Congenital myasthenic syndrome–associated agrin variants affect clustering of acetylcholine receptors in a domain-specific manner
Bisei Ohkawara, XinMing Shen, Duygu Selcen, Mohammad Nazim, Vera Bril, Mark A. Tarnopolsky, Lauren Brady, Sae Fukami, Anthony A. Amato, Uluc Yis, Kinji Ohno, Andrew G. Engel
Bisei Ohkawara, XinMing Shen, Duygu Selcen, Mohammad Nazim, Vera Bril, Mark A. Tarnopolsky, Lauren Brady, Sae Fukami, Anthony A. Amato, Uluc Yis, Kinji Ohno, Andrew G. Engel
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Research Article Genetics

Congenital myasthenic syndrome–associated agrin variants affect clustering of acetylcholine receptors in a domain-specific manner

Abstract

Congenital myasthenic syndromes (CMS) are caused by mutations in molecules expressed at the neuromuscular junction. We report clinical, structural, ultrastructural, and electrophysiologic features of 4 CMS patients with 6 heteroallelic variants in AGRN, encoding agrin. One was a 7.9-kb deletion involving the N-terminal laminin–binding domain. Another, c.4744G>A — at the last nucleotide of exon 26 — caused skipping of exon 26. Four missense mutations (p.S1180L, p.R1509W, p.G1675S, and p.Y1877D) expressed in conditioned media decreased AChR clusters in C2C12 myotubes. The agrin-enhanced phosphorylation of MuSK was markedly attenuated by p.Y1877D in the LG3 domain and moderately attenuated by p.R1509W in the LG1 domain but not by the other 2 mutations. The p.S1180L mutation in the SEA domain facilitated degradation of secreted agrin. The p.G1675S mutation in the LG2 domain attenuated anchoring of agrin to the sarcolemma by compromising its binding to heparin. Anchoring of agrin with p.R1509W in the LG1 domain was similarly attenuated. Mutations of agrin affect AChR clustering by enhancing agrin degradation or by suppressing MuSK phosphorylation and/or by compromising anchoring of agrin to the sarcolemma of the neuromuscular junction.

Authors

Bisei Ohkawara, XinMing Shen, Duygu Selcen, Mohammad Nazim, Vera Bril, Mark A. Tarnopolsky, Lauren Brady, Sae Fukami, Anthony A. Amato, Uluc Yis, Kinji Ohno, Andrew G. Engel

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Figure 2

Schematic of agrin domains and mutations in CMS.

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Schematic of agrin domains and mutations in CMS. (A) Genomic structure o...
(A) Genomic structure of the 5′ end of the human AGRN gene with g.950,567_958,457del identified in Pt. 1 are drawn to scale. Transcriptional and translational start sites are indicated. Genomic coordinates are according to GRCh37/hg19. Note that the deletion spans the AGRN promoter region, the transcriptional/translational start sites, and exons 1 and 2, where the secretion signal and the N-terminal agrin domain (NtA) are encoded. (B) Domains according to O00468 (UniProtKB) are drawn to scale. Mutations identified in the current study (red dots) and previous reports (blue dots) according to NM_198576.4 (RefSeq) are indicated to scale. SS, secretion signal peptide; FS, follistatin-like domain; LE, laminin EGF–like domain; S/T, serine/threonine-rich domain; SEA, a sperm protein, enterokinase, and agrin domain; EG, EGF-like domain; and LG, laminin G–like domain. A/y and B/z stand for alternative exons that are included in neuronal isoform (NM_001305275.2). Horizontal bars indicate positions where the indicated binding partners bind. (C) Long and short forms of agrin fragments used in the current studies are shown at the bottom. p.S1180L was introduced into the long form, whereas p.R1509W, p.G1675S, and p.Y1877D were introduced into the short form.