GTS5:Ataxia-telangiectasia syndrome (ATM)
Genetic Tumour Syndromes (Who Classification, 5th ed.)
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Primary Author(s)*
Emilie Lalonde, MSc, PhD, FACMG
WHO Classification of Disease
| Structure | Disease |
|---|---|
| Book | Genetic Tumour Syndromes (5th ed.) |
| Category | DNA repair and genomic stability |
| Family | Non-homologous end joining (NHEJ) |
| Type | Ataxia-telangiectasia syndrome (ATM) |
| Subtype(s) | N/A |
Related Terminology
| Acceptable | N/A |
| Not Recommended | N/A |
Other: Boder-Sedgwick syndrome
Definition/Description of Disease
- The ATM gene is located on 11q22.3 and contains 66 exons. It encodes the ATM protein, an important kinase which is a key regulator of DNA damage repair and cell cycle control pathways, among others[1][2]. ATM is recruited to double strand breaks, and upon activation, phosphorylates other signaling proteins involved in DNA repair, cell cycle checkpoints and apoptosis. ATM is a tumor suppressor and pathogenic variants result in reduced DNA damage response[2].
- Heterozygous pathogenic germline variants are associated with autosomal dominant ATM-related cancer predisposition, which increases susceptibility to a range of hereditary cancers, most notably breast, prostate and pancreatic cancers[3][4]. ATM is considered a moderate penetrance cancer predisposition gene, with a 2-3 fold increase in breast cancer risk compared to the general population with an absolute risk of 21-24%[3][4]. ATM has also been associated with predisposition to ovarian cancer, colorectal cancer and melanoma, but additional confirmatory studies are needed.
- Biallelic pathogenic germline variants are associated with autosomal recessive ataxia telangiectasia (AT), a rare multisystem neurodegenerative disorder[2]. Individuals with AT are at significantly increased risk of lymphoid malignancies in childhood or early adulthood as well as early-onset breast cancer[3]. Individuals with AT have significant radiosensitivity and should not be treated with radiation therapy.
(Instructions: Include a brief general clinical description, diagnostic criteria, and differential diagnosis if applicable. Include disease context relative to other WHO classification categories, i.e. describe any information relevant to the genetic aspects of the disease from all WHO classification books in which the syndrome is described.)
Epidemiology/Prevalence
- The incidence of heterozygous pathogenic germline variants is estimated to range from approximately 1:100 to 1:400, depending on the population[3].
Genetic Abnormalities: Germline
Variant nomenclature is based on the NM_000051.4 transcript. (Instructions: Describe germline alteration(s) that cause the syndrome. In the notes, include additional details about most common mutations including founder mutations, mechanisms of molecular pathogenesis, alteration-specific prognosis and any other important genetics-related information. If multiple causes of the syndrome, include relative prevalence of genetic contributions to that syndrome. Please include references throughout the table. Do not delete the table.)
| Gene | Genetic Variant or Variant Type | Molecular Pathogenesis | Inheritance, Penetrance, Expressivity | Notes |
|---|---|---|---|---|
| ATM | SNVs (frameshift, nonsense, missense, splice site, synonymous, splice); CNVs (inactivating deletions or duplications) | Multiple variant types leading to loss of function | Autosomal dominant, moderate penetrance for carriers.
Autosomal recessive, Fanconi anemia (FA) subtype N, 100% penetrance. |
Loss of function is the mechanism for both diseases; the same pathogenic variant in the heterozygous state would be associated with AT in the homozygous state, and vice versa[5].
Some individuals with AT may have some retained kinase activity, rather than complete loss. This is most commonly associated with splice site or missense variants, and are associated with lower penetrance and "variant" AT (less severe, later onset, etc.)[3]. There are some higher penetrant pathogenic variants, such as c.7271T>G p.(Val2424Gly) and c.7570G>C p.(Ala2524Pro), associated with a 4-6 fold increase in breast cancer[3]. Founder mutations[6]: - c.5763-1050A>G (British ancestry) - c.103C>T, p.(Arg35*) (Moroccan & Tunisian Jewish ancestry) - c.1339C>T, p.(Arg447*) (northern Israel Druze population originally from central Lebanon & Jordan) - c.1564_1565delAG, p.(Glu522Ilefs*43) (Amish ancestry) - c.4507C>T, p.(Gln1503*) (Costa Rican population) - c.5908C>T, p.(Gln1970*) (Costa Rican population) - c.6200C>A, p.(Ala2067Asp) (Canadian Mennonite population) - c.6672_6680delGGCTCTACGinsCTC, p.(Met2224_Arg2227delinsIleSer) (northern Israel Druze population originally from central Lebanon & Jordan) - c.7449G>A, p.(Trp2483*) (Costa Rican population) - c.9007_9034del28, p.(Asn3003Aspfs*6) (Romani population in Spain) |
Genetic Abnormalities: Somatic
Put your text here and fill in the table (Instructions: Describe significant second hit mutations, or somatic variants that present as a germline syndrome. In the notes, include details about most common mutations, mechanisms of molecular pathogenesis, alteration-specific prognosis and any other important genetic-related information. Please include references throughout the table. Do not delete the table.)
