This DE CT virtual noncalcium technique can subtract calcium from cancellous bone, allowing bone marrow assessment and potentially making posttraumatic bone bruises of the knee detectable with CT.
Regulatory myeloid immune cells, such as myeloid-derived suppressor cells (MDSCs), populate inflamed or cancer tissue and block immune cell effector functions. Lack of mechanistic insight 54 into MDSC suppressive activity and a marker for their identification hampered attempts to 55 overcome T cell-inhibition and unleash anti-cancer immunity. Here we report that human MDSCs 56 were characterized by strongly reduced metabolism and conferred this compromised metabolic 57 state to CD8 + T cells thereby paralyzing their effector functions. We identified accumulation of the dicarbonyl-radical methylglyoxal, generated by semicarbazide-sensitive amine oxidase (SSAO), to cause the metabolic phenotype of MDSCs and MDSC-mediated paralysis of CD8 + T cells. In a murine cancer model, neutralization of dicarbonyl-activity overcame MDSC-mediated T cell-suppression and together with checkpoint inhibition improved efficacy of cancer immune therapy. Our results identify the dicarbonyl methylglyoxal as marker metabolite for MDSCs that mediates T cell paralysis and can serve as target to improve cancer immune therapy.
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Dormant metabolic phenotype in MDSCs 93Suppressive myeloid cells arise during chronic inflammation in tissues 17 , and tissue stromal cells 94 induce transition of monocytes into monocytic MDSCs 16 . We exploited this capacity of stromal cells to convert human peripheral blood monocytes into MDSCs, which are phenotypically similar 96 to CD14 + HLA-DR -/low suppressive myeloid cells directly isolated from cancer patients 16 , to characterize the mechanism of MDSC-mediated T cell suppression. Transcriptome analysis showed less than 200 differentially expressed genes between MDSCs and monocytes, which did not include surface molecules suitable for phenotypic discrimination or known immune suppressive mediators to explain their suppressive activity (supplementary table I-IV, Extended Data Fig. 1). Consistently, blockade of known immune suppressive mediators did not prevent MDSC-mediated T cell suppression (Extended Data Fig. 2). Surprisingly, we found downregulation of genes encoding glycolysis-related enzymes in MDSCs (Fig. 1a, and Extended Data Table V).Indeed, MDSCs showed reduced glucose uptake and Glut1 surface expression (Fig. 1b), the main transporter mediating glucose uptake in immune cells. As predicted from gene expression analysis, hexokinase activity was lower in MDSCs (Fig. 1c). To validate these results, we isolated CD14 + HLA-DR -/lo cells from tumor tissue of patients with hepatocellular carcinoma by enzymatic digestion followed by density centrifugation and flow cytometric cell sorting. We confirmed reduced glucose uptake and hexokinase activity in CD14 + HLA-DR -/low cells isolated from tumor tissue of cancer patients (Fig. 1d,e, and Extended Data Table VI), which are considered to represent MDSCs. Strikingly, MDSCs failed to utilize glucose for glycolysis and also showed reduced cellular bioenergetics, i.e. lower mitochondrial membrane potential quantified by the potentiometric mitochondrial ...
Allosteric information transfer in proteins has been linked to distinct vibrational energy transfer (VET) pathways in an umber of theoretical studies.E xperimental evidence for such pathways, however,i ss parse because site-selective injection of vibrational energy into aprotein, that is,localized heating,isrequired for their investigation. Here,wesolved this problem by the site-specific incorporation of the non-canonical amino acid b-(1-azulenyl)-l-alanine (AzAla) through genetic code expansion. As an exception to Kashasr ule,A zAla undergoes ultrafast internal conversion and heating after S 1 excitation while upon S 2 excitation, it serves as af luorescent label. We equipped PDZ3, ap rotein interaction domain of postsynaptic density protein 95, with this ultrafast heater at two distinct positions.W eindeed observed VET from the incorporation sites in the protein to ab ound peptide ligand on the picosecond timescale by ultrafast IR spectroscopy. This approach based on genetically encoded AzAla paves the way for detailed studies of VET and its role in aw ide range of proteins. Dr.J .Jaric Present address:H ospira Zagreb d.o.o.,aPfizer company Prudnicka cesta 60, 10291 Prigorje Brdovecko (Croatia) [ + + ]T hese authors contributed equally to this work. Supportinginformation and the ORCID identification number(s) for the author(s) of this article can be found under: https://doi.
Marine mussels exhibit potent underwater adhesion abilities under hostile conditions by employing 3,4-dihydroxyphenylalanine (DOPA)-rich mussel adhesive proteins (MAPs). However, their recombinant production is a major biotechnological challenge. Herein, a novel strategy based on genetic code expansion has been developed by engineering efficient aminoacyl-transfer RNA synthetases (aaRSs) for the photocaged noncanonical amino acid ortho-nitrobenzyl DOPA (ONB-DOPA). The engineered ONB-DOPARS enables in vivo production of MAP type 5 site-specifically equipped with multiple instances of ONB-DOPA to yield photocaged, spatiotemporally controlled underwater adhesives. Upon exposure to UV light, these proteins feature elevated wet adhesion properties. This concept offers new perspectives for the production of recombinant bioadhesives.
Owing to the LSG procedure, the stomach is functionally divided into a sleeve without propulsive peristalsis and an accelerated antrum. Accelerated emptying seems to be caused by faster peristaltic folds.
SummarySIRT6 is a NAD + -dependent deacetylase that modulates chromatin structure and safeguards genomic stability. Until now, SIRT6 has been assigned to the nucleus and only nuclear targets of SIRT6 are known. Here, we demonstrate that in response to stress, C. elegans SIR-2.4 and its mammalian orthologue SIRT6 localize to cytoplasmic stress granules, interact with various stress granule components and induce their assembly. Loss of SIRT6 or inhibition of its catalytic activity in mouse embryonic fibroblasts impairs stress granule formation and delays disassembly during recovery, whereas deficiency of SIR-2.4 diminishes maintenance of P granules and decreases survival of C. elegans under stress conditions. Our findings uncover a novel, evolutionary conserved function of SIRT6 in the maintenance of stress granules in response to stress.
Multislice computed tomography allows for a comprehensive and quantitative evaluation of the anatomy after LSG and thus provides new insights in the process of sleeve dilation. Intrathoracic migration of the staple line could be identified as a possible cause of persistent regurgitation.
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