IMAJ | volume 21
Journal 5, May 2019
pages: 333-338
Summary
Background:
Methotrexate is the most frequently administered first-line treatment for rheumatoid arthritis (RA). The disease-modifying effects of methotrexate are mainly associated with enhanced release of free adenosine. The downstream anti-inflammatory effects of adenosine are mediated via its binding to adenosine receptor 2A (ADORA2A) and 3 (ADORA3). Many clinically important single nucleotide polymorphisms (SNPs) were reported in
ADORA2A and
ADORA3 genes.
Objectives:
To investigate whether tagging
ADORA2A and
ADORA3 polymorphisms influences methotrexate treatment in RA.
Methods:
In total, 212 RA patients treated with methotrexate were genotyped for tagging
ADORA2A (rs2298383, rs8141793, rs2236624, rs5751876, rs35320474, and rs17004921) and
ADORA3 SNPs (rs2298191, rs1544223, rs78594984, rs35511654, rs2229155, rs3393, and rs3394).
Results:
RA patients who carried
ADORA3 rs35511654 G allele showed a tendency toward better response to methotrexate treatment (
P = 0.054). Carriers of
ADORA2A polymorphic allele rs2298383 (
P = 0.011), rs2236624 (
P = 0.027), rs5751876 (
P = 0.018), and rs35320474 (
P = 0.026) were less likely to experience methotrexate induced adverse events. All associations remained significant after adjustment for clinical factors. The effects of these polymorphisms were also significant in haplotype analyses.
Conclusions:
Polymorphisms in the
ADORA2A gene may influence methotrexate treatment response and may be considered as a potential biomarker for methotrexate treatment in rheumatoid arthritis.