TY - JOUR
T1 - Mutation of the Plasmodium falciparum Flavokinase Confers Resistance to Roseoflavin and 8-Aminoriboflavin
AU - Hemasa, Ayman
AU - Spry, Christina
AU - Mack, Matthias
AU - Saliba, Kevin J.
N1 - Publisher Copyright:
© 2024 American Chemical Society.
PY - 2024/6/26
Y1 - 2024/6/26
N2 - The riboflavin analogues, roseoflavin and 8-aminoriboflavin, inhibit malaria parasite proliferation by targeting riboflavin utilization. To determine their mechanism of action, we generated roseoflavin-resistant parasites by in vitro evolution. Relative to wild-type, these parasites were 4-fold resistant to roseoflavin and cross-resistant to 8-aminoriboflavin. Whole genome sequencing of the resistant parasites revealed a missense mutation leading to an amino acid change (L672H) in the gene coding for a putative flavokinase (PfFK), the enzyme responsible for converting riboflavin into the cofactor flavin mononucleotide (FMN). To confirm that the L672H mutation is responsible for the phenotype, we generated parasites with the missense mutation incorporated into the PfFK gene. The IC50 values for roseoflavin and 8-aminoriboflavin against the roseoflavin-resistant parasites created through in vitro evolution were indistinguishable from those against parasites in which the missense mutation was introduced into the native PfFK. We also generated two parasite lines episomally expressing GFP-tagged versions of either the wild-type or mutant forms of PfFK. We found that PfFK-GFP localizes to the parasite cytosol and that immunopurified PfFK-GFP phosphorylated riboflavin, roseoflavin, and 8-aminoriboflavin. The L672H mutation increased the KM for roseoflavin, explaining the resistance phenotype. Mutant PfFK is no longer capable of phosphorylating 8-aminoriboflavin, but its antiplasmodial activity against resistant parasites can still be antagonized by increasing the extracellular concentration of riboflavin, consistent with it also inhibiting parasite growth through competitive inhibition of PfFK. Our findings, therefore, are consistent with roseoflavin and 8-aminoriboflavin inhibiting parasite proliferation by inhibiting riboflavin phosphorylation and via the generation of toxic flavin cofactor analogues.
AB - The riboflavin analogues, roseoflavin and 8-aminoriboflavin, inhibit malaria parasite proliferation by targeting riboflavin utilization. To determine their mechanism of action, we generated roseoflavin-resistant parasites by in vitro evolution. Relative to wild-type, these parasites were 4-fold resistant to roseoflavin and cross-resistant to 8-aminoriboflavin. Whole genome sequencing of the resistant parasites revealed a missense mutation leading to an amino acid change (L672H) in the gene coding for a putative flavokinase (PfFK), the enzyme responsible for converting riboflavin into the cofactor flavin mononucleotide (FMN). To confirm that the L672H mutation is responsible for the phenotype, we generated parasites with the missense mutation incorporated into the PfFK gene. The IC50 values for roseoflavin and 8-aminoriboflavin against the roseoflavin-resistant parasites created through in vitro evolution were indistinguishable from those against parasites in which the missense mutation was introduced into the native PfFK. We also generated two parasite lines episomally expressing GFP-tagged versions of either the wild-type or mutant forms of PfFK. We found that PfFK-GFP localizes to the parasite cytosol and that immunopurified PfFK-GFP phosphorylated riboflavin, roseoflavin, and 8-aminoriboflavin. The L672H mutation increased the KM for roseoflavin, explaining the resistance phenotype. Mutant PfFK is no longer capable of phosphorylating 8-aminoriboflavin, but its antiplasmodial activity against resistant parasites can still be antagonized by increasing the extracellular concentration of riboflavin, consistent with it also inhibiting parasite growth through competitive inhibition of PfFK. Our findings, therefore, are consistent with roseoflavin and 8-aminoriboflavin inhibiting parasite proliferation by inhibiting riboflavin phosphorylation and via the generation of toxic flavin cofactor analogues.
KW - 8-aminoriboflavin
KW - Flavokinase
KW - Mechanism of action
KW - Plasmodium falciparum
KW - Riboflavin
KW - Roseoflavin
UR - http://www.scopus.com/inward/record.url?scp=85197509733&partnerID=8YFLogxK
U2 - 10.1021/acsinfecdis.4c00289
DO - 10.1021/acsinfecdis.4c00289
M3 - Article
C2 - 38920250
AN - SCOPUS:85197509733
SN - 2373-8227
VL - 10
SP - 2939
EP - 2949
JO - ACS Infectious Diseases
JF - ACS Infectious Diseases
IS - 8
ER -