Vitamin D receptor: a new risk marker for clinical restenosis after percutaneous coronary intervention

Objective: Restenosis is the main drawback of percutaneous coronary intervention (PCI). Inherited factors may explain part of the risk of restenosis. Recently, the vitamin D receptor (VDR) has been shown to be involved not only in bone metabolism but also in modulating immune responses and cell proliferation. Since the inflammatory response is implicated in restenosis, VDR-gene variants could therefore contribute to the risk of restenosis. Methods/results: Systematic genotyping for 15 haplotype tagging single-nucleotide polymorphisms (SNPs) of the VDR gene was performed with the high throughput TaqMan allelic discrimination assays in the Genetic Determinants of Restenosis (GENDER) population. A haplotype-based survival analysis revealed an association of haplotypes in blocks 2, 3 and 4 of the VDR-gene with the risk of clinical restenosis (p-values 0.01, 0.04 and 0.02 respectively). After adjustment for clinical risk factors for restenosis, the individual effect of the block 2 AA haplotype (p = 0.011) persisted. Conclusions: The present study indicates that VDR plays a role in restenosis after PCI. Therefore, VDR genotype may be used as risk marker for restenosis and may contribute to individual patient screening prior to PCI in clinical practice

Bacteriopheophytin triplet state in Rhodobacter sphaeroides reaction centers

It is well established that photoexcitation of Rhodobacter sphaeroides reaction centers (RC) with reduced quinone acceptors results in the formation of a triplet state localized on the primary electron donor P with a significant yield. The energy of this long-lived and therefore potentially damaging excited state is then efficiently quenched by energy transfer to the RC spheroidenone carotenoid, with its subsequent decay to the ground state by intersystem crossing. In this contribution, we present a detailed transient absorption study of triplet states in a set of mutated RCs characterized by different efficiencies of triplet formation that correlate with lifetimes of the initial charge-separated state P+HA- . On a microsecond time scale, two types of triplet state were detected: in addition to the well-known spheroidenone triplet state with a lifetime of ~4 μs, in some RCs we discovered a bacteriopheophytin triplet state with a lifetime of ~40 μs. As expected, the yield of the carotenoid triplet increased approximately linearly with the lifetime of P+HA-, reaching the value of 42 % for one of the mutants. However, surprisingly, the yield of the bacteriopheophytin triplet was the highest in RCs with the shortest P+HA- lifetime and the smallest yield of carotenoid triplet. For these the estimated yield of bacteriopheophytin triplet was comparable with the yield of the carotenoid triplet, reaching a value of ~7 %. Possible mechanisms of formation of the bacteriopheophytin triplet state are discussed.</p