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Tetrahydrobiopterin: Beyond Its Traditional Role as a Cofactor

Tuany Eichwald, Lucila de Bortoli da Silva, Ananda Staats Pires, Laís Niero, Erick Schnorrenberger, Clóvis Colpani Filho, Gisele Espíndola, Weilin Huang, Gilles J. Guillemin, José E. Abdenur, Alexandra Latini

2023Antioxidants83 citationsDOIOpen Access PDF

Abstract

Tetrahydrobiopterin (BH4) is an endogenous cofactor for some enzymatic conversions of essential biomolecules, including nitric oxide, and monoamine neurotransmitters, and for the metabolism of phenylalanine and lipid esters. Over the last decade, BH4 metabolism has emerged as a promising metabolic target for negatively modulating toxic pathways that may result in cell death. Strong preclinical evidence has shown that BH4 metabolism has multiple biological roles beyond its traditional cofactor activity. We have shown that BH4 supports essential pathways, e.g., to generate energy, to enhance the antioxidant resistance of cells against stressful conditions, and to protect from sustained inflammation, among others. Therefore, BH4 should not be understood solely as an enzyme cofactor, but should instead be depicted as a cytoprotective pathway that is finely regulated by the interaction of three different metabolic pathways, thus assuring specific intracellular concentrations. Here, we bring state-of-the-art information about the dependency of mitochondrial activity upon the availability of BH4, as well as the cytoprotective pathways that are enhanced after BH4 exposure. We also bring evidence about the potential use of BH4 as a new pharmacological option for diseases in which mitochondrial disfunction has been implicated, including chronic metabolic disorders, neurodegenerative diseases, and primary mitochondriopathies.

Topics & Concepts

TetrahydrobiopterinCofactorMitochondrionBiopterinMetabolic pathwayBiochemistryChemistryNitric oxideIntracellularNeurodegenerationEnzymeCell biologyBiologyMedicineInternal medicineDiseaseOrganic chemistryMetabolism and Genetic DisordersMitochondrial Function and PathologyNitric Oxide and Endothelin Effects
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