UCSF

Abstract In primary central nervous system lymphoma (PCNSL), L265P mutation of the myeloid differentiation 88 (MYD88) protein is the most common, and induces a constitutive activation of IRAK4 kinase, IRAK1 phosphorylation and increased NF-kB signaling, offering a unique window for therapeutic development. We previously show that AZ1495, a potent inhibitor of IRAK4, significantly delayed progression and improved OS in L265P-mutated PCNSL models [ASH 2016], highlighting the clinical potential of IRAK inhibition. In the clinic however, early monitoring of such targeted therapies remains challenging using conventional imaging, as treatment often results in non-readily detectable anatomical changes. Here, we questioned the potential of a new neuroimaging method, hyperpolarized 13C magnetic resonance spectroscopic imaging (HP-13C MRSI), to non-invasively monitor IRAK inhibition in PCNSL for the first time. Two PCNSL patient-derived xenografts models were studied: one harboring the L265P MYD88 mutation (MYD88mut), and the other, wild type for this protein (MYD88wt). Using HP-13C MRSI, a high production of HP [1-13C] lactate was detected in both MYD88wt and MYD88mut (0.5 ± 0.04, n=2 MYD88wt; 0.61 ± 0.2, n=4 MYD88mut), indicating PCNSL presence throughout the brain. At day 2 and 4 of AZ1495 treatment, the HP [1-13C] lactate-to-pyruvate ratio remains unchanged in MYD88wt animals at all treatment time points (p=0.29 and p=0.29 at day 2 and 4 when compared to baseline, respectively) On the other hand, this ratio significantly decreased in MYD88mut animals at all time points (36.6% at day 2, p=0.07 and 56.3% at day 4, p=0.0006), in line with the previously reported effect of AZ1495 treatment on MYD88mut PCNSL only. To conlude, we showed that HP-13C MRSI can detect MYD88-mutation-specific modulations of HP lactate production following IRAK inhibition. Because HP-13C MRSI is clinically translatable and expanding rapidly, this study is of high significance for future clinical trials, to enhance monitoring of PCNSL progression and response of targeted therapies.