EGR2 gene mutations: lessons learned from 4 cases

• References

Uchoa Cavalcanti et al. (2025)[1] phenotypically and genotypically characterized four cases of a rare form of Charcot–Marie–Tooth disease (CMT) caused by mutations in the EGR2 gene. Their paper highlights several key features of this gene and its related neuropathies.

First, the heterogeneity of EGR2-associated neuropathies is an important consideration. Although initially described as an autosomal dominant (AD) condition, as seen in two of the patients, it is now recognized that autosomal recessive (AR) cases also occur and that de novo mutations have been reported; these phenomena explain many sporadic presentations.[2]

Clinical heterogeneity is also evident. Subject 2 presents with a classic CMT1D phenotype, whereas Subject 1 exhibits Dejerine-Sottas syndrome, and Subject 3 likely has congenital hypomyelinating/amyelinating neuropathy. Subject 4 merits special attention: its motor conduction velocity falls within the intermediate/axonal range, the ulnar compound muscle action potential (CMAP) amplitude is moderately to severely reduced, yet the sensory action potential remains near normal. This combination is unusual for CMT, even when considering late-onset AR axonal neuropathy linked to EGR2 mutations. Could Case 4 represent a predominantly motor intermediate/axonal EGR2 phenotype? On the other side, the distal latencies of median and ulnar CMAP nerves are extremely prolonged, suggesting a preferential involvement of the myelin localized distally, similarly to what is seen in some paraproteinemic neuropathies[3] and sometimes in the hereditary neuropathy with liability to pressure palsy (HNPP).[4] This intriguing question warrants further study.

Respiratory compromise is often neither considered nor investigated in CMT patients, although it can manifest early in the disease course.[5] Comprehensive care of CMT patients should include assessment of respiratory function. Two of the reported patients exhibited significant pulmonary dysfunction, underscoring the need for close monitoring.

These four cases clearly demonstrate the phenotypic variability associated with EGR2 mutations, even among family members carrying the same variant. Such variability is typically attributed to yet-unknown environmental and/or genetic modifiers. Recently, Frezatti et al. (2024)[6] showed that uncommon phenotypes may arise from variants in two different genes, highlighting the additive effects on the final clinical presentation. Although these observations deepen our understanding of phenotypic heterogeneity, definitive answers will only emerge from a more profound elucidation of EGR2's biological function, as emphasized by Uchoa Cavalcanti and colleagues.

Although this paper may appear straightforward at first glance, it underscores the complexity of genotype–phenotype relationships and the importance of a deeper understanding of gene function.

Conflict of Interest

There is no conflict of interest to declare.

• References

• 1 Cavalcanti EBU, Santos SCL, Couto CM. et al. The genetic and clinical spectrum of early growth response 2-related Charcot- Marie-Tooth disease in a Brazilian cohort. Arq Neuropsiquiatr 2025; 83 (04) s00451806820
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• 2 NEUROMUSCULAR HOMEPAGE. https://neuromuscular.wustl.edu/
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• 3 Gonçalves TAP, Donadel CD, Frezatti RSS. et al. Monoclonal gammopathy-associated peripheral neuropathies: Uncovering pearls and challenges. J Peripher Nerv Syst 2024; 29 (02) 161-172
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• 4 de Oliveira AP, Pereira RC, Onofre PT. et al. Clinical and neurophysiological features of the hereditary neuropathy with liability to pressure palsy due to the 17p11.2 deletion. Arq Neuropsiquiatr 2016; 74 (02) 99-105  × 20160010
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• 5 de Carvalho Alcântara M, Nogueira-Barbosa MH, Fernandes RM. et al. Respiratory dysfunction in Charcot-Marie-Tooth disease type 1A. J Neurol 2015; 262 (05) 1164-1171 Erratum in: J Neurol. 2015 May;262(5):1172. doi: 10.1007/s00415-015-7733-4
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• 6 Frezatti RSS, Tomaselli PJ, Record CJ. et al. Overcoming genetic neuromuscular diagnostic pitfalls in a middle-income country. Brain Commun 2024; 6 (06) fcae342
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Address for correspondence

Publication History

Received: 21 April 2025

Accepted: 24 April 2025

Article published online:
26 May 2025

© 2025. The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution 4.0 International License, permitting copying and reproduction so long as the original work is given appropriate credit (https://creativecommons.org/licenses/by/4.0/)

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• References

• 1 Cavalcanti EBU, Santos SCL, Couto CM. et al. The genetic and clinical spectrum of early growth response 2-related Charcot- Marie-Tooth disease in a Brazilian cohort. Arq Neuropsiquiatr 2025; 83 (04) s00451806820
  MissingFormLabel

  Thieme ConnectPubMedSearch in Google Scholar
• 2 NEUROMUSCULAR HOMEPAGE. https://neuromuscular.wustl.edu/
  MissingFormLabel
• 3 Gonçalves TAP, Donadel CD, Frezatti RSS. et al. Monoclonal gammopathy-associated peripheral neuropathies: Uncovering pearls and challenges. J Peripher Nerv Syst 2024; 29 (02) 161-172
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 4 de Oliveira AP, Pereira RC, Onofre PT. et al. Clinical and neurophysiological features of the hereditary neuropathy with liability to pressure palsy due to the 17p11.2 deletion. Arq Neuropsiquiatr 2016; 74 (02) 99-105  × 20160010
  MissingFormLabel

  CrossrefSearch in Google Scholar
• 5 de Carvalho Alcântara M, Nogueira-Barbosa MH, Fernandes RM. et al. Respiratory dysfunction in Charcot-Marie-Tooth disease type 1A. J Neurol 2015; 262 (05) 1164-1171 Erratum in: J Neurol. 2015 May;262(5):1172. doi: 10.1007/s00415-015-7733-4
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 6 Frezatti RSS, Tomaselli PJ, Record CJ. et al. Overcoming genetic neuromuscular diagnostic pitfalls in a middle-income country. Brain Commun 2024; 6 (06) fcae342
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar