# Clinical features and advances in the genetics of periodic paralysis

**Authors:** Man Luo, Beibei Liu, Junjie Xu, Danyang Meng

PMC · DOI: 10.7717/peerj.20840 · 2026-03-03

## TL;DR

Periodic paralysis is a genetic muscle disorder caused by ion channel mutations, and this review discusses its clinical features, genetic causes, and treatment implications.

## Contribution

The paper reviews the current understanding of periodic paralysis, emphasizing the role of ion channel mutations and their clinical implications.

## Key findings

- CACNA1S and SCN4A are the main genes associated with periodic paralysis, with specific mutation sites identified.
- Different mutations lead to distinct pathogenesis and clinical features, affecting treatment and prognosis.
- New ion channel mutations are being discovered, expanding the genetic basis of the disease.

## Abstract

Periodic paralysis (PP) is a group of ion channel diseases with incomplete autosomal dominant inheritance, except in sporadic patients. Ion channel gene mutations cause transient abnormalities in skeletal muscle excitability and muscle weakness. Different mutation sites cause different pathogenesis, which is very important for the classification, clinical manifestations, treatment and prognosis of periodic paralysis. Currently, the recognized mutated genes are CACNA1S (chromosome 1q31-32), SCN4A (chromosome 17q23-25), KCNJ2 (chromosome 17q23), and KCNJ18 (chromosome 17p11.2). The common mutation sites include R528H and R1239H in CACNA1S, and R672H and T704M in SCN4A. However, there is accumulating evidence that other mutation sites in CACNA1S and SCN4A, and even new ion channel mutations may induce periodic paralysis. Their different pathogenesis, clinical features and therapeutic measures have been widely described. This review will introduce the clinical manifestations of periodic paralysis, the different mutation sites of each ion channel, and the pathogenesis. Based on the clinical types of periodic paralysis, the characteristics of the latter are further discussed.

## Linked entities

- **Genes:** CACNA1S (calcium voltage-gated channel subunit alpha1 S) [NCBI Gene 779], SCN4A (sodium voltage-gated channel alpha subunit 4) [NCBI Gene 6329], KCNJ2 (potassium inwardly rectifying channel subfamily J member 2) [NCBI Gene 3759], KCNJ18 (potassium inwardly rectifying channel subfamily J member 18) [NCBI Gene 100134444]
- **Diseases:** periodic paralysis (MONDO:0016122)

## Full-text entities

- **Genes:** INS (insulin) [NCBI Gene 3630] {aka IDDM, IDDM1, IDDM2, ILPR, IRDN, MODY10}, KCNJ4 (potassium inwardly rectifying channel subfamily J member 4) [NCBI Gene 3761] {aka HIR, HIRK2, HRK1, IRK-3, IRK3, Kir2.3}, KCNJ2 (potassium inwardly rectifying channel subfamily J member 2) [NCBI Gene 3759] {aka ATFB9, HHBIRK1, HHIRK1, IRK1, KIR2.1, LQT7}, KCNJ3 (potassium inwardly rectifying channel subfamily J member 3) [NCBI Gene 3760] {aka GIRK1, KGA, KIR3.1}, ATP1A2 (ATPase Na+/K+ transporting subunit alpha 2) [NCBI Gene 477] {aka DEE98, FARIMPD, FHM2, MHP2}, CACNA1S (calcium voltage-gated channel subunit alpha1 S) [NCBI Gene 779] {aka CACNL1A3, CCHL1A3, CMYO18, CMYP18, Cav1.1, DHPRM}, ADRB2 (adrenoceptor beta 2) [NCBI Gene 154] {aka ADRB2R, ADRBR, ARB2, B2AR, BAR, BETA2AR}, KCNJ18 (potassium inwardly rectifying channel subfamily J member 18) [NCBI Gene 100134444] {aka KIR2.6, TTPP2}, RYR1 (ryanodine receptor 1) [NCBI Gene 6261] {aka CCO, CMYO1A, CMYO1B, CMYP1A, CMYP1B, KDS}, KCNJ5 (potassium inwardly rectifying channel subfamily J member 5) [NCBI Gene 3762] {aka CIR, GIRK4, KATP1, KIR3.4, LQT13}, KCNN4 (potassium calcium-activated channel subfamily N member 4) [NCBI Gene 3783] {aka DHS2, IK, IK1, IKCA1, KCA4, KCa3.1}, SCN4A (sodium voltage-gated channel alpha subunit 4) [NCBI Gene 6329] {aka CMS16, CMYO22A, CMYP22A, HOKPP2, HYKPP, HYPP}
- **Diseases:** ATS2 (MESH:C536587), ATS (MESH:D050030), Weakness (MESH:D018908), syndactyly (MESH:D013576), renal tubular acidosis (MESH:D000141), micrognathia (MESH:D008844), ATS1 (OMIM:301050), channelopathy (MESH:D053447), flaccid weakness (MESH:D009123), ion channel diseases (MESH:D004194), thyrotoxic (MESH:D013958), hallucinations (MESH:D006212), defects in executive and abstract reasoning (MESH:D000013), congenital myotonia (MESH:D009224), hyperkalemia (MESH:D006947), myotonia (MESH:D009222), developmental abnormalities (MESH:D006130), PMC (MESH:D020967), autosomal dominant disorder (MESH:D030342), seizure (MESH:D012640), respiratory distress (MESH:D012128), long QT (MESH:D008133), PP (MESH:D010245), ventricular tachycardia (MESH:D017180), muscle paralysis (MESH:D012133), Familial HyperPP (MESH:D020513), abnormalities in skeletal muscle excitability (MESH:D009139), skeletal deformities (MESH:D009140), renal and metabolic diseases (MESH:D007674), VSD-IV (MESH:D006011), episodic weakness (MESH:C564565), cardiac arrhythmias (MESH:D001145), myopathy (MESH:D009135), HypoPP-1 (MESH:D020514), paralysis (MESH:D010243), fatigue (MESH:D005221), hypokalemia (MESH:D007008), hyperthyroidism (MESH:D006980), Thyrotoxic periodic paralysis (OMIM:188580), thyrotoxicosis (MESH:C566386)
- **Chemicals:** Mexiletine (MESH:D008801), acetazolamide (MESH:D000086), carbohydrate (MESH:D002241), epinephrine (MESH:D004837), ATP-dependent K+ channels (-), K+ (MESH:D011188), Na (MESH:D012964), alcohol (MESH:D000438), Glucose (MESH:D005947), calcium (MESH:D002118), dihydropyridine (MESH:C038806), L (MESH:D007930)
- **Species:** Homo sapiens (human, species) [taxon 9606]
- **Mutations:** T354M, R205H, T192A, Asp708Asn, L689I, A200P, E388K, R672S, A1156T, I693T, Arg2241X, R675Q, V876E, A204E, P1158S, M1370V, R900G, Arg2939Lys, T704M, M1360V, L1433R, R218Q, R67W, R1239H/G, R339X, R528H/G, V781I, R1086C, S906T, M1592V, R669H, R528H, R218W, p.R1451L, H916Q, K360T, M1493I, R1448C, I692M, R675G/E, F671S, R1448H, Q126X, R222W, K366R, F1490L, arginine to histidine, R897S, Q407X, I1495F, R672H, R1135H, D252N, R1132Q

## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12965173/full.md

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Source: https://tomesphere.com/paper/PMC12965173