BACE1 as an early biomarker and its relevance to risk factors for Alzheimer’s disease

While the β-secretase BACE1 is responsible for the rate-limiting initial step to generate amyloid-β (Aβ) peptides, BACE1 inhibitor clinical trials have been halted due to a lack of efficacy and/or safety concerns at symptomatic/prodromal stages of Alzheimer’s disease (AD). These trials were often targeted at high levels of BACE1 inhibition (>70 %) and ended up with signs of mild cognitive worsening instead of expected improvement. BACE1 concentration and activity are elevated in the cerebrospinal fluid and plasma/serum as well as brains of patients with mild cognitive impairment and AD dementia. Interestingly, recent evidence suggests that these fluid-based biomarkers reflective of BACE1 elevation may be associated with yet asymptomatic pathological changes in preclinical AD populations who are at high-risk for developing AD. Consistent with these findings, it has been demonstrated that exposures to major environmental and genetic risks such as diabetes, sleep disturbances, seizure, vascular disorders, stress, apolipoprotein E4, etc. converge on BACE1 elevation in humans and animal models, which may contribute to triggering sporadic AD. Moreover, vicious cycles exist between BACE1/Aβ elevations and certain prognostic conditions, further accelerating disease progression. Conversely, protective factors for AD are associated with reduced BACE1 level/activity. This review provides an overview of BACE1 alterations as common responses to a broad battery of AD risk and protective factors. The findings validate BACE1 as a biomarker for preclinical AD status that may be useful for earlier diagnosis and identifying subpopulations of individuals under AD risks who would benefit from preventive low-dose BACE1 inhibitor treatment with a higher probability.