This in vitro study demonstrates that the mycotoxin deoxynivalenol (DON) causes severe renal cell damage primarily through PARP1 hyperactivation and consequent NAD+ depletion, rather than through NAMPT inhibition as previously thought. Nicotinamide (NAM) successfully rescued cells by suppressing PARP1 activity and restoring NAD+ pools, while NMN supplementation alone did not protect against DON toxicity. The findings suggest that NAD+ restoration strategies targeting PARP1 inhibition may offer therapeutic value for mycotoxin exposure, relevant to practitioners considering NAD+-supporting interventions for clients with food safety concerns or oxidative stress conditions.
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In vitro data suggest NMN alone may not counter mycotoxin-driven NAD+ depletion; PARP1 inhibition appears key when oxidative stress overwhelms NAD+ synthesis.