Tumor-associated macrophages (TAMs) are frequently found in glioblastomas and a high degree of macrophage infiltration is associated with a poor prognosis for glioblastoma patients. However, it is unclear whether TAMs in glioblastomas promote tumor growth. In this study, we found that folate receptor beta (FR beta) was expressed on macrophages in human glioblastomas and a rat C6 glioma implanted subcutaneously in nude mice. To target FR beta-expressing TAMs, we produced a recombinant immunotoxin consisting of immunoglobulin heavy and light chain Fv portions of an anti-mouse FR beta monoclonal antibody and Pseudomonas exotoxin A. Injection of the immunotoxin into C6 glioma xenografts in nude mice significantly depleted TAMs and reduced tumor growth. The immunotoxin targeting FR beta-expressing macrophages will provide a therapeutic tool for human glioblastomas.
Tissue regeneration and transplantation of solid organs involve complex processes that can only be studied in the context of the living organism, and methods of analyzing these processes in vivo are essential for development of effective transplantation and regeneration procedures. We utilized in vivo bioluminescence imaging (BLI) to noninvasively visualize engraftment, survival, and rejection of transplanted tissues from a transgenic donor mouse that constitutively expresses luciferase. Dynamic early events of hematopoietic reconstitution were accessible and engraftment from as few as 200 transplanted whole bone marrow (BM) cells resulted in bioluminescent foci in lethally irradiated, syngeneic recipients. The transplantation of autologous pancreatic Langerhans islets and of allogeneic heart revealed the tempo of transplant degeneration or immune rejection over time. This imaging approach is sensitive and reproducible, permits study of the dynamic range of the entire process of transplantation, and will greatly enhance studies across various disciplines involving transplantation.
The patent false lumen influences postoperative aortic enlargement. However, with careful follow-up, a favorable prognosis is expected even for patients with a residual patent false lumen.
Insulin-like growth factor-1 (IGF-1) promotes myocyte proliferation and can reverse cardiac abnormalities when it is administered in the early fetal stage. Supplementation of a mouse embryonic stem cell (ESC) suspension with IGF-1 might enhance cellular engraftment and host organ-specific differentiation after injection in the area of acute myocardial injury. In the study reported here, we sought to enhance the restorative effect of ESCs in the injured heart by adding IGF-1 to the injected cell population. Green fluorescent protein (GFP)-labeled sv129 ESCs (2.5 ✕ 10 5 ) were injected into the ischemic area after left anterior descending (LAD) artery ligation in BalbC mice. Recombinant mouse IGF-1 (25 ng) was added to the cell suspension prior to the injection (n = 5).
The distribution and M1/M2 expression profiles of FR-β+ synovial macrophages were different between OA and RA synovial tissues. Thus, the findings underscore that the M1/M2 paradigm using surface markers FR-β and CD163 is an oversimplification of macrophage subsets. Functional FR-β present on OA synovial macrophages provides a potential tool for the diagnosis and treatment of OA.
We assessed whether gut microbial functional profiles predicted from 16S rRNA metagenomics differed in Japanese type 2 diabetic patients. A total of 22 Japanese subjects were recruited from our outpatient clinic in an observational study. Fecal samples were obtained from 12 control and 10 type 2 diabetic subjects. 16S rRNA metagenomic data were generated and functional profiles predicted using “Phylogenetic Investigation of Communities by Reconstruction of Unobserved States” software. We measured the parameters of glucose metabolism, gut bacterial taxonomy and functional profile, and examined the associations in a cross-sectional manner. Eleven of 288 “Kyoto Encyclopedia of Genes and Genomes” pathways were significantly enriched in diabetic patients compared with control subjects (p<0.05, q<0.1). The relative abundance of almost all pathways, including the Insulin signaling pathway and Glycolysis/Gluconeogenesis, showed strong, positive correlations with hemoglobin A1c (HbA1c) and fasting plasma glucose (FPG) levels. Bacterial taxonomic analysis showed that genus Blautia significantly differed between groups and had negative correlations with HbA1c and FPG levels. Our findings suggest a novel pathophysiological relationship between gut microbial communities and diabetes, further highlighting the significance and utility of combining prediction of functional profiles with ordinal bacterial taxonomic analysis (UMIN Clinical Trails Registry number: UMIN000026592).
