65 research outputs found
Prognostic assessment of 1310 patients with non–small-cell lung cancer who underwent complete resection from 1980 to 1993
AbstractObjective: The TNM staging system of lung cancer is widely used as a guide for estimating prognosis and selecting treatment modality. In 1997, the International Union Against Cancer and the American Joint Committee on Cancer have adopted a revised stage grouping for lung cancer. However, the validity of the new stage grouping has not been fully established. We investigated the prognoses of patients who had resection of non–small-cell lung cancer to confirm the validity of the revised classification. Methods: A total of 1310 patients with non–small-cell lung cancer underwent complete resection and pathologic staging of the disease in our hospitals from 1980 through 1993. A pulmonary resection was performed with a systematic nodal dissection. The survivals were calculated with the Kaplan-Meier method on the basis of overall deaths, and the survival curves were compared by log rank test. Results: There were significant differences in survival between patients with T1 N0 M0 and T2 N0 M0 disease and between those with T1 N1 M0 and T2 N1 M0 disease. However, there was no significant difference between patients with T2 N0 M0 disease and those with T1 N1 M0 disease. No significant difference in survival was observed among patients with T2 N1 M0, T3 N0 M0, and T3 N1 M0 cancer. Patients with different invaded organs of T3 subdivision (pleura, chest wall, pericardium, or diaphragm) had a different prognosis. There was no significant difference between patients with T3 N2 M0 disease and those with stage IIIB disease. Conclusions: We supported most of the revision, such as dividing stage I, dividing stage II, and putting T3 N0 M0 to stage IIB. Furthermore, we found some candidates for a subsequent revision, such as putting T3 N1 M0 to stage IIB, putting T2 N0 M0 and T1 N1 M0 together, regarding diaphragm invasion as T4, and putting T3 N2 M0 to stage IIIB. (J Thorac Cardiovasc Surg 1998;116:407-11
Osteocrin ameliorates adriamycin nephropathy via p38 mitogen-activated protein kinase inhibition
Natriuretic peptides exert multiple effects by binding to natriuretic peptide receptors (NPRs). Osteocrin (OSTN) binds with high affinity to NPR-C, a clearance receptor for natriuretic peptides, and inhibits degradation of natriuretic peptides and consequently enhances guanylyl cyclase-A (GC-A/NPR1) signaling. However, the roles of OSTN in the kidney have not been well clarified. Adriamycin (ADR) nephropathy in wild-type mice showed albuminuria, glomerular basement membrane changes, increased podocyte injuries, infiltration of macrophages, and p38 mitogen-activated protein kinase (MAPK) activation. All these phenotypes were improved in OSTN- transgenic (Tg) mice and NPR3 knockout (KO) mice, with no further improvement in OSTN-Tg/NPR3 KO double mutant mice, indicating that OSTN works through NPR3. On the contrary, OSTN KO mice increased urinary albumin levels, and pharmacological blockade of p38 MAPK in OSTN KO mice ameliorated ADR nephropathy. In vitro, combination treatment with ANP and OSTN, or FR167653, p38 MAPK inhibitor, reduced Ccl2 and Des mRNA expression in murine podocytes (MPC5). OSTN increased intracellular cyclic guanosine monophosphate (cGMP) in MPC5 through GC-A. We have elucidated that circulating OSTN improves ADR nephropathy by enhancing GC-A signaling and consequently suppressing p38 MAPK activation. These results suggest that OSTN could be a promising therapeutic agent for podocyte injury
Staging of brain and liver function in brain death by non-invasive MR method utilizing stable isotope.
