The new immunosenescence paradigm (2015) was an attempt to explain a mechanism by which macrophages could be immunosuppressed and dysfunctional, yet paradoxically release proinflammatory factors in an unregulated manner. This mechanism was linked to the loss of dehydroepiandrosterone (DHEA) with aging and thus explained how immunosenescence could be causally related to the risk of stress and/or age-associated chronic diseases. At the center of this paradigm was lipid body negative (LB-) foamy macrophage (CD14+CD16+) which produced human endogenous retrovirus K102 (HERV-K102) particles. HERV-K102 may be a protector foamy virus of humans, and its induction may generate trained innate immunity, a special type of autoimmunity, in response to intracellular pathogens, their constituents, toxins, and/or tumors. Overwhelming evidence now suggests that the proinflammatory foamy macrophages driving ASCVD are LB-. Moreover, the monocyte/macrophage phenotype implicated in atherosclerosis-cardiovascular disease (ASCVD) appears to be the CD14+CD16+ intermediate phenotype. These and other observations directly challenge the cholesterol hypothesis. For the prevention and treatment of ASCVD, it is important to address the putative cause of ASCVD -- immunosenescence, rather than the signs or symptoms such as inflammation or elevated cholesterol. Therefore, strategies to reverse or prevent immunosenescence, which improve or maintain an optimal cortisol/DHEA ratio such as isoflavonoids, would be expected to alleviate not only ASCVD but the risk of many other age-associated chronic diseases. Here, the new immunosenescence paradigm will be appraised for its suitability to explain ASCVD risks.