Abstract
Complete expression loss of S-methyl-5'-thioadenosine phosphorylase (MTAP) is caused by homozygous 9p21 deletion and results in a critical vulnerability of cancer cells towards drugs targeting multiple different pathways. MTAP deficiency is common in urothelial cancer, but data on its intratumoral heterogeneity-a potential obstacle for targeted therapies-are lacking. To study the heterogeneity of MTAP expression loss and 9p21 deletions in advanced primary urothelial cancers of the urinary bladder, a tissue microarray (TMA) composed of five different tissue spots from different tissue blocks of 105 pT2-4 urothelial carcinomas was analyzed by immunohistochemistry (IHC) and fluorescence in-situ hybridization (FISH). In addition, all tumor containing blocks (1-15, average 6.4) from 41 consecutive pT2-4 carcinomas were analyzed by IHC. Complete absence of MTAP staining (MTAP deficiency) was seen in 34.2% of 385 interpretable TMA samples. All 80 samples with a complete MTAP expression loss and FISH data had a homozygous 9p21 deletion while there were no cases with homozygous deletions within 178 samples with retained MTAP expression (100% FISH/IHC concordance). On a patient level, there was a homogeneous MTAP deficiency in 33%, a heterogeneous MTAP deficiency in 1%, and a retained MTAP expression in 66% of the 98 tumors with at least three interpretable TMA samples. Among 41 consecutive pT2-4 carcinomas from which 1-15 (average 6.4) whole sections were analyzed, MTAP was homogeneously deficient in 34.1%, heterogeneously deficient in 4.9% and homogeneously retained in 61.0%. MTAP deficiency is mostly homogeneous in advanced urothelial carcinoma. MTAP IHC is a near perfect surrogate for the detection of homozygous 9p21 (MTAP) deletions. Drugs targeting MTAP deficiency could be highly useful in a relevant subset of invasive urothelial bladder cancers.