Akademik Veri Yönetim Sistemi
Sunum, ss.4939-4940, 2025
The presence of a mutation with a variant allele fraction (VAF) of at least 2% in a gene associated with
myeloid malignancies in blood or bone marrow cells in individuals without morphological evidence of
hematological cancers is termed Clonal Hematopoiesis of Indeterminate Potential (CHIP). CHIP has been
associated with hematologic malignancies, cardiovascular disease, severe COVID-19, gout, and several
solid tumors (PMID: 39196204). Previous studies examining the association between CHIP and
Alzheimer’s disease (AD), have been reported either no association or, interestingly, a potential protective
effect of CHIP carrier status against AD (PMID: 37322115).
In this study, we investigated whether CHIP is a risk factor for AD using the UK Biobank (UKB) Whole
Exome Sequencing (WES) data. Participants with hematologic malignancies, diseases of the circulatory
system, and types of dementia other than AD, utilizing data from the cancer register, hospital diagnosis
records, death register records, and self-reported records to prevent confounding effects were excluded
from the UKB cohort. Individuals carrying the rs7412 or rs429358 APOE SNPs strongly associated with AD,
were excluded. Only participants with APOE ε3/ε3 genotype and without genetic kinship to other
participants in the cohort were included. Diagnosis of AD from the UKB, was identified through hospital
records. The control group comprised age-and sex-matched individuals without AD, who met the same
exclusion and inclusion criteria. As a result, we analyzed WES data from 521 participants (259 cases and
262 controls) with a mean age of 64.2 years. Most participants were self-reported White (93.3%); other
ethnicities each comprised ≤3.5%. Variant calling on WES data was performed using NVIDIA Parabricks
Mutectcaller (version 4.1.0) in tumor-only mode with default parameters within the UKB Research
Analysis Platform. VCF files were annotated and filtered to include only variants in 74 genes known to be
recurrent drivers in myeloid malignancies. In addition, variants with a gnomAD v4.1 allele frequency >
0.001 were excluded to filter out potential germline variants. Additional filtering was performed using
quality metrics extracted from the VCF FORMAT fields to remove low-quality and potentially artifactual
variants. From resulting variants, we selected those included in the published List of hematopoietic genes
and variants queried (PMID: 28636844), World Health Organization (WHO) Classification (5th ed., vol. 11),
or National Comprehensive Cancer Network (NCCN) Guidelines (v2.2025).
Of the 521 participants, 10.3% were identified as CHIP carriers, with the highest number of variants
detected in the DNMT3A gene. Compared to controls, the AD group included a significantly higher
proportion of CHIP carriers. In logistic regression analysis, CHIP was significantly associated with AD (OR:
1.83, 95% CI: 1.02–3.27, P=0.042); this association remained significant after adjusting for age, sex,
smoking status, and BMI (Body Mass Index) (OR: 1.93, 95% CI: 1.06–3.49, P=0.031). However, when
restricting the analysis to large clones (VAF >10%), the association was no longer significant (OR: 1.20,
95% CI: 0.54–2.67, P=0.663). As expected, CHIP presence was strongly associated with age (P < 0.001),
while it was not associated with sex, smoking status, or BMI.
The association between CHIP and blood count parameters was also investigated, but no significant
relationships were observed. In a small subgroup of the cohort with available proteomics data (N=63),
levels of inflammatory markers were assessed. IL-6, IL-18, and TNF-α levels were found to be significantly
higher in CHIP carriers compared to non-carriers (p = 0.019, p = 0.006, and p = 0.029, respectively).
In conclusion, our findings suggest that CHIP presence is associated with an increased risk of AD in
individuals with the APOE ε3/ε3 genotype which is considered a neutral type for AD. As earlier studies are
not all in accordance our results will add to the current evidence. The discrepancies between our findings
and theirs may be attributable to differences in filtering based on sequencing metrics, as well as
sequencing depth and population characteristics. Further studies with standardized CHIP detection
methods are needed to clarify the mechanisms underlying relationship between CHIP and AD.
This research has been conducted using the UK Biobank Resource under Application Number 81793.