No abstract availble.
Gastritis, Atrophic/*genetics/metabolism ; *Gene Expression Profiling ; Humans ; Intestines/metabolism/*pathology ; Metaplasia/genetics/metabolism ; *Microarray Analysis ; Tumor Markers, Biological/metabolism

Adenoma ; metabolism ; pathology ; Biomarkers, Tumor ; metabolism ; Cystadenocarcinoma ; pathology ; Cystitis ; metabolism ; pathology ; Endometriosis ; immunology ; pathology ; Fallopian Tube Neoplasms ; pathology ; Female ; Humans ; Intestines ; pathology ; Keratin-7 ; metabolism ; Male ; Metaplasia ; pathology ; Racemases and Epimerases ; metabolism ; Urinary Bladder Neoplasms ; metabolism ; pathology ; Uterine Diseases ; immunology ; pathology

The pathogenesis of inflammatory bowel disease (IBD) is not fully elucidated. However, it has been considered that inflammatory macrophages may be involved in the imbalance of the intestinal mucosal immunity to regulate several signaling pathways, leading to IBD progression. The ratio of M1 to M2 subtypes of activated macrophages tends to increase in the inflamed intestinal section. There are challenges in the diagnosis and treatment of IBD, such as unsatisfactory specificity of imaging findings, low drug accumulation in the intestinal lesions, unstable therapeutic efficacy, and drug-related systemic toxicity. Recently developed nanoparticles may provide a new approach for the diagnosis and treatment of IBD. Nanoparticles targeted to macrophages can be used as contrast agents to improve the imaging quality or used as a drug delivery vector to increase the therapeutic efficiency of IBD. This article reviews the research progress on macrophage-targeting nanoparticles for the diagnosis and treatment of IBD to provide a reference for further research and clinical application.
Humans ; Inflammatory Bowel Diseases/therapy* ; Intestines ; Macrophages/metabolism* ; Intestinal Mucosa/pathology* ; Nanoparticles

Non-alcoholic fatty liver disease (NAFLD) is the most common cause of chronic liver dysfunction and a significant global health problem with substantial rise in prevalence over the last decades. It is becoming increasingly clear that NALFD is not only predominantly a hepatic manifestation of metabolic syndrome, but also involves extra-hepatic organs and regulatory pathways. Therapeutic options are limited for the treatment of NAFLD. Accordingly, a better understanding of the pathogenesis of NAFLD is critical for gaining new insight into the regulatory network of NAFLD and for identifying new targets for the prevention and treatment of NAFLD. In this review, we emphasize on the current understanding of the inter-organ crosstalk between the liver and peripheral organs that contributing to the pathogenesis of NAFLD.
Adipose Tissue ; pathology ; Animals ; Extracellular Vesicles ; metabolism ; Humans ; Hypothalamus ; metabolism ; Intestines ; microbiology ; pathology ; Non-alcoholic Fatty Liver Disease ; etiology ; metabolism ; microbiology ; pathology

The role of nuclear factor kappaB in intestine injury induced by hepatic ischemia reperfusion was investigated. Eighteen male Wistar rats were divided into 3 groups randomly: sham operation group (group A), hepatic ischemia reperfusion group (group B) and hepatic ischemia reperfusion plus pyrrolidine dithiocarbamate (PDTC) group (group C). The rats in group A were only subjected to laparotomy, those in group B underwent partial hepatic ischemia reperfusion (ischemia for 1 h and reperfusion for 2 h) and those in group C underwent the same procedure as that of group B but received PDTC 200 mg/kg i.v. before and after ischemia. After reperfusion, tissues of jejunum and venous blood were obtained for measurement of TNF-alpha, MDA and MPO. The levels of TNF-alpha in jejunum and venous blood, the levels of MPO in jejunum in group B were significantly higher than those in group A and group C (P<0.05). There was no significant different in the levels of MDA between group B and group C. The severity of histological intestinal injury in group B and group C was similar. Hepatic ischemia reperfusion caused intestine injury, NF-kappaB may play an important role in this course and the targeting of upstream components of the inflammatory response, such as NF-kappaB, may have important therapeutic applications.
Animals ; Intestines ; pathology ; Liver ; blood supply ; metabolism ; Male ; NF-kappa B ; biosynthesis ; Random Allocation ; Rats ; Rats, Wistar ; Reperfusion Injury ; metabolism

The role of nuclear factor kappaB in intestine injury induced by hepatic ischemia reperfusion was investigated. Eighteen male Wistar rats were divided into 3 groups randomly: sham operation group (group A), hepatic ischemia reperfusion group (group B) and hepatic ischemia reperfusion plus pyrrolidine dithiocarbamate (PDTC) group (group C). The rats in group A were only subjected to laparotomy, those in group B underwent partial hepatic ischemia reperfusion (ischemia for 1 h and reperfusion for 2 h) and those in group C underwent the same procedure as that of group B but received PDTC 200 mg/kg i.v. before and after ischemia. After reperfusion, tissues of jejunum and venous blood were obtained for measurement of TNF-alpha, MDA and MPO. The levels of TNF-alpha in jejunum and venous blood, the levels of MPO in jejunum in group B were significantly higher than those in group A and group C (P<0.05). There was no significant different in the levels of MDA between group B and group C. The severity of histological intestinal injury in group B and group C was similar. Hepatic ischemia reperfusion caused intestine injury, NF-kappaB may play an important role in this course and the targeting of upstream components of the inflammatory response, such as NF-kappaB, may have important therapeutic applications.
Intestines/*pathology ; Liver/*blood supply ; Liver/metabolism ; NF-kappa B/*biosynthesis ; Random Allocation ; Rats, Wistar ; Reperfusion Injury/*metabolism

