John W. Kincaid scite author profile

John W. Kincaid

3Publications

19Citation Statements Received

381Citation Statements Given

How they've been cited

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302

376

Affiliations

University of Cambridge, Case Western Reserve University, Wellcome/MRC Institute of Metabolic Science

Publications

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NAD metabolism in aging and cancer

Kincaid

Berger

2020

Exp Biol Med (Maywood)

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NAD+ and its derivatives NADH, NADP+, and NADPH are essential cofactors in redox reactions and electron transport pathways. NAD serves also as substrate for an extensive series of regulatory enzymes including cyclic ADP-ribose hydrolases, mono(ADP-ribosyl)transferases, poly(ADP-ribose) polymerases, and sirtuin deacetylases which are O-acetyl-ADP-ribosyltransferases. As a result of the numerous and diverse enzymes that utilize NAD as well as depend on its synthesis and concentration, significant interest has developed in its role in a variety of physiologic and pathologic processes, and therapeutic initiatives have focused both on augmenting its levels as well as inhibiting some of its pathways. In this article, we examine the biosynthesis of NAD, metabolic processes in which it is involved, and its role in aging, cancer, and other age-associated comorbidities including neurodegenerative, cardiovascular, and metabolic disorders. Therapeutic interventions to augment and/or inhibit these processes are also discussed. Impact statement NAD is a central metabolite connecting energy balance and organismal growth with genomic integrity and function. It is involved in the development of malignancy and has a regulatory role in the aging process. These processes are mediated by a diverse series of enzymes whose common focus is either NAD’s biosynthesis or its utilization as a redox cofactor or enzyme substrate. These enzymes include dehydrogenases, cyclic ADP-ribose hydrolases, mono(ADP-ribosyl)transferases, poly(ADP-ribose) polymerases, and sirtuin deacetylases. This article describes the manifold pathways that comprise NAD metabolism and promotes an increased awareness of how perturbations in these systems may be important in disease prevention and/or progression.

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Obesity accelerates acute promyelocytic leukemia in mice and reduces sex differences in latency and penetrance

Kincaid

Weiss

Hill-Baskin

et al. 2022

Obesity

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Acute promyelocytic leukemia (APL), a subtype of acute myeloid leukemia, has recently been identified as an obesity-associated cancer (OAC) (1). Obesity has, in fact, been clearly linked to increased risk of multiple malignancies and worse outcomes for patients with these OACs (2). Murine models for solid tumors have been useful to better understand and disrupt the obesity-cancer linkage (3-10); however, no animal model of APL has been evaluated for the effect of obesity on disease development, penetrance, or latency. The goal of this research was to interrogate and characterize the impact of obesity on the development of APL so as to provide a murine model for future

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Metformin and GDF15: where are we now?

Kincaid

Coll

2022

Nat Rev Endocrinol

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John W. Kincaid

NAD metabolism in aging and cancer

Obesity accelerates acute promyelocytic leukemia in mice and reduces sex differences in latency and penetrance

Metformin and GDF15: where are we now?

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