The Interactive Effect of Genetic and Epigenetic Variations in FKBP5 and ApoE Genes on Anxiety and Brain EEG Parameters

FKBP51 is a key stress-responsive regulator of the hypothalamic–pituitary–adrenal axis. To elucidate the contribution of rs1360780 FKBP5 C/T alleles to aging and longevity, we genotyped FKBP5 in a cohort of 800 non-demented and Alzheimer’s disease (AD) subjects of different age, taking into account the allele state of ApoE ε4, the major risk factor for AD. Furthermore, we searched for the association of FKBP5 with subcohorts of non-demented subjects evaluated for anxiety and resting-state quantitative EEG characteristics, associated with cognitive, emotional, and functional brain activities. We observed that increased state anxiety scores depend on the combination of the FKBP5 and ApoE genotypes and on the DNA methylation state of the FKBP5 promoter and ApoE genotype. We also found a significant gender-dependent correlation between FKBP5 promoter methylation and alpha-, delta-, and theta-rhythms. Analysis of the FKBP5 expression in an independent cohort revealed a significant upregulation of FKBP5 in females versus males. Our data suggest a synergistic effect of the stress-associated (FKBP5) and neurodegeneration-associated (ApoE) gene alleles on anxiety and the gender-dependent effect of FKBP5 on neurophysiological brain activity.


Introduction
The FKBP5 gene encodes the FKBP51 protein, which is a co-chaperone of the hsp90 protein involved in the regulation of the hypothalamic-pituitary-adrenal axis as a component of the oligomeric complex of the glucocorticoid receptor. The presence of the T variant in SNP rs1360780 (C > T) in the second intron of the FKBP5 gene has been associated with a significant increase in the risk of developing neuropsychiatric disorders [1][2][3][4]. C/T variation could affect the three-dimensional DNA structure by forming a TATA box-like sequence, which in turn can contribute to the transcription of the corresponding mRNA and finally lead to epigenetic modifications of FKBP5. This hypothesis was first supported by the genotype-methylation analysis of FKBP5 in the blood and saliva of adult victims of childhood trauma [5] and was reinforced by the analysis of other cases of child abuse [6,7]. The methylation level within the FKBP5 gene from the buccal epithelia of children and blood samples of adults responding to the psychological treatment changed during the therapy for T-allele carriers, leading to higher treatment efficacy [8,9]. Intriguingly, several studies of patients exposed to childhood maltreatment did not confirm an association between genetic-dependent epigenetic changes in FKBP5 and psychiatric deviations [10,11]. Genotype-independent alterations in methylation of a particular CpG within FKBP5 in blood were found in Holocaust victims and their offspring [12]. Thus, it is reasonable to expect that some additional factors contributing to the complex interplay between genotype, DNA methylation, and psycho-emotional status may exist.
There are substantial reasons to believe that FKBP5 influences brain activity and that changes in FKBP5 expression may contribute to brain function. Attempts to relate brain activity and structure have revealed that T-allele carriers are more sensitive to psychological trauma, leading to abnormalities in the volume or function of some brain regions [13][14][15][16][17]. During aging, humans become less stress-resistant. Analysis of the methylation status of CpG nucleotides around the FKBP5 locus using a 450 K methylation panel (Illumina) revealed two CpGs showing age-dependent methylation in blood [18]. The same tendency was previously demonstrated for CpG methylation within the fifth intron of Fkbp5 in mice [19]. Recently, our group used ChIP-seq analysis of brain samples from neurons of the prefrontal cortex and found age-dependent epigenetic variations within the human FKBP5 gene [20]. Notably, age-related epigenetic changes were mostly confined to the region downstream of the FKBP5 promoter, which is absent from the 450 K methylation array, and explains the scarcity of publicly available methylation data for this region.
Dynamic epigenetic changes across FKBP5 in the brain and association of the risk allele with brain pathology point to the possible role of FKBP5 in pathogenesis of age-dependent neurodegeneration such as Alzheimer's disease (AD). Neuropsychiatric disorders, such as depression and posttraumatic stress disorder (PTSD), are also known to promote AD progression [21,22]. The major known risk factor of AD, the ApoE ε4 allele, is not associated with depression in non-demented individuals [23], while the study of AD patients revealed the over-representation of ApoE ε4 among AD women with depression [24]. Furthermore, PTSD has been shown to play a critical role in driving more severe cognitive dysfunction in both FKBP5 rs1360780 T-allele and ApoE ε4 carriers [25]. Studies aimed at uncovering gene variants involved in neuropsychiatric disorders in AD patients revealed the associations of MAOA, BDNF, TPH1, and FKBP5 genes with AD-associated depression [26].