科学研究費補助金研究成果報告書研究種目: 基盤研究(A)研究期間: 1995~1997課題番号: 07408028研究代表者: 犬伏 俊郎(滋賀医科大学・分子神経生物学研究センター・教授)研究分担者: 小澤 和惠(滋賀医科大学・医学部・学長)研究分担者: 小玉 正智(滋賀医科大学・医学部・教授)研究分担者: 半田 譲二(滋賀医科大学・医学部・副学長)研究分担者: 森川 茂広(滋賀医科大学・分子神経生物学研究センター・助教授
Development of highly sensitive ^<13>C MR system for simultaneous evaluation of brain and liver function in brain death
科学研究費補助金研究成果報告書研究種目: 基盤研究(A)研究期間: 1994~1996課題番号: 06557145研究代表者: 犬伏 俊郎(滋賀医科大学・分子神経生物学研究センター・教授)研究分担者: 小澤 和惠(滋賀医科大学・医学部・副学長)研究分担者: 小玉 正智(滋賀医科大学・医学部・教授)研究分担者: 半田 譲二(滋賀医科大学・医学部・教授)研究分担者: 森川 茂広(滋賀医科大学・分子神経科学研究センター・助教授
Lovastatin insensitive 1, a novel pentatricopeptide repeat protein, is a potential regulatory factor of isoprenoid biosynthesis in Arabidopsis
Higher plants have two metabolic pathways for isoprenoid biosynthesis: the cytosolic mevalonate (MVA) pathway and the plastidal non-mevalonate (MEP) pathway. Despite the compartmentalization of these two pathways, metabolic flow occurs between them. However, little is known about the mechanisms that regulate the two pathways and the metabolic cross-talk. To identify such regulatory mechanisms, we isolated and characterized the Arabidopsis T-DNA insertion mutant lovastatin insensitive 1 (loi1), which is resistant to lovastatin and clomazone, inhibitors of the MVA and MEP pathways, respectively. The accumulation of the major products of these pathways, i.e. sterols and chlorophyll, was less affected by lovastatin and clomazone, respectively, in loi1 than in the wild type. Furthermore, the 3-hydroxy-3-methylglutaryl coenzyme A reductase (HMGR) activity analysis showed higher activity of HMGR in loi1-1 treated with lovastatin than that in the WT. We consider that the lovastatin-resistant phenotype of loi1-1 was derived from this post-transcriptional up-regulation of HMGR. The LOI1 gene encodes a novel pentatricopeptide repeat (PPR) protein. PPR proteins are thought to regulate the expression of genes encoded in organelle genomes by post-transcriptional regulation in mitochondria or plastids. Our results demonstrate that LOI1 is predicted to localize in mitochondria and has the ability to bind single-stranded nucleic acids. Our investigation revealed that the post-transcriptional regulation of mitochondrial RNA may be involved in isoprenoid biosynthesis in both the MVA and MEP pathways.Peer reviewe
Chronic Cigarette Smoke Causes Oxidative Damage and Apoptosis to Retinal Pigmented Epithelial Cells in Mice
The purpose of this study was to determine whether mice exposed to chronic cigarette smoke develop features of early age-related macular degeneration (AMD). Two month old C57Bl6 mice were exposed to either filtered air or cigarette smoke in a smoking chamber for 5 h/day, 5 days/week for 6 months. Eyes were fixed in 2.5% glutaraldehyde/2% paraformaldehyde and examined for ultrastructural changes by transmission electron microscopy. The contralateral eye was fixed in 2% paraformaldehyde and examined for oxidative injury to the retinal pigmented epithelium (RPE) by 8-oxo-7,8-dihydro-2′-deoxyguanosine (8-OHdG) immunolabeling and apoptosis by TUNEL labeling. Mice exposed to cigarette smoke had immunolabeling for 8-OHdG in 85±3.7% of RPE cells counted compared to 9.5±3.9% in controls (p<0.00001). Bruch membrane was thicker in mice exposed to smoke (1086±332 nm) than those raised in air (543±132 nm; p = 0.0069). The two most pronounced ultrastructural changes (severity grading scale from 0–3) seen were a loss of basal infoldings (mean difference in grade = 1.98; p<0.0001), and an increase in intracellular vacuoles (mean difference in grade = 1.7; p<0.0001). Ultrastructural changes to Bruch membrane in cigarette-smoke exposed mice were smaller in magnitude but consistently demonstrated significantly higher grade injury in cigarette-exposed mice, including basal laminar deposits (mean difference in grade = 0.54; p<0.0001), increased outer collagenous layer deposits (mean difference in grade = 0.59; p = 0.002), and increased basal laminar deposit continuity (mean difference in grade = 0.4; p<0.0001). TUNEL assay showed a higher percentage of apoptotic RPE from mice exposed to cigarette smoke (average 8.0±1.1%) than room air (average 0±0%; p = 0.043). Mice exposed to chronic cigarette smoke develop evidence of oxidative damage with ultrastructural degeneration to the RPE and Bruch membrane, and RPE cell apoptosis. This model could be useful for studying the mechanism of smoke induced changes during early AMD
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Beyond SAHF: an integrative view of chromatin compartmentalization during senescence
Cellular senescence, a persistent form of cell cycle arrest, has been linked to the formation of heterochromatic foci, accompanied by additional concentric epigenetic layers. However, senescence is a highly heterogeneous phenotype, and the formation of these structures is context dependent. Recent developments in the understanding of the high-order chromatin organization have opened new avenues for contextualizing the nuclear and chromatin phenotypes of senescence. Oncogene-induced senescence displays prominent foci and typically exhibits increased chromatin compartmentalization, based on the chromosome conformation assays, marked by increased transcompaction and segregation of the heterochromatin and euchromatin. However, other types of senescence (e.g., replicative senescence) exhibit comparatively lower levels of compartmentalization. Thus, a more integrative view of the global rearrangement of the chromatin architecture that occurs during senescence is emerging, with potential functional implications for the heterogeneity of the senescence phenotype.This work is supported by a Cancer Research UK Cambridge Institute core grant (no. C9545/A29580) to MN laboratory. MN is also supported by BBSRC (BB/S013466/1 and
BB/T013486/1) and Diabetes UK via BIRAX and the British Council (65BX18MNIB). IO is also supported by a Cancer Research UK Pioneer Award (C63389/A30462)
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