Development of therapies for Alzheimer's disease has only resulted in a few approved drugs that provide some temporary symptomatic relief in certain patients. None of these compounds in clinical use halts or slows the progression of the disease. To date, several drugs targeting the amyloid-β peptide, and some against the tau protein, have failed in clinical trials. While there are various reasons for these failures, considering the following points may aid in improving the outcome of future trials. First, the tau protein should ideally be targeted intracellularly because most of tau pathology is within cells, neurons in particular. Second, an overriding emphasis in recent years has been on implementing drug-screening models that focus on prevention of seeding/spread of aggregates. Much less attention has been paid to identify compounds that inhibit neurotoxicity of these aggregates, which may not necessarily relate to their seeding/spread propensity. Ideally, all these markers should be readouts in the same assay or model. Third, diversity in conformers/strains of aggregates complicates drug development of small molecule aggregation inhibitors but is likely to be less of an issue for antibody-based treatments. Lastly, other more general targets associated with neurodegeneration should continue to be pursued but are in many ways more difficult to address than clearing amyloid-β and tau, the defining hallmarks of AD.