Aging and rs1360780 Alleles
Allele frequencies of FKBP5 rs1360780 in the ND, AD, and Nona+ groups are summarised in Table 1. There were no significant differences in rs1360780 allele frequencies between the groups. Similarly, no correlation between the age of non-demented individuals (including Nona+) and T/C allele frequencies was observed. To analyse the possible effect of rs1360780 on the development of depression, a group of AD patients was subdivided into two subgroups: AD subjects with depression and AD subjects without depression. Our data are consistent with a weak tendency of increased frequency of the T allele in rs1360780 in the group of patients with AD and depression. However, this tendency was not statistically significant (p = 0.25311). We also genotyped the polymorphisms ε2/ε3/ε4 in the ApoE gene in all groups (Supplementary Materials). As expected, significant differences were revealed in the allele frequencies of polymorphisms in ApoE in the AD group compared to the ND and Nona+ groups. The frequency of the ε4 allele was significantly higher in patients with AD, while the frequency of the ε2 allele was significantly lower in AD patients than in the ND and Nona+ patients.

FKBP5 rs1360780 and ApoE ε2/ε3/ε4 in Association with Anxiety
Our analysis of the effect of rs1360780 C/T polymorphism in FKBP5 on the degree of anxiety in the non-demented subgroup characterised by the Spielberger test showed that there were no differences between the average quantitative indicators of the degree of both trait and state anxiety in all selected groups (for trait anxiety, Figure 1a, p = 0.307809; for state anxiety, Figure 1b, p = 0.885592). Considering the possible contribution of sex and T allele in rs1360780 to the anxiety profiles, we did not observe significant differences in state and trait anxiety scores (H (3, n = 167) = 3.654349, p = 0.3013 and F(1, 164) = 0.59507, p = 0.441576, respectively). Likewise, for the ε4 allele in the ApoE gene, there were no statistically significant differences (for trait anxiety, Figure 1c, p = 0.508077; for state anxiety, Figure 1d, p = 0.111557). When the data were analysed separately for women and men, no contribution of the ε4 allele on the state and trait anxiety scores was found (F(1, 163) = 0.11828, p = 0.731355 and F(1, 164) = 0.01809, p = 0.893185).
Next, we analysed the effect of the simultaneous presence of the T and ε4 alleles in rs1360780 in the FKBP5 and ApoE genes, respectively, on the level of state and trait anxiety in individuals from the ND group. We found a statistically significant increase in state, but not trait anxiety scores in T-(CT&TT genotypes) and ε4 allele carriers compared to the carriers of the T allele, but not the ε4 allele in ND groups (F(1, 163) = 4.5187, p = 0.0350). It remained significant after Bonferroni correction (*p-value = 0.049432; Figure 1f). The analysis of the cumulative effect of T and ε4 alleles on the state and trait anxiety scores in groups of women and men was not performed because of the small size of the patient groups.

