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Nicotinamide Mononucleotide (NMN): Difference between revisions
Nicotinamide Mononucleotide (NMN) (view source)
Revision as of 16:46, 2 December 2023
, 2 December 2023→Controversy about NMN as Direct Precursor
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== Controversy about NMN as Direct Precursor == | == Controversy about NMN as Direct Precursor == | ||
NMN is often advertiezed, e.g. by NMN suppliers, that NMN is a direct precursor to NAD+ that thus be more effective compared to other precursors like '''Nicotinamide Riboside (NR)'''. However, NMN's role as a direct precursor is effective only when it is '''inside the cell'''. This raises questions about how NMN, when ingested or administered externally, enters the cell to contribute to NAD+ synthesis. The central controversy surrounding NMN as a precursor to NAD+ lies in its mechanism of cellular entry. While NMN is a direct precursor of NAD+ within the cell, the debate focuses on whether NMN can be directly absorbed by cells or if it must first be converted to NR. In that case, NR would hold an edge over NMN because NR would need on conversion less compared to NMN. | |||
=== Direct Transport Mechanism === | === Direct Transport Mechanism === | ||
One hypothesis is that NMN can directly enter cells through specific transporters. The ''Slc12a8'' transporter in the aged mouse ileum is an example, suggested to facilitate NMN's direct absorption<ref name="ref160"> | One hypothesis is that NMN can directly enter cells through specific transporters. The ''Slc12a8'' transporter in the aged mouse ileum is an example, suggested to facilitate NMN's direct absorption<ref name="ref160">{{pmid|31131364}}</ref>. However, this notion has faced challenges due to conflicting research findings<ref name="ref161">[Source 161]</ref><ref name="ref162">[Source 162]</ref>, and the functionality of ''Slc12a8'' in humans is yet to be conclusively determined. | ||
=== Dephosphorylation to NR as a Precursor === | === Dephosphorylation to NR as a Precursor === | ||