Norman R. Hughes

Nonalcoholic fatty liver disease: Improvement in liver histological analysis with weight loss

The effect of significant weight loss on nonalcoholic fatty liver disease remains unclear. In this case series of 36 selected obese patients, we examined the effect of weight loss on nonalcoholic fatty liver disease, including nonalcoholic steatohepatitis (NASH) and hepatic fibrosis. These 36 patients (11 males, 25 females) had paired liver biopsies, the first at the time of laparoscopic adjustable gastric band placement and the second after weight loss. Second biopsies were obtained from two groups: those requiring a subsequent laparoscopic procedure (n = 19) and those with index biopsy score of 2 or greater for zone 3‐centric hepatic fibrosis (n = 17). All biopsies were scored, blinded to the patients identity and clinical condition, for individual histological features and for NASH stage and grade. Initial biopsies demonstrated NASH in 23 patients and steatosis in 12 patients. Repeat biopsies were taken at 25.6 ± 10 months (range, 9–51 months) after band placement. Mean weight loss was 34.0 ± 17 kg, and percentage of excess weight loss was 52 ± 17%. There were major improvements in lobular steatosis, necroinflammatory changes, and fibrosis at the second biopsy (P < .001 for all). Portal abnormalities remained unchanged. Only four of the repeat biopsies fulfilled the criteria for NASH. There were 18 patients with an initial fibrosis score of 2 or more compared with 3 patients at follow‐up (P < .001). Those with the metabolic syndrome (n = 23) had more extensive changes before surgery and greater improvement with weight loss. In conclusion, weight loss after surgery provides major improvement or resolution of obesity and metabolic syndrome‐associated abnormal liver histological features in severely obese subjects. (HEPATOLOGY 2004;39:1647–1654.)

STAT3 and STAT1 mediate IL-11–dependent and inflammation-associated gastric tumorigenesis in gp130 receptor mutant mice

Deregulated activation of STAT3 is frequently associated with many human hematological and epithelial malignancies, including gastric cancer. While exaggerated STAT3 signaling facilitates an antiapoptotic, proangiogenic, and proproliferative environment for neoplastic cells, the molecular mechanisms leading to STAT3 hyperactivation remain poorly understood. Using the gp130(Y757F/Y757F) mouse model of gastric cancer, which carries a mutated gp130 cytokine receptor signaling subunit that cannot bind the negative regulator of cytokine signaling SOCS3 and is characterized by hyperactivation of the signaling molecules STAT1 and STAT3, we have provided genetic evidence that IL-11 promotes chronic gastric inflammation and associated tumorigenesis. Expression of IL-11 was increased in gastric tumors in gp130(Y757F/Y757F) mice, when compared with unaffected gastric tissue in wild-type mice, while gp130(Y757F/Y757F) mice lacking the IL-11 ligand-binding receptor subunit (IL-11Ralpha) showed normal gastric STAT3 activation and IL-11 expression and failed to develop gastric tumors. Furthermore, reducing STAT3 activity in gp130(Y757F/Y757F) mice, either genetically or by therapeutic administration of STAT3 antisense oligonucleotides, normalized gastric IL-11 expression and alleviated gastric tumor burden. Surprisingly, the genetic reduction of STAT1 expression also reduced gastric tumorigenesis in gp130(Y757F/Y757F) mice and coincided with reduced gastric inflammation and IL-11 expression. Collectively, our data have identified IL-11 as a crucial cytokine promoting chronic gastric inflammation and associated tumorigenesis mediated by excessive activation of STAT3 and STAT1.

STAT3-Driven Upregulation of TLR2 Promotes Gastric Tumorigenesis Independent of Tumor Inflammation

Gastric cancer (GC) is associated with chronic inflammation; however, the molecular mechanisms promoting tumorigenesis remain ill defined. Using a GC mouse model driven by hyperactivation of the signal transducer and activator of transcription (STAT)3 oncogene, we show that STAT3 directly upregulates the epithelial expression of the inflammatory mediator Toll-like receptor (TLR)2 in gastric tumors. Genetic and therapeutic targeting of TLR2 inhibited gastric tumorigenesis, but not inflammation, characterized by reduced proliferation and increased apoptosis of the gastric epithelium. Increased STAT3 pathway activation and TLR2 expression were also associated with poor GC patient survival. Collectively, our data reveal an unexpected role for TLR2 in the oncogenic function of STAT3 that may represent a therapeutic target in GC.