| Gene | Genetic Variant or Variant Type | Molecular Pathogenesis | Inheritance, Penetrance, Expressivity | Notes |
|---|---|---|---|---|
| ATM | Biallelic inactivation variants | Second hit mutation can occur as copy neutral LOH, inactivating mutation, deletion, promoter hypermethylation, or a structural abnormality disrupting the gene. | ||
Genes and Main Pathways Involved
Put your text here and fill in the table (Instructions: Please include references throughout the table. Do not delete the table.)
| Gene; Genetic Alteration | Pathway | Pathophysiologic Outcome |
|---|---|---|
| EXAMPLE: BRAF and MAP2K1; Activating mutations | EXAMPLE: MAPK signaling | EXAMPLE: Increased cell growth and proliferation |
| EXAMPLE: CDKN2A; Inactivating mutations | EXAMPLE: Cell cycle regulation | EXAMPLE: Unregulated cell division |
| EXAMPLE: KMT2C and ARID1A; Inactivating mutations | EXAMPLE: Histone modification, chromatin remodeling | EXAMPLE: Abnormal gene expression program |
Genetic Diagnostic Testing Methods
For cancer predisposition, a multi-gene next-generation sequencing (NGS) panel is recommended, either a comprehensive cancer predisposition panel or a smaller gene panel tailored to the personal and family cancer history.
For AT, depending on the phenotype and differential diagnosis, either single gene or multi-gene NGS testing is recommended. Chromosome instability studies may also help clarify a diagnosis in case of inconclusive molecular testing.
For individuals of British ancestry, the intronic founder mutation, c.5763-1050A>G, should be included in testing. This variant may be missed by exome sequencing, depending on panel design. Review of laboratory methodology is recommended prior to testing.
(Instructions: Include recommended testing type(s) to identify the clinically significant genetic alterations.)
Additional Information
- According to ACMG clinical management guidelines, management of individuals with heterozygous germline pathogenic variants should be based on an individualized risk assessment model, including personal and family history, rather than on the presence of anATM variant alone[3]. These individuals may qualify for enhanced breast cancer surveillance, earlier screening for prostate and pancreatic cancers, depending on country-specific criteria. In general, risk-reducing mastectomy and risk-reducing salpingo-oophorectomy are not routinely recommended, but may be considered/discussed based on individualized risk assessment.
- While ionizing and radiation therapy is contraindicated in individuals with biallelic germline pathogenic variants (i.e. diagnosed with AT), they are considered safe for heterozygous carriers[3].
- Due to reduced DNA damage response in individuals with biallelic variants in their tumors (germline and/or somatic), PARP inhibitors have been explored for therapeutic treatment in patients with various cancers[3]. At this time, there is limited evidence supporting the use of PARP inhibitors in patients with ATM variants. However, some PARP inhibitors are approved for use on any tumor with a HRR gene mutation, including ATM.
Links
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References
- ↑ Phan, Liem Minh; et al. (2021-05-30). "ATM: Main Features, Signaling Pathways, and Its Diverse Roles in DNA Damage Response, Tumor Suppression, and Cancer Development". Genes. 12 (6): 845. doi:10.3390/genes12060845. ISSN 2073-4425. PMC 8228802 Check
|pmc=value (help). PMID 34070860 Check|pmid=value (help). - ↑ 2.0 2.1 2.2 Lee, Ji-Hoon; et al. (2021-12). "Cellular functions of the protein kinase ATM and their relevance to human disease". Nature Reviews Molecular Cell Biology. 22 (12): 796–814. doi:10.1038/s41580-021-00394-2. ISSN 1471-0072. Check date values in:
|date=(help) - ↑ 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 Pal, Tuya; et al. (2025-01). "Management of individuals with heterozygous germline pathogenic variants in ATM: A clinical practice resource of the American College of Medical Genetics and Genomics (ACMG)". Genetics in Medicine. 27 (1): 101243. doi:10.1016/j.gim.2024.101243. Check date values in:
|date=(help) - ↑ 4.0 4.1 NCCN Guidelines Version 3.2025, Genetic/Familial High-Risk Assessment: Breast, Ovarian, Pancreatic, and Prostate.
- ↑ Richardson, Marcy E.; et al. (2024-11). "Specifications of the ACMG/AMP variant curation guidelines for the analysis of germline ATM sequence variants". The American Journal of Human Genetics. 111 (11): 2411–2426. doi:10.1016/j.ajhg.2024.08.022. PMC 11568761 Check
|pmc=value (help). PMID 39317201 Check|pmid=value (help). Check date values in:|date=(help) - ↑ Veenhuis S, van Os N, Weemaes C, et al. Ataxia-Telangiectasia. 1999 Mar 19 [Updated 2025 Dec 4]. In: Adam MP, Bick S, Mirzaa GM, et al., editors. GeneReviews® [Internet]. Seattle (WA): University of Washington, Seattle; 1993-2025. Available from: https://www.ncbi.nlm.nih.gov/books/NBK26468/.
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Notes
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