP4 gene (604270) on 11p12; CMS18 (616330) is caused by mutation in the SNAP25 gene (600322) on 20p11; CMS19 (616720) is caused by mutation in the COL13A1 gene (120350) on 10q22; CMS20 (617143) is caused by mutation in the SLC5A7 gene (608761) on 2q12; CMS21 (617239) is caused by mutation in the SLC18A3 gene (600336) on 10q11; CMS22 (616224) is caused by mutation in the PREPL gene (609557) on 2p21; CMS23 (618197) is caused by mutation in the SLC25A1 gene (190315) on 22q11; CMS24 (618198) is caused by mutation in the MYO9A gene (604875) on 15q22; and CMS25 (618323) is caused by mutation in the VAMP1 gene (185880) on 12p13.

Recent clinical studies

Etiology

Pastukhov A, Paliienko K, Pozdnyakova N, Krisanova N, Dudarenko M, Kalynovska L, Tarasenko A, Gnatyuk O, Dovbeshko G, Borisova T
Sci Rep 2023 Oct 18;13(1):17771. doi: 10.1038/s41598-023-44972-0. PMID: 37853141Free PMC Article
Haskins W, Benitez S, Mercado JM, Acosta CG
Mol Cell Neurosci 2017 Sep;83:13-26. Epub 2017 Jul 1 doi: 10.1016/j.mcn.2017.06.010. PMID: 28676376
Billeh YN, Rodriguez AV, Bellesi M, Bernard A, de Vivo L, Funk CM, Harris J, Honjoh S, Mihalas S, Ng L, Koch C, Cirelli C, Tononi G
eNeuro 2016 Mar-Apr;3(2) Epub 2016 Jun 20 doi: 10.1523/ENEURO.0053-16.2016. PMID: 27351022Free PMC Article
Naguib M, Brewer L, LaPierre C, Kopman AF, Johnson KB
Anesth Analg 2016 Jul;123(1):82-92. doi: 10.1213/ANE.0000000000001347. PMID: 27140684
Na HS, Hwang JW, Park SH, Oh AY, Park HP, Jeon YT, Do SH
Acta Anaesthesiol Scand 2012 May;56(5):558-64. Epub 2012 Feb 7 doi: 10.1111/j.1399-6576.2012.02648.x. PMID: 22313514

Diagnosis

Naguib M, Brewer L, LaPierre C, Kopman AF, Johnson KB
Anesth Analg 2016 Jul;123(1):82-92. doi: 10.1213/ANE.0000000000001347. PMID: 27140684
Lin MY, Rohan JG, Cai H, Reim K, Ko CP, Chow RH
J Physiol 2013 May 15;591(10):2463-73. Epub 2013 Feb 11 doi: 10.1113/jphysiol.2012.244517. PMID: 23401610Free PMC Article
Berg KT, Hunter DG, Bothun ED, Antunes-Foschini R, McLoon LK
Arch Ophthalmol 2012 Mar;130(3):343-9. doi: 10.1001/archophthalmol.2011.381. PMID: 22411664Free PMC Article
Lee LY, Shuei Lin Y, Gu Q, Chung E, Ho CY
Anat Rec A Discov Mol Cell Evol Biol 2003 Jan;270(1):17-24. doi: 10.1002/ar.a.10005. PMID: 12494486
Krarup C
Acta Neurol Scand 1983 Nov;68(5):269-315. doi: 10.1111/j.1600-0404.1983.tb04838.x. PMID: 6320576

Therapy

Marusic U, Narici M, Simunic B, Pisot R, Ritzmann R
J Appl Physiol (1985) 2021 Jul 1;131(1):194-206. Epub 2021 Mar 11 doi: 10.1152/japplphysiol.00363.2020. PMID: 33703945Free PMC Article
Silva A, Hodgson WC, Isbister GK
Toxins (Basel) 2017 Apr 19;9(4) doi: 10.3390/toxins9040143. PMID: 28422078Free PMC Article
Naguib M, Brewer L, LaPierre C, Kopman AF, Johnson KB
Anesth Analg 2016 Jul;123(1):82-92. doi: 10.1213/ANE.0000000000001347. PMID: 27140684
Mantilla CB, Sieck GC
Respir Physiol Neurobiol 2009 Nov 30;169(2):133-40. Epub 2009 Sep 8 doi: 10.1016/j.resp.2009.09.002. PMID: 19744580Free PMC Article
Gershon MD, Liu MT
Neurogastroenterol Motil 2007 Aug;19 Suppl 2(Suppl 2):19-24. doi: 10.1111/j.1365-2982.2007.00962.x. PMID: 17620084Free PMC Article

Prognosis

Naguib M, Brewer L, LaPierre C, Kopman AF, Johnson KB
Anesth Analg 2016 Jul;123(1):82-92. doi: 10.1213/ANE.0000000000001347. PMID: 27140684
Aldunate R, Minniti AN, Rebolledo D, Inestrosa NC
Biometals 2012 Aug;25(4):815-24. Epub 2012 May 10 doi: 10.1007/s10534-012-9553-7. PMID: 22573194
Chiappelli F, Alwan J, Prolo P, Christensen R, Fiala M, Cajulis OS, Bernard G
Front Biosci 2005 Sep 1;10:3034-41. doi: 10.2741/1760. PMID: 15970558
Gramsbergen A, IJkema-Paassen J, Nikkels PG, Hadders-Algra M
Early Hum Dev 1997 Jul 24;49(1):49-61. doi: 10.1016/s0378-3782(97)01876-8. PMID: 9179538
Hamjian JA, Walker FO
Muscle Nerve 1994 Dec;17(12):1385-92. doi: 10.1002/mus.880171207. PMID: 7969239

Clinical prediction guides

Krivova YS, Proshchina AE, Otlyga DA, Leonova OG, Saveliev SV
Ann Anat 2022 Feb;240:151880. Epub 2021 Dec 9 doi: 10.1016/j.aanat.2021.151880. PMID: 34896557
Wright A, Hall A, Daly T, Fontelonga T, Potter S, Schafer C, Lindsley A, Hung C, Bodamer O, Gussoni E
FASEB J 2021 Nov;35(11):e21955. doi: 10.1096/fj.202100823R. PMID: 34613626Free PMC Article
Gao F, Zhou J, He C, Ding J, Lou Z, Xie Q, Li H, Li F, Li G
Arthroscopy 2016 Feb;32(2):273-80. Epub 2015 Oct 1 doi: 10.1016/j.arthro.2015.07.010. PMID: 26422704
Kriebel ME, Keller B, Silver RB, Pappas GD
Cell Biochem Biophys 2004;41(2):259-64. doi: 10.1385/cbb:41:2:259. PMID: 15475612
Van der Kloot W
Prog Neurobiol 1991;36(2):93-130. doi: 10.1016/0301-0082(91)90019-w. PMID: 1847748

Recent systematic reviews

Marusic U, Narici M, Simunic B, Pisot R, Ritzmann R
J Appl Physiol (1985) 2021 Jul 1;131(1):194-206. Epub 2021 Mar 11 doi: 10.1152/japplphysiol.00363.2020. PMID: 33703945Free PMC Article

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