ObjectiveTo investigate the association between serum soluble triggering receptor expressed on myeloid cells 2 (sTREM2), a soluble type of an innate immune receptor expressed on the microglia, and the risk of dementia.MethodsA total of 1,349 Japanese community residents aged 60 and older without dementia were followed prospectively for 10 years (2002–2012). Serum sTREM2 levels were quantified by using an enzyme‐linked immunosorbent assay and divided into quartiles. Cox proportional hazards model was used to estimate the hazard ratios (HRs) of serum sTREM2 levels on the risk of dementia.ResultsDuring the follow‐up, 300 subjects developed all‐cause dementia; 193 had Alzheimer's disease (AD), and 85 had vascular dementia (VaD). The age‐ and sex‐adjusted incidences of all‐cause dementia, AD, and VaD elevated significantly with higher serum sTREM2 levels (all p for trend < 0.012). These associations were not altered after adjustment for confounding factors, including high‐sensitive C‐reactive protein. Subjects with the highest quartile of serum sTREM2 levels had significantly higher multivariable‐adjusted risks of developing all‐cause dementia, AD, and VaD than those with the lowest quartile (HR = 2.03, 95% confidence interval [CI] = 1.39–2.97, p < 0.001 for all‐cause dementia; HR = 1.62, 95% CI = 1.02–2.55, p = 0.04 for AD; HR = 2.85, 95% CI = 1.35–6.02, p = 0.006 for VaD). No significant heterogeneity in the association of serum sTREM2 levels with the development of dementia was observed among the other risk factor subgroups (all p for heterogeneity > 0.11).InterpretationThe present findings suggest a significant association between increased serum sTREM2 levels and the risk of developing all‐cause dementia, AD, and VaD in the general elderly Japanese population. ANN NEUROL 2019;85:47–58.
Cancer is a disease of genetic defects such as gene mutations and deletions as well as chromosomal abnormalities, which together result in the gain of function or hyperactivation of oncogenes, or the loss of function of tumor suppressor genes. Recent evidence indicates, however, that changes in gene expression attributable to epigenetic alterations also contribute to the onset and progression of cancer.(1,2) Remodeling of chromatin between relatively open and closed states plays a key role in the epigenetic regulation of gene expression. Such remodeling is induced by modification of the structure of nucleosomes, which consist of approximately two turns of the DNA helix wound around a histone octamer. Regulation of nucleosome structure is mediated in part by modification of the amino-terminal tail of histones.(3) Acetylation of histones (in particular, histones H3 and H4), which is determined by the opposing activities of histone acetyltransferases (HAT) and histone deacetylases (HDAC), is central to the regulation of gene expression through chromatin modification.(4) HAT transfer acetyl groups to lysine residues in the amino-terminal tail of histones, resulting in local expansion of chromatin and increased accessibility of the DNA to regulatory proteins, whereas HDAC catalyze the removal of acetyl groups, leading to chromatin condensation and transcriptional repression. (6 -8) Reduced levels of histone acetylation as a result of aberrant HDAC activity have thus been detected in several human tumors and appear to trigger repression of tumor suppressor genes and to contribute to tumor onset and progression. (9) Specific inhibition of HDAC activity has therefore emerged as a potential strategy to reverse epigenetic changes associated with cancer. Several small-molecule HDAC inhibitors have recently been shown to exhibit potent and specific anticancer activity in preclinical studies. (10)(11)(12)(13)(14) Multiple mechanisms have been proposed for the anticancer activity of HDAC inhibitors, which include the enhanced acetylation of core histones and consequent increased accessibility of genomic DNA to transcriptional complexes, resulting in the induction of tumor suppressor genes.(10,15) The hyper-acetylation of histones induced by the HDAC inhibitor trichostatin A (TSA) has been shown to increase chromatin accessibility by measurement of the size-dependent nuclear distribution of microinjected fluorescein isothiocyanate-dextran conjugates with the use of image-correlation spectroscopy.(16) Such an HDAC inhibitorinduced relaxation of chromatin structure would be expected to increase chromatin accessibility not only to transcription factors but also to therapeutic agents that target genomic DNA. Consistent with this notion, HDAC inhibitors have been shown to sensitize tumor cells to the induction of cell death by ionizing radiation, (17,18) ultraviolet (UV) radiation, (19) and several DNA-damaging drugs. (20,21) The molecular mechanisms of such effects have remained largely unknown.Anticancer drugs that induce DNA dam...
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