Hinrichsenbreen0513
CD8 T cells are among the most vigorous soldiers of the immune system that fight viral infections and cancer. CD8 T cell development, maintenance, activation and differentiation are under the tight control of multiple transcriptional and post-transcriptional networks. Over the last two decades it has become clear that non-coding RNAs (ncRNAs), which consist of microRNAs (miRNAs) and long ncRNAs (lncRNAs), have emerged as global biological regulators. While our understanding of the function of specific miRNAs has increased since the discovery of RNA interference, it is still very limited, and the field of lncRNAs is just starting to blossom. Here we will summarize our knowledge on the role of ncRNAs in CD8 T cell biology, including differentiation into memory and exhausted cells. Patients with Alport syndrome (AS) exhibit blood and elevated protein levels in their urine, inflamed kidneys, and many other abnormalities. AS is attributed to mutations in type IV collagen genes, particularly glycine missense mutations in the collagenous domain of COL4A5 that disrupt common structural motifs in collagen from the repeat (Gly-Xaa-Yaa)n amino acid sequence. To characterize and elucidate the molecular mechanisms underlying how AS-related mutations perturb the structure and function of type IV collagen, experimental studies and molecular simulations were integrated to investigate the structure, stability, protease sensitivity, and integrin binding affinity of collagen-like proteins containing amino acid sequences from the α5(IV) chain and AS-related Gly missense mutations. We show adverse effects where (i) three AS-related Gly missense mutations significantly reduced the structural stability of the collagen in terms of decreased melting temperatures and calorimetric enthalpies, in conjunction with a collective drop in the external work needed to unfold the peptides containing mutation sequences; (ii) due to local unwinding around the sites of mutations, these triple helical peptides were also degraded more rapidly by trypsin and chymotrypsin, as these enzymes could access the collagenous triple helix more easily and increase the number of contacts; (iii) the mutations further abolished the ability of the recombinant collagens to bind to integrins and greatly reduced the binding affinities between collagen and integrins, thus preventing cells from adhering to these mutants. Our unified experimental and computational approach provided underlying insights needed to guide potential therapies for AS that ameliorate the adverse effects from AS disease onset and progression. Photodynamic therapy (PDT) can destroy local tumor cells and induce effective antitumor immune responses, and has been applied in the treatment of patients with superficial solid tumors. Numerous systemic side effects of PDT, such as pain and skin photosensitivity, however, limit this therapeutic option. In addition, the immunosuppressive tumor microenvironment has been found to be another critical barrier for the antitumor immunity induced by PDT. Therefore, effectively enhancing the cytotoxicity to tumor cells of low-dose PDT and inhibiting the tumor immunosuppressive tumor microenvironment may be a feasible strategy to overcome these drawbacks of PDT. Here, a sorafenib and chlorin e6 co-loaded reactive oxygen species (ROS)-responsive nanoparticle (NP-sfb/ce6) is developed to improve antitumor responses by intratumoral release of sorafenib at the time of PDT. Under 660-nm laser irradiation, ROS produced by chlorin e6 (ce6) destruct the nanoparticles, resulting in boosted sorafenib cascade release. The rapidly released sorafenib acts synergistically with the low-dose PDT to inhibit tumor growth by inducing strong T cell-dependent local and systemic antitumor immune responses, reprograming the tumor immune microenvironment, and limiting the interaction between cytotoxic CD8+ T cells and immunosuppressive cells. This study provides new avenues for cascade-amplifying antitumor effects of photodynamic therapy. Among sake yeast strains, Kyokai no. VE-822 7 (K7) and its closely related strains (K7 group) are predominantly used because of their excellent brewing properties. In the sake industrial sector, the need for various types of yeast strains is high. Although crossbreeding is an effective method for generating genetic diversity that should result in diverse characteristics, most K7 group strains lack normal sporulation ability, including the ability to undergo meiotic chromosomal recombination, which leads to difficulties in crossbreeding. Accordingly, the improvement of sake yeast strains primarily depends on mutagenesis and suitable selection in a stepwise manner. Our recent study revealed that the long-preserved sake yeast strain Hiroshima no. 6 (H6) does not belong to the K7 group despite genetically being extremely similar. In addition, H6 exhibited normal sporulation. Thus, we isolated haploid cells from H6 and mated them with previously isolated haploid cells of K7 group strains. The crossbred diploid strains had normal sporulation ability; hence, we performed tetrad analysis. The brewing characteristics of the obtained haploid set were extremely diverse. Principal component analysis based on the volatile and organic acid components measured using small-scale sake brewing tests revealed that the haploid strains derived from each diploid strain displayed a characteristic distribution. Thus, we demonstrated the availability of genetic crossbreeding using H6 with sporulation ability to facilitate both the development of novel sake yeast strains with many desirable characteristics and analyses of the function of sake yeast. BACKGROUND This study was performed to investigate the arterial and venous anatomy of superficial inferior epigastric artery (SIEA) flaps using multidetector-row computed tomography angiography (MDCTA). We hypothesized that applicability of the SIEA flap has been underestimated in previous studies. METHODS We retrospectively analyzed the results of preoperative MDCTA of the bilateral lower abdominal walls in 72 consecutive patients. We assessed the presence and branching pattern of the superficial inferior epigastric artery, superficial inferior epigastric vein (SIEV), superficial circumflex iliac vein, and venae comitantes (VC) of the superficial inferior epigastric artery. We also assessed the internal diameter of the SIEA at its origin. RESULTS The SIEA was present on 133 sides (92.4%), and the mean internal diameter was 2.0 mm. The internal diameter of the SIEA was ≥2.0 mm on 102 sides (70.8%). The VC drained into the superficial circumflex iliac vein on 68 sides (47.2%) and to the SIEV on 30 sides (20.8%).