AbstractBackgroundSubclinical depressive symptoms are associated with increased risk of Alzheimer’s disease (AD). This link could be related to stress system dysfunction, known to occur in both depression and AD, and to depend notably on the hippocampus which is particularly sensitive to AD. We aimed at investigating the links between levels of blood stress markers and changes in brain regions involved in the stress response in older adults with subclinical depressive symptoms.MethodCognitively unimpaired older adults with (DepS; n = 73) or without (NoDepS; n = 58) subclinical depressive symptoms (defined using the 15‐item version of the Geriatric Depression Scale), from the baseline data of the Age‐Well trial (NCT02977819) were included. For each participant, levels of cortisol, epinephrine and norepinephrine were obtained from blood sampling. Moreover, the functional connectivity (FC) between, and the gray matter (GM) volume of, the hypothalamus, hippocampus and hippocampal subfields were extracted from resting‐state functional, and structural T1‐weighted, MRI. Levels of blood stress markers and neuroimaging measures were compared between groups. Regression analyses were then conducted between levels of blood markers and brain measures. Analyses were corrected for age, sex, education and anxiety symptoms with statistical significance set to p<0.05.ResultHigher blood epinephrine level (p<0.024), and FC between the hypothalamus and the CA1 hippocampal subfield (p<0.040), was found in DepS compared to NoDepS (Fig.1). This higher epinephrine level was associated with greater FC between the hypothalamus and the CA1 (p<0.007) and Subiculum (p<0.013) subfields (Fig.2). Lower GM volume in the CA1 (p<0.008) and DG/CA2‐3‐4 (p<0.013) subfields was also found in the DepS group (Fig.3), but was not associated with epinephrine level. No significant between‐group difference in blood cortisol and norepinephrine levels was observed.ConclusionSubclinical depressive symptoms in aging are associated with higher blood epinephrine level related to greater FC between the hypothalamus and hippocampal subfields (CA1 and Subiculum) – suggesting an increased sympathetic nervous system activity. They are also associated with GM atrophy in specific hippocampal subfields, including the CA1 that is sensitive to AD. These two distinct mechanisms at this preclinical stage of depression may at least partly explain that depression is a risk factor for AD.