The so-called bile duct adenoma is a peribiliary gland hamartoma

The cell phenotype of so-called bile duct adenoma (BDA) was investigated immunohistochemically using monoclonal antibodies to two recently identified antigens (designated D10 and 1F6) extracted from human liver and cultured biliary epithelium. The acini and tubules of BDA consisted of serous and mucous cells that expressed D10 and 1F6. The intrahepatic peribiliary glands of normal liver, comprising intramural mucous glands and extramural tubuloalveolar seromucinous glands, similarly expressed D10 and 1F6 antigens. Antigen 1F6 was present in the cells forming the canals of Hering and normal bile ductules but not in interlobular and larger bile ducts. Proliferating bile ductules associated with large bile duct obstruction and alcoholic cirrhosis or the epithelia of the von Meyenberg complex and polycystic liver did not exhibit this combined profile of D10 and 1F6 expression and mucous cells. These findings suggest an origin of BDA from peribiliary glands rather than from bile ductules or ducts. Consistent with this view was our finding that 18 of the 30 BDA were spatially related to a large-calibre bile duct. Therefore, BDA, well known for its benign behavior is a small mass of disorganized but mature peribiliary gland acini and tubules within a variable amount of stroma and should properly be called a peribiliary gland hamartoma.

Biliary adenofibroma: a rare neoplasm of bile duct origin with an indolent behavior.

&NA; We report a case of biliary adenofibroma in a 47‐year‐old woman, who presented with right upper quadrant pain for several months. Abdominal imaging revealed a 16‐cm solid and cystic mass in the left hepatic lobe. Histologically, the tumor showed two distinct components: 1) cystic and tubular structures lined by low columnar to cuboidal biliary‐type epithelium, and 2) a dense fibrous stroma composed of spindle‐shaped cells with only mild nuclear pleomorphism and inconspicuous nucleoli. Mitoses and stromal invasion were absent. The glandular epithelium stained positively for keratin AE.3/Cam 5.2, cytokeratin 7, cytokeratin 19, carcinoembryonic antigen, and epithelial membrane antigen and had a low Ki‐67 proliferative index. In addition, the epithelium was positive for D10 but did not stain for 1F6 or acid mucin with alcian blue stain. This staining pattern, similar to bile duct hamartoma (von Meyenburg complex) with which this tumor shares morphologic similarity, suggests that biliary adenofibroma originates from interlobular or larger bile ducts. Three years after a subtotal resection no metastasis or significant tumor growth was noted. However, given the marked nuclear p53 immunoreactivity and tetraploidy status observed in this tumor, we cannot exclude that biliary adenofibroma may represent a premalignant process that warrants complete resection and thorough histopathologic examination.

Liver fluke-associated and sporadic cholangiocarcinoma: an immunohistochemical study of bile duct, peribiliary gland and tumour cell phenotypes.

Aim: To compare cell phenotypes displayed by cholangiocarcinomas and adjacent bile duct lesions in patients from an area endemic in liver-fluke infestation and those with sporadic cholangiocarcinoma. Methods: 65 fluke-associated and 47 sporadic cholangiocarcinomas and 6 normal livers were studied. Serial paraffin-wax sections were stained immunohistochemically with monoclonal antibodies characterising a Brunner or pyloric gland metaplasia cell phenotype (antigens D10 and 1F6), intestinal goblet cells (antigen 17NM), gastric foveolar apomucin (MUC5AC), a gastrointestinal epithelium cytokeratin (CK20) and the p53 protein. Results: 60% of the 112 cholangiocarcinomas expressed antigen D10, 68% MUC5AC, 33% antigen 17NM and 20% CK20; 37% showed overexpression of p53. When present together in a cholangiocarcinoma, cancer cells expressing D10 were distinct from those displaying 17NM or MUC5AC. Many more fluke-associated cholangiocarcinomas than sporadic cholangiocarcinomas displayed 17NM and p53 expression. Most cases of hyperplastic and dysplastic biliary epithelium expressed D10 strongly. Pyloric gland metaplasia and peribiliary glands displayed D10 and 1F6, with peribiliary gland hyperplasia more evident in the livers with fluke-associated cholangiocarcinoma; goblet cells in intestinal metaplasia stained for 17NM. No notable association of expression between any two antigens (including p53) was found in the cancers. Conclusions: Most cases of dysplastic biliary epithelium and cholangiocarcinoma display a Brunner or pyloric gland cell phenotype and a gastric foveolar cell phenotype. The expression of D10 in hyperplastic and dysplastic epithelium and in cholangiocarcinoma is consistent with a dysplasia–carcinoma sequence. Many more fluke-associated cholangiocarcinomas than sporadic cholangiocarcinoma display an intestinal goblet cell phenotype and overexpress p53, indicating differences in the aetiopathology of the cancers in the two groups of patients.

