Abstract
Nicotinamide adenine dinucleotide (NAD(+) ) level has been associated with various age-related diseases and its pharmacological modulation emerges as a potential approach for aging intervention. But human NAD(+) landscape exhibits large heterogeneity. The lack of rapid, low-cost assays limits the establishment of whole-blood NAD(+) baseline and the development of personalized therapies, especially for those with poor responses towards conventional NAD(+) supplementations. Here, we developed an automated NAD(+) analyzer for the rapid measurement of NAD(+) with 5 μL of capillary blood using recombinant bioluminescent sensor protein and automated optical reader. The minimal invasiveness of the assay allowed a frequent and decentralized mapping of real-world NAD(+) dynamics. We showed that aerobic sport and NMN supplementation increased whole-blood NAD(+) and that male on average has higher NAD(+) than female before the age of 50. We further revealed the long-term stability of human NAD(+) baseline over 100 days and identified major real-world NAD(+) -modulating behaviors.