rs1360780 and ε4 Polymorphisms in Association with the Electrical Activity of the Brain
Case-control studies of brain electrical activity in people with various neuropsychiatric disorders, as well as people with AD, demonstrated that the course of these diseases is accompanied by distortions in the electrical activity of the brain [31,32].
Our statistical examination of the normalised EEG relative power values revealed a significant interaction between the FKBP5 genotype, EEG bands, and sex. Post hoc comparison showed that the relative power of delta and beta2 bands was higher in men with FKBP5 CT&TT, while the alpha relative power in men with CT&TT genotypes tended to be lower than that in men with the CC genotype ( Figure 2). There was no significant difference between women with the FKBP5 CC and FKBP5 CT&TT genotypes. There is no significant difference in the state anxiety score in the given groups. Means ± SD of trait (e) and state (f) anxiety scores in T ± and ε4 ± allele carriers. The significant difference (* p = 0.007202) in state anxiety scores between T/ε4− and T/ε4+ allele carriers.

rs1360780 and ε4 Polymorphisms in Association with the Electrical Activity of the Brain
Case-control studies of brain electrical activity in people with various neuropsychiatric disorders, as well as people with AD, demonstrated that the course of these diseases is accompanied by distortions in the electrical activity of the brain [31,32].
Our statistical examination of the normalised EEG relative power values revealed a significant interaction between the FKBP5 genotype, EEG bands, and sex. Post hoc comparison showed that the relative power of delta and beta2 bands was higher in men with FKBP5 CT&TT, while the alpha relative power in men with CT&TT genotypes tended to be lower than that in men with the CC genotype ( Figure 2). There was no significant difference between women with the FKBP5 CC and FKBP5 CT&TT genotypes. Figure 1. Means ± SD of trait (a) and state (b) anxiety scores in the subgroups of CC, CT, and TT genotype carriers (grey bars) and T allele carriers (white bars) in the FKBP5 gene in subjects from the ND group. Means ± SD of trait (c) and state (d) anxiety scores in the subgroups of ε4 allele non-carriers (grey bar) and ε4 allele carriers (white bar) in the ApoE gene in the ND group. There is no significant difference in the state anxiety score in the given groups. Means ± SD of trait (e) and state (f) anxiety scores in T ± and ε4 ± allele carriers. The significant difference (* p = 0.007202) in state anxiety scores between T/ε4− and T/ε4+ allele carriers.

Interplay between FKBP5 Promotor Methylation and Anxiety
The methylation levels of the three CpGs in the FKBP5 promoter region were not associated with state or trait anxiety in 42 tested individuals. There was also no age-or sex-dependent methylation of these CpGs. When the FKBP5 genotype was considered as a possible contributing factor, we observed a statistically significant correlation between

Interplay between FKBP5 Promotor Methylation and Anxiety
The methylation levels of the three CpGs in the FKBP5 promoter region were not associated with state or trait anxiety in 42 tested individuals. There was also no age-or sex-dependent methylation of these CpGs. When the FKBP5 genotype was considered as a possible contributing factor, we observed a statistically significant correlation between higher methylation at CpG1 and trait anxiety (r = 0.44, p = 0.00893). The same correlation was observed for CpG1 and ApoE ε4− (r = 0.34, p = 0.01849). When analysed together (CC+ and ApoE ε4−), the correlation was even more pronounced (r = 0.58, p = 0.00220) (Figure 3).

Delta Rhythm
In the carriers of the FKBP5 CC genotype, methylation levels within the CpG2 promoter region of the FKBP5 gene correlated negatively with the log-transformed relative power of delta activity (r = −0.37, p = 0.04, n = 32). In the male and female subgroups, when considered separately, the correlation was below the significance level (p < 0.05). In the carriers of the FKBP5 CT&TT genotypes, this correlation was not significant.

Theta Rhythm
In the entire sample of individuals with different FKBP5 genotypes, the methylation level within CpG1 residing in the promoter region of the FKBP5 gene correlated negatively with the log-transformed relative power of the theta activity (r = −0.28, p = 0.03, n = 59). However, in the groups with FKBP5 CC and FKBP5 CT&TT genotypes, when considered separately, the correlation did not reach the significance threshold (p < 0.05).
In carriers of the ApoE ε4− genotype, but not in the carriers of the ApoE ε4+ genotype, the negative correlation between the methylation level within the CpG1 promoter region of the FKBP5 gene and the log-transformed relative power of the theta activity was significant (r = −0.41, p = 0.007, n = 41).