An immunohistochemical profile of the so-called bile duct adenoma: clues to pathogenesis.

The so-called bile duct adenoma and peribiliary glands are characterized by the expression of two foregut antigens (designated D10 and 1F6) and secretion of acid mucin. On account of this similarity in phenotype and their frequent close association with a large caliber bile duct, it was earlier suggested that bile duct adenoma represent a peribiliary gland hamartoma. Here, we compare the expression of 13 tissue antigens in bile duct adenomas, other benign bile duct lesions, and various foregut-derived tissues, to further investigate the bile duct adenoma phenotype and pathogenesis. Antibodies to 4 intestinal mucins, 3 cytokeratins, and CDX2, were not informative. Five foregut antigens (D10, 1F6, MUC6, MUC5AC, and TFF2) and secretion of acid mucin were of use in distinguishing bile duct adenoma from other hepatic lesions. 1F6 and MUC6 were normally present in bile ductules and canals of Hering, whereas the epithelium lining the larger bile ducts stained focally for D10, MUC5AC, MUC6, or TFF2 in, respectively, 21%, 36%, 43%, and 100% of the livers examined. Thirty-six bile duct adenomas examined were distinguished by expression of MUC6 (94% of bile duct adenoma), MUC5AC (90%), TFF2 (80%), D10 (67%), and 1F6 (61%), and varying degrees of acid mucin secretion (100%). Of 30 bile duct adenoma tested for all 5 antigens, 40% expressed all 5, 27% expressed 4, 17% expressed 3, 13% expressed 2, and 1 expressed only MUC6. Peribiliary glands invariably expressed D10, 1F6, MUC6, and TFF2, and showed acid mucin secretion, with MUC5AC present in the inflamed peribiliary glands of 3/4 livers with recurrent pyogenic cholangitis, but none of the glands of the other 23 normal or diseased livers tested. The acini of pyloric gland metaplasia in gallbladder and terminal ileum also stained for D10, 1F6, MUC6, and TFF2, with MUC5AC focally present in the gastric foveolar metaplasia overlying the pyloric gland metaplasia but not in the metaplastic glands. MUC6 was expressed in 92% of ductular reactions, 1F6 in 42%, and D10 in 25%. Focal expression of MUC6, or TFF2 was observed in 1 or 2 examples of 14 von Meyenburg complexes and 6 polycystic livers, with staining for acid mucin generally obvious only in the glycocalyx of the epithelium of these two types of lesions. The distinguishing feature of so-called bile duct adenoma is their display of the same phenotype as pyloric gland metaplasia. It is concluded that they develop as a localized biliary healing response equivalent to the function of a peribiliary gland or pyloric gland metaplasia in the foregut.

The molecular pathogenesis of STAT3-driven gastric tumourigenesis in mice is independent of IL-17

Chronic activation of the gastric mucosal adaptive immune response is a characteristic trait of gastric cancer. It has recently emerged that a new class of T helper (Th) cells, defined by their ability to produce interleukin (IL)‐17A (Th17), is associated with a host of inflammatory responses, including gastritis. However, the role of these Th17 cells in the pathogenesis of gastric cancer is less clear. To formally address this, we employed gp130F/F mice, which spontaneously develop gastric inflammation‐associated tumours akin to human intestinal‐type gastric cancer. At the molecular level, these tumours demonstrate hyper‐activation of the latent transcription factor signal transducer and activator of transcription (STAT)3 via the IL‐6 cytokine family member, IL‐11. In gp130F/F mice, the generation of Th17 cells, as well as the gastric expression of IL‐17a and other Th17‐related factors (Rorγt, IL‐23), were augmented compared to wild‐type gp130+/+ mice. Consistent with a role for IL‐6 and STAT3 in regulating IL‐17A, increased Th17 generation and gastric expression of Th17‐related factors in gp130F/F mice were reduced to wild‐type levels in gp130F/F:Stat3−/+ mice displaying normalized STAT3 activity, and also in gp130F/F:IL‐6−/− mice. Importantly, genetic ablation of IL‐17A in gp130F/F:IL‐17a−/− mice did not suppress the initiation and growth of gastric tumours. Furthermore, IL‐17A and RORC gene expression was strongly increased in human gastric biopsies from patients with gastritis, but not gastric cancer. Collectively, our data suggest that increased expression of Th17‐related factors does not correlate with the molecular pathogenesis of gastric tumourigenesis. # Copyright

