Nomas. The MUC4/8G7 expression was related with lymphatic invasion. The MUC4/1G8 expression was related with lymphatic invasion andlymph node metastasis. The MUC1/DF3 expression was related with lymphatic invasion and venous invasion. The examination of MUC4 and MUC1 expression in the gastric cancers would become a useful marker to predict poor prognostic factors related with vessel invasion, even in the early stage.Supporting InformationFigure S1 In the non-neoplastic mucosa of the 1655472 cases with gastric cancer, 25033180 MUC4/8G7 was 13655-52-2 web expressed sometimes in the cytoplasm of surface mucous epithelium, and frequently but weakly in the cytoplasm of fundic and pyloric glands (A and D). MUC4/1G8 was frequently expressed in the cell apex and cytoplasm of the surface mucous epithelium, and frequently but weakly in the cytoplasm of fundic and pyloric glands (B and E), and was seen constantly at the vascular endothelium. MUC1/DF3 was sometimes expressed in the surface mucous epithelium, and always in the fundic glands (particularly 47931-85-1 chemical information intensely at the cell apexes), but not in the pyloric glands (C and F). Original magnification 6100 (A, B, C), 6400 (D, E, F). (TIF) Table S1 Detailed number and percentage of positively stained neoplastic cells using the scoring system. (DOC)AcknowledgmentsWe thank Mr. Y. Atsuchi, Mr. K. Matsuo, Ms. C. Baba, Ms. Y. Nishimura, Ms. S. Yoshimura and Ms. I. Houjou for their technical assistance.Author ContributionsConceived and designed the experiments: YT M. Higashi S. Yonezawa. Performed the experiments: YT M. Higashi SK S. Yokoyama S. Yonezawa. Analyzed the data: YT M. Higashi MG S. Yonezawa. Contributed reagents/materials/analysis tools: MO M. Horinouchi TS MT SKB. Wrote the paper: YT M. Higashi.
Diabetes mellitus (DM) has become one of the most severe endocrine metabolic disorders in the world. Diabetes damages multiple organs to induce serious complications such as coronary artery disease, renal and ophthalmologic diseases that can result in the disability and mortality for diabetic patients. Liver disease as one of diabetic complications has not been well addressed, but it actually can be very significant [1]. Increasing evidence suggests that among patients with diabetes, the standardized mortality rate from end-stage liver disease (i.e., cirrhosis) is higher than that for cardiovascular disease [2,3].The liver plays a pivotal role in glucose homeostasis since it stores glycogen in the fed state and produces glucose through glycogenolysis and gluconeogenesis in the postabsorptive period. Several hormones and metabolic factors engage in the maintenance of glucose homeostasis. In physiological conditions, hepatocytes are the main site of hepatic glucose metabolism. It has been estimated that 30 to 60 of all glucose absorbed in the gastrointestinal tract undergoes hepatic processing with subsequent storage as glycogen or metabolism into amino acids or fatty acids [3,4]. Insulin and glucagon are two counter-regulatory hormones involved in the regulation of energy metabolism. Insulin enhances glycogen synthesis within the liver and prevents glucoseZn Deficiency Exacerbates Diabetic Liver Injuryproduction. Reversely, glucagon induces glucose production and prevents glycogen synthesis [3]. The failure of hepatocytes to respond to insulin induced by diabetes results in uncontrolled gluconeogenesis, glycogenolysis and lipogenesis, promoting hyperglycemia, dyslipidemia and systemic insulin resistance [3?], which will lead to diabetic l.Nomas. The MUC4/8G7 expression was related with lymphatic invasion. The MUC4/1G8 expression was related with lymphatic invasion andlymph node metastasis. The MUC1/DF3 expression was related with lymphatic invasion and venous invasion. The examination of MUC4 and MUC1 expression in the gastric cancers would become a useful marker to predict poor prognostic factors related with vessel invasion, even in the early stage.Supporting InformationFigure S1 In the non-neoplastic mucosa of the 1655472 cases with gastric cancer, 25033180 MUC4/8G7 was expressed sometimes in the cytoplasm of surface mucous epithelium, and frequently but weakly in the cytoplasm of fundic and pyloric glands (A and D). MUC4/1G8 was frequently expressed in the cell apex and cytoplasm of the surface mucous epithelium, and frequently but weakly in the cytoplasm of fundic and pyloric glands (B and E), and was seen constantly at the vascular endothelium. MUC1/DF3 was sometimes expressed in the surface mucous epithelium, and always in the fundic glands (particularly intensely at the cell apexes), but not in the pyloric glands (C and F). Original magnification 6100 (A, B, C), 6400 (D, E, F). (TIF) Table S1 Detailed number and percentage of positively stained neoplastic cells using the scoring system. (DOC)AcknowledgmentsWe thank Mr. Y. Atsuchi, Mr. K. Matsuo, Ms. C. Baba, Ms. Y. Nishimura, Ms. S. Yoshimura and Ms. I. Houjou for their technical assistance.Author ContributionsConceived and designed the experiments: YT M. Higashi S. Yonezawa. Performed the experiments: YT M. Higashi SK S. Yokoyama S. Yonezawa. Analyzed the data: YT M. Higashi MG S. Yonezawa. Contributed reagents/materials/analysis tools: MO M. Horinouchi TS MT SKB. Wrote the paper: YT M. Higashi.
Diabetes mellitus (DM) has become one of the most severe endocrine metabolic disorders in the world. Diabetes damages multiple organs to induce serious complications such as coronary artery disease, renal and ophthalmologic diseases that can result in the disability and mortality for diabetic patients. Liver disease as one of diabetic complications has not been well addressed, but it actually can be very significant [1]. Increasing evidence suggests that among patients with diabetes, the standardized mortality rate from end-stage liver disease (i.e., cirrhosis) is higher than that for cardiovascular disease [2,3].The liver plays a pivotal role in glucose homeostasis since it stores glycogen in the fed state and produces glucose through glycogenolysis and gluconeogenesis in the postabsorptive period. Several hormones and metabolic factors engage in the maintenance of glucose homeostasis. In physiological conditions, hepatocytes are the main site of hepatic glucose metabolism. It has been estimated that 30 to 60 of all glucose absorbed in the gastrointestinal tract undergoes hepatic processing with subsequent storage as glycogen or metabolism into amino acids or fatty acids [3,4]. Insulin and glucagon are two counter-regulatory hormones involved in the regulation of energy metabolism. Insulin enhances glycogen synthesis within the liver and prevents glucoseZn Deficiency Exacerbates Diabetic Liver Injuryproduction. Reversely, glucagon induces glucose production and prevents glycogen synthesis [3]. The failure of hepatocytes to respond to insulin induced by diabetes results in uncontrolled gluconeogenesis, glycogenolysis and lipogenesis, promoting hyperglycemia, dyslipidemia and systemic insulin resistance [3?], which will lead to diabetic l.
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