Delta Rhythm
In the carriers of the FKBP5 CC genotype, methylation levels within the CpG2 promoter region of the FKBP5 gene correlated negatively with the log-transformed relative power of delta activity (r = −0.37, p = 0.04, n = 32). In the male and female subgroups, when considered separately, the correlation was below the significance level (p < 0.05). In the carriers of the FKBP5 CT&TT genotypes, this correlation was not significant.

Theta Rhythm
In the entire sample of individuals with different FKBP5 genotypes, the methylation level within CpG1 residing in the promoter region of the FKBP5 gene correlated negatively with the log-transformed relative power of the theta activity (r = −0.28, p = 0.03, n = 59). However, in the groups with FKBP5 CC and FKBP5 CT&TT genotypes, when considered separately, the correlation did not reach the significance threshold (p < 0.05).
In carriers of the ApoE ε4− genotype, but not in the carriers of the ApoE ε4+ genotype, the negative correlation between the methylation level within the CpG1 promoter region of the FKBP5 gene and the log-transformed relative power of the theta activity was significant (r = −0.41, p = 0.007, n = 41).

Alpha Rhythm
In the carriers of the FKBP5 CC genotype, the methylation level within CpG2 correlated positively with the log-transformed relative power of the Alpha activity (r = 0.37, p = 0.04, n = 32). When considered separately for men and women, this correlation was observed in women (r = 0.42, p = 0.04, n = 24) but not in the male subgroup (Figure 4).
In the carriers of the FKBP5 CC genotype, the methylation level within CpG2 correlated positively with the log-transformed relative power of the Alpha activity (r = 0.37, p = 0.04, n = 32). When considered separately for men and women, this correlation was observed in women (r = 0.42, p = 0.04, n = 24) but not in the male subgroup (Figure 4).

Beta1 and Beta2 Rhythm
Significant correlation with FKBP5 methylation was not observed.

Meta-Analysis of FKBP5 Expression in the Blood and Brain
To understand whether sex and age could predict the levels of FKBP5 expression, the data for 755 whole blood and 255 brain cortex samples from the GTEx project were extracted and subjected to a multiple linear regression analysis. In both blood and cortex, the model was found to be statistically significant (F(2, 752) = 29.37, p-value = 5.215e − 13 for blood and F(2, 252) = 6.618, p = 0.00158 for cortex). In both models, age was a significant predictor (p-value = 3.71e − 12 for blood and p-value = 0.004 for cortex) with opposing effects: FKBP5 expression decreased with age in blood but increased in the cortex. Sex was also a significant predictor in both blood (p = 0.004) and brain (p = 0.02); in both the blood and brain, female subjects tended to have higher FKBP5 expression than male subjects ( Figure 5).

Beta1 and Beta2 Rhythm
Significant correlation with FKBP5 methylation was not observed.

Meta-Analysis of FKBP5 Expression in the Blood and Brain
To understand whether sex and age could predict the levels of FKBP5 expression, the data for 755 whole blood and 255 brain cortex samples from the GTEx project were extracted and subjected to a multiple linear regression analysis. In both blood and cortex, the model was found to be statistically significant (F(2, 752) = 29.37, p-value = 5.215 × 10 −13 for blood and F(2, 252) = 6.618, p = 0.00158 for cortex). In both models, age was a significant predictor (p-value = 3.71 × 10 −12 for blood and p-value = 0.004 for cortex) with opposing effects: FKBP5 expression decreased with age in blood but increased in the cortex. Sex was also a significant predictor in both blood (p = 0.004) and brain (p = 0.02); in both the blood and brain, female subjects tended to have higher FKBP5 expression than male subjects ( Figure 5).