Intracranial teratomas are rare entities that can present as a pure type or as mixed germ cell tumor. Cases of mixed germ cell tumor composed of immature teratoma and choriocarcinoma have been reported. Also, immature teratoma can be mixed with only syncytiotrophoblasts. We report a case of immature teratoma with syncytiotrophoblasts of the brain discovered in a 3-year-old male baby. Serum human chorionic gonadotrophin (hCG) was normal and serum alpha-fetoprotein (AFP) was elevated. The tumor was mainly composed of intestinal glands, and neither endodermal sinus tumor nor embryonal carcinomatous elements were found. The cells lining the intestinal glands were positive for hCG and AFP. These findings suggest that the syncytiotrophoblasts are differentiated from the endoderm and AFP is not necessarily a marker exclusive to endodermal sinus tumor or embryonal carcinoma.
Brain Neoplasms/metabolism/*pathology ; Case Report ; Child, Preschool ; Chorionic Gonadotropin/metabolism ; Giant Cells/*pathology ; Human ; Intestines/*metabolism/pathology ; Male ; Teratoma/metabolism/*pathology ; Trophoblasts/*pathology ; Tumor Markers, Biological/*metabolism ; alpha-Fetoproteins/metabolism

Phenotypic expression of tumor cells was investigated in 33 early gastric carcinomas by mucin histochemistry using paradoxical concanavalin A staining. This staining method had been developed to differentiate 3 classes of mucins located at various sites of the alimentary tract. Twenty-five (76%) tumors contained mixtures of neutral or acid class II mucin and class III mucin, suggesting the origin of multipotential stem cells. The surface mucous cell expression was more dominant than the pyloric gland or intestinal phenotypes in the well-and poorly differentiated adenocarcinomas. The intestinal properties of the tumor cells were noted not only in the well-differentiated but also in the poorly differentiated or signet ring cell carcinomas, not closely being related to the presence of background intestinal metaplasia. Signet ring cell carcinomas revealed a distinct pattern of mucin histochemistry compared with the other types.
Adenocarcinoma/metabolism/pathology ; Adenocarcinoma, Mucinous/metabolism/pathology ; Cell Differentiation ; Concanavalin A ; Histocytochemistry ; Humans ; Intestines/pathology ; Metaplasia ; Mucins/classification/*metabolism ; Staining and Labeling/*methods ; Stem Cells/metabolism/pathology ; Stomach Neoplasms/*metabolism/pathology

BACKGROUND/AIMS: The atrophic gastritis with intestinal metaplasia of gastric mucosa has been considered to be the major factor of carcinogenesis in the stomach. However, the key molecules are still poorly understood. To elucidate the molecular genetic basis, we report the results of our initial microarray data to analyze the genome pattern in patients with atrophic gastritis and intestinal metaplasia of the stomach. METHODS: We used oligonucleotide microarray technique to evaluate the gene expression profiles in atrophic gastritis with intestinal metaplasia, in comparison with those of normal mucosa. For the identification of differentially expressed genes, Significance Analysis of Microarrays (SAM) package method was used. The results were analyzed using global normalization, intensity dependent normalization, and box plot normalization. RESULTS: Eight genes including FABP, REG, OR6C1, MEP1, SLC6A1, SI, Mucin 1, and RAB23 in mucosa of atrophic gastritis and intestinal metaplasia were up-regulated by more than 10 times as compared with normal gastric mucosa. Only one gene, LOC44119 was down-regulated by more than 10 times of the expression as compared with normal gastric mucosa. In respect to the expression of known genes related to gastric carcinogenesis, 8 genes including FN1, SRMS, TP53, TP53IMP2, TP53I3, FGFR4, TGFB1, and TGFA showed up- and down-regulations more than 2 folds in expression pattern. CONCLUSIONS: We could identify a total genome pattern in patient with atrophic gastritis and intestinal metaplasia using oligonucleotide microarray. We believe that the current results will serve as a fundamental bioinformative basis for clinical applications in diagnosis and treatment of gastric cancer and precancerous lesion in the future.
Down-Regulation ; Gastritis, Atrophic/*genetics/metabolism ; Gene Expression Profiling ; Humans ; Intestines/*metabolism/*pathology ; Metaplasia/genetics/metabolism ; Microarray Analysis ; Tumor Markers, Biological/genetics/metabolism ; Up-Regulation

A complex microbiota colonizes mucosal layers in different regions of the human gut. In the healthy state, the microbial communities provide nutrients and energy to the host via fermentation of non-digestible dietary components in the large intestine. In contrast, they can play roles in inflammation and infection, including gastrointestinal diseases and metabolic syndrome such as obesity. However, because of the complexity of the microbial community, the functional connections between the enteric microbiota and metabolism are less well understood. Nevertheless, major progress has been made in defining dominant bacterial species, community profiles, and systemic characteristics that produce stable microbiota beneficial to health, and in identifying their roles in enteric metabolism. Through studies in both mice and humans, we are recently in a better position to understand what effect the enteric microbiota has on the metabolism by improving energy yield from food and modulating dietary components. Achieving better knowledge of this information may provide insights into new possibilities that reconstitution of enteric microbiota via diet can provide the maintenance of healthy state and therapeutic/preventive strategies against metabolic syndrome such as obesity. This review focuses on enteric microbial composition and metabolism on healthy and diseased states.
Animals ; Bacteria/growth & development/metabolism ; Diet ; Gastrointestinal Diseases/*microbiology/pathology ; Humans ; Inflammation/microbiology/pathology ; Intestines/microbiology ; Metabolic Syndrome X/*microbiology/pathology ; *Microbiota ; Probiotics