Phenotypic identity of gastric mucous neck cells and mucous cells of cardiac, pyloric, and Brunner's glands.

AIM--To investigate the tissue specificity of a novel monoclonal antibody raised to a tissue fraction of normal human liver and which identified certain cells of gastric and duodenal mucosa. METHODS--A total of 155 samples of various tissues obtained from 100 surgical specimens were fixed in cold ethanol-paraformaldehyde, embedded in paraffin wax, and 3 microns sections were studied by immunohistochemical and lectin staining procedures. RESULTS--Immunohistochemical staining showed a major tissue specific component which was strongly expressed by mucous neck cells of the body of the stomach, glands of the cardia and pyloric antrum, and by Brunners glands. Staining for antigen in the periductal glands of normal major biliary and pancreatic ducts was variable and relatively weaker. It was not detected elsewhere in normal intestine or in the other normal tissues tested. Barretts mucosa of gastric cardia type, and pyloric gland metaplasia in the gall bladder and small bowel affected with Crohns disease stained for the antigen. The tissue distribution of the antigen was identical with that of a glycoprotein, demonstrated by an induced affinity for concanavalin A following treatment of tissue sections with periodic acid. The antigen was not sensitive to sialidase. CONCLUSIONS--The tissue component identified (designated here as antigen D10) seems to be characteristic of certain differentiated epithelial cells derived from that part of foregut giving rise to stomach, duodenum, and biliary and pancreatic ducts. The antibody will be of use in investigating pathological processes involving tissue differentiation at these sites, and in the oesophagus and intestines.

Gastric mucous neck cell and intestinal goblet cell phenotypes in gastric adenocarcinoma.

AIM: To investigate the phenotype of cells comprising diffuse and intestinal-type gastric cancers using monoclonal antibodies to two antigens. One antigen (designated D10) is characteristic of gastric mucous neck cells, cardiac glands, pyloric glands, and Brunners glands. The second antigen (designated 17NM) is specific to the mucous vacuole of intestinal goblet cells. METHODS: Thirty two gastrectomy specimens with adenocarcinoma were studied. Serial paraffin sections were stained immunohistochemically for D10 and 17NM and histochemically for acid and neutral mucins. The cancers were classified histologically as of either diffuse or intestinal type according to Lauren. RESULTS: Of 15 diffuse-type gastric carcinomas, 11 showed the majority of cancer cells staining for D10 while four were typical signet ring cell cancers staining predominantly for 17NM; five tumours displayed both phenotypes with the two phenotypes segregated in different areas of the tumours. In contrast, of 16 intestinal-type cancers, six expressed 17NM, three D10, five neither antigen, and two expressed both antigens. One indeterminate-type cancer expressed both antigens. The staining of individual cells for D10 and 17NM was mutually exclusive in both diffuse and intestinal types. In contrast to the diffuse cancers, intestinal-type cancers typically expressed either antigen only in occasional small groups of cells and individual cells. CONCLUSIONS: In disease, the gastric stem cell can assume the capacity of the duodenal stem cell for divergent differentiation into either intestinal goblet cells (for example, as in intestinal metaplasia) or Brunners gland cells (for example, as in pyloric gland/Brunners gland metaplasia). With neoplastic transformation, this potential for divergent differentiation is maintained and gives rise to diffuse-type cancers that display either the D10 phenotype, the 17NM phenotype, or the clonal expression of both phenotypes. In the more cell cohesive (intestinal-type) tumours, differentiation for antigen expression is poorly developed and more frequently directed towards the intestinal goblet cell phenotype.