Discussion
In this study, we analysed the frequencies of the rs1360780 polymorphism in the FKBP5 gene and ε2/ε3/ε4 polymorphisms in the ApoE gene in non-demented people from different age population samples, and nona+centenarians, as well as people with AD. We did not find differences in the frequency of alleles or genotypes of the rs1360780 polymor-

Discussion
In this study, we analysed the frequencies of the rs1360780 polymorphism in the FKBP5 gene and ε2/ε3/ε4 polymorphisms in the ApoE gene in non-demented people from different age population samples, and nona+centenarians, as well as people with AD. We did not find differences in the frequency of alleles or genotypes of the rs1360780 polymorphism in the FKBP5 gene when comparing all the groups in the study. Based on the results obtained, it could be concluded that this polymorphism does not contribute to longevity if we consider it regardless of the action of the environment or interaction with other genetic factors.
Since the T allele of rs1360780 in the FKBP5 gene was associated not only with depressive behavior but also with the development of various mental diseases, we decided to study the effect of this polymorphism on the level of anxiety. Previous studies have reported that the level of anxiety of the individual can be determined genetically to a certain extent [33,34]. The results of our study showed that the level of state anxiety on the Spielberger scale was higher in carriers of the T and ε4 alleles from a population of different ages in the FKBP5 and ApoE genes, respectively, than in carriers of the T allele who lack the ε4 allele. Previously, it was established that the concentration of the main hormone response to stress, cortisol, in the cerebrospinal fluid was higher in AD patients homozygous for the ε4 allele in the ApoE gene than in the carriers of other genotypes suffering from AD [35]. Moreover, the ApoE ε4 and SNP rs1360780 T alleles were associated with the severity of PTSD [36,37]. Combined with these data, our results suggest a potential synergistic effect of the studied alleles on the level of state anxiety.
Our study shows that the FKBP5 polymorphism rs1360780 is associated with the delta and beta2 relative power in the resting-state EEG of non-demented men. We showed an increase in the relative power of delta and beta2 bands in men carrying the FKBP5 CT&TT variants. We also found a tendency for lower alpha relative power for men carrying FKBP5 CT&TT variants compared with men with the FKBP5 CC variant. These effects of the FKBP5 genotype on EEG in men were independent of age.
An increase in delta relative power combined with a reduction in alpha power is a sign of an inappropriate arousal state, which leads to a reduced ability to attend to relevant information [28]. Slowing of EEG is a uniform finding in AD [27,29,30]. In mice, the chaperone FKBP51 can work with Hsp90 to produce tau protein, facilitating its neurotoxicity [38]. However, an increase in delta power in the carriers of FKBP5 CC genotype was age-independent, combined with an increase in the beta2 power, and very mild, and it is unlikely that such alterations are caused by early AD-related pathology. A moderate increase in EEG delta power combined with an increase in beta power was previously found in patients with major depression, bipolar disorders, and in individuals with various forms of disinhibitory psychopathology [28,39,40]. Elevated beta power was found to be associated with alterations in inhibitory controls and anxiety [41,42]. These EEG alterations were suggested to represent a candidate endophenotype for such disorders, as they were also detected in the unaffected relatives of the patients [39]. Previously, we reported an increase in beta-activity in subjects with the AD-risk PICALM GG genotype, with the effect being more pronounced in subjects older than 50 years of age [43].
A significant overrepresentation of the FKBP5 TT and TC genotypes compared to the CC genotype has been revealed in individuals presenting with major depression [44]. Such differences were found to be more pronounced in men than in women [45]. Our findings on the association of the FKBP5 genotype with EEG characteristics in men are consistent with these results. As already mentioned, the Hsp90 co-chaperone FKBP5 is a regulator of glucocorticoid receptor complex (GR) activity [46]. GR activity terminates physiological stress responses mediated by glucocorticoid hormones. The gender specificity in our data may be explained by the functional binding sites for sex steroids in FKBP5 [47].
The results suggest that EEG alterations in men with the FKBP5 TT/CT genotype are indicative of the endophenotype predisposing to the inappropriate arousal state, cortical disinhibition, and/or neuronal hyperexcitability, which may be related to high levels of anxiety or other kinds of disinhibitory psychopathology.
The results of this study show that the demethylation of several CpGs in the promoter region of FKBP5 is associated with a decrease in alpha EEG relative power and an increase in delta and theta relative power in healthy adults. The correlation was moderate and was observed for delta and alpha relative power in the carriers of FKBP5 CC, but not in the FKBP5 CT&TT carriers. The correlation of FKPB5 demethylation with theta relative power was found in ApoE ε4 carriers, but not in ApoE ε4+ carriers. A moderate reduction in alpha power combined with an increase in delta and theta relative power is a feature of an inappropriate arousal state [28]. Such EEG features may be related to the effect of FKBP5 on stress vulnerability.
Demethylation of the FKBP5 gene resulting in upregulated expression has been implicated in the response to stress, which can lead to impaired glucocorticoid-mediated negative feedback of the HPA axis and persistently elevated cortisol levels [48,49]. Longterm epigenetic responses appear to predispose some individuals to psychiatric disorders such as depression and PTSD, where a moderate decrease in alpha relative power and an increase in slow-wave relative power have been previously detected [28]. The findings of the present study help to disentangle the complex interplay between FKBP5 methylation and brain functional alterations.
Our results show a number of interesting sex-specific correlations, but the subgroups encompassed fewer than 100 subjects and were limited to blood cells. Many other studies have confirmed the sex-specific influence of variations within the FKBP5 gene. Previously, our group performed H3K4me3 profiling of neurons from the prefrontal complex and uncovered the gender-dependent activity of the FKBP5 gene [20]. Here, we analysed the GTEx project database for FKBP5 expression in the blood and brain cortex and confirmed a significant difference.
Thus, we demonstrate for the first time the gender-specific effect of the rs1360780 polymorphism in the FKBP5 gene on the characteristics of the electrical activity of the brain and the development of anxiety, both influenced by the allelic polymorphism in the ApoE gene. Authors should discuss the results and how they can be interpreted from the perspective of previous studies and of the working hypotheses. The findings and their implications should be discussed in the broadest context possible. Future research directions may also be highlighted.

Human Samples
Venous blood samples of non-demented adults (ND), up to 89 years old, and Nona+ (≥90 years old) were collected for this study (Table 2). To compare the frequency of rs1360780 and ApoE ε4 alleles in patients with dementia, we used DNA from patients with AD [50]. All individuals from the groups belonged to the Russian population, predominantly from the Moscow area. Informed consent was provided by all subjects or their caregivers. A total of 168 individuals from the non-demented (ND) group were characterised by the level of state and trait anxiety using the Spielberger scale. A total of 161 individuals from the same group were also characterized by the level of alpha, beta1, beta2, delta, and theta rhythmic activity of the brain using the electroencephalography followed by quantitative analysis. Patients diagnosed with clinically probable AD according to the NINCDS-ADRDAAD and 188 individuals from the AD group were characterised for depression based on the NPI/NH tests.

Genotyping
DNA samples isolated from the venous blood of individuals were genotyped for the rs1360780 FKBP5 and ε2/ε3/ε4 polymorphisms in the ApoE gene.
Polymorphism rs1360780 in the FKBP5 gene was detected by quantitative PCR TaqMan analysis. Specifically, we used a set of primers and probes (C-FAM and T-VIC) provided by the "DNA-Synthesis" (Moscow, Russia) and Isogen set for the PCR Gen Pack Real-Time PCR "Core" (Moscow, Russia) using the 7500 Real-Time PCR System (Applied Biosystems, Waltham, MA, USA). ApoE genotyping was performed using RFLP analysis, as previously described [50].

EEG Procedure
The registration and evaluation of EEG was carried out in accordance with the IPEG guidelines. All recordings were obtained in the afternoon at 3-4 p.m. EEGs were recorded for 3 min during resting, the subjects sitting comfortably in a chair. They were asked to close their eyes and relax but stay awake during the recording. Prior to each recording, subjects were instructed to relax but stay awake. In order to keep the level of vigilance constant, an experimenter controlled the subject and the EEG traces online. He verbally alerted the subject any time there were signs of behavioral and/or EEG drowsiness.
EEG was recorded with a Nihon Kohden 4217 G EEG using the time constant of 0.3 s. The high-frequency cut-off was 45 Hz. The 14 Ag/AgCl electrodes were placed according to the international 10-20 system at the O2, O1, P4, P3, C4, C3, F4, F3, Fp2, Fp1, T4, T3, F8, and F7 positions. Linked ears served as the reference. Electrode impedance did not exceed 10 kΩ. During the recording, 180 s of EEG at rest was simultaneously sampled at 256 Hz per channel and stored on a computer for further analysis offline. The EEG was reviewed visually for artifacts. Periods of artifact were eliminated from subsequent analysis. After the elimination of artifacts, segments of resting EEG of 120 s duration were selected for further analysis.

Statistical Analysis
Differences in allele frequencies of FKBP5/ApoE polymorphisms in all groups were compared using Pearson's chi-squared test. The Shapiro-Wilk test, Fisher's test, and Levene's test were applied to check the normality and homogeneity of variances, respectively, for all groups and subgroups. Differences in the anxiety scores and alpha relative power in the groups of ND individuals were compared using Student's t-test in the case of two samples and one-way analysis of variance (ANOVA) in the case of more than two samples under the condition of normally distributed samples followed by post hoc analysis (Bonferroni correction, Duncan's test).
If the studied samples did not follow a normal distribution, the Mann-Whitney U test (Mann-Whitney U-test) (comparison of two samples) or the Kruskal-Wallis test (Kruskal-Wallis one-way analysis of variance) when comparing more than two samples.

FKBP5 Expression Analyses
Multiple regression analysis of FKBP5 expression was performed using GTEx release v8 RNA-seq data. The FKBP5 transcript per million (TPM) value was used as the dependent variable. In the deidentified open-access GTEx, the subject metadata ages are reported to be rounded up to the decade. Therefore, the start of the decade was used as an independent variable in the model. The other variable, sex, was used without any modifications. For the analysis of blood, only samples labelled with whole blood were considered. For brain analysis, only samples labelled with "Brain-Cortex" were considered. The analysis was performed using R software (R Core Team 2020. R: Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria. URL https://www.R-project.org/ (accessed on 12 December 2021)).

Supplementary Materials:
The following are available online at https://www.mdpi.com/article/ 10.3390/genes13020164/s1: Table S1: Allele frequency differences for rs1360780 in FKBP5 gene, Table S2: Allele frequency differences for rs1360780 in FKBP5 gene in ND and Nona+ groups depending on the age, Table S3: Allele frequencies of ε2/ε3/ε4 polymorphism in ApoE gene, Table S4: Allele frequency differences for ε2/ε3/ε4 polymorphism in ApoE gene, Table S5: Demographic characteristics of participants with EEG, Table S6: Log-transformed relative power (mean and SE) of EEG bands in the non-demented men and women with the FKBP5 CC and FKBP5 CT&TT genotypes, Figure S1: Allele frequency differences for rs1360780 in FKBP5 gene in ND and Nona+ groups depending on the age, Figure S2: Frequencies of CC, CT, and TT genotypes in rs1360780 FKBP5 in patients with early (<65) and late (≥65) forms of AD.  Informed Consent Statement: Informed consent was obtained from all subjects involved in the study.
Data Availability Statement: Not applicable.

Conflicts of Interest:
The authors declare no conflict of interest.