A separating method for quantifying mucus glycoprotein localized in the different layer of rat gastric mucosa

A method was devised for separating rat gastric mucosa into three layers each containing a different mucin species. The mucus gel (first layer) was removed by stirring the gastric mucosa in a solution of phosphate-buffered saline containing 2% N-acetylcysteine. The surface mucosa (second layer), rich in surface mucus cells, was then separated from the deep mucosa (third layer) containing mucus neck cells, by scraping with forceps. The effectiveness of this method was confirmed by light microscopical observation after GOCTS-PCS (dual staining by the galactose oxidase-cold thionin Schiff method and paradoxical concanavalin A method) and AB-PAS staining (dual staining with alcian blue and the periodic acid Schiff method). The fixed specimen of scraped mucus and cell debris was rich in AB-PAS and GOCTS positive mucus, but was hardly stained by PCS, indicating mucus derived from surface mucus cells to have been efficiently recovered from this preparation. The residual mucosa could be stained by PCS but hardly at all by AB-PAS or GOCTS. The lyophilized powder specimens obtained from the three different layers of rat gastric mucosa were used to extract and quantify mucus glycoprotein (mucin). This was done to examine changes in mucin content in the three layers of gastric mucosa one hour following the oral administration of 20% ethanol or 0.35 N hydrochloric acid, both mild irritants. Mucin content was noted to significantly increase in the first layer but hardly at all in the second layer. In the third layer, it decreased significantly by 0.35 N hydrochloric acid, but changed only slightly by 20% ethanol administration. This method is thus shown to be suitable for detecting changes in the gastric mucin content in each of the three separate layers of gastric mucosa. This work was supported in part by Grants-in-Aid from the Japa nese Ministry of Education and Terumo Life Science Foundation. The authors express their sincere appreciation to Prof. Haruya Okabe for his valuable comments.     

Esophageal mucin: an adherent mucus gel barrier is absent in the normal esophagus but present in columnar-lined Barrett's esophagus

OBJECTIVES: The presence of a protective adherent mucus gel barrier against gastric reflux in the healthy esophagus is uncertain. The aim was to characterize the surface mucin composition and determine the extent of any adherent mucus gel layer on the normal esophagus, and compare this with that in Barrett's esophagus. METHODS: Isolated surface mucins were characterized by density centrifugation, gel filtration chromatography, and chemical composition. Adherent surface mucus was visualized in situ on unfixed and cryostat sections of mucosa and biopsies using a method that preserves mucus layer thickness. RESULTS: There was a complete absence of adherent mucus gel layers on normal human, pig, and rat esophagi. This was in contrast to the thick adherent mucous layer (median thickness = 100-200 microm) seen on the corresponding gastric mucosa. Small quantities of glycoprotein with a composition characteristic of a secretory mucin were isolated from the pig esophagus surface. The mucin, density range between 1.44 and 1.48 g x ml(-1), contained 80% carbohydrate and was rich in serine, threonine, and proline. The mucin fragmented into smaller glycoprotein units on proteolysis and partially on reduction. Cryostat sections from columnar-lined esophageal biopsies had a substantial adherent surface mucous layer (median thickness = 90 microm, interquartile range = 84-94 microm) staining for neutral mucins (gastric-type epithelium) and acidic mucins (intestinal metaplasia). CONCLUSIONS: A secretory mucin, with an analysis distinct from that of gastric or salivary mucin, is present in very small quantities on the esophageal mucosa and in amounts insufficient to form an adherent gel layer. It is unlikely that mucus has a role in protecting the normal esophagus against reflux. However, an adherent mucous layer was observed over columnar-lined esophagus, and this may protect against reflux.     

Effects of a novel histamine H2-receptor antagonist, lafutidine, on the mucus barrier of human gastric mucosa

BACKGROUND AND AIM: Lafutidine is a novel histamine H(2)-receptor antagonist used primarily as an antisecretory agent in Japan. Previous human studies have not assessed its gastroprotective effects. The purpose of the present study was to determine the effects of lafutidine on the human gastric mucus layer using both histological and biochemical methods. METHODS: Of the 14 patients scheduled for gastrectomy who consented to participate, seven were given 14 days of lafutidine 20 mg/day (lafutidine group) and the others received no medication (control group). The surface mucus gel layer in Carnoy-fixed tissue sections was examined immunohistochemically. Both the thickness of the mucus layer and its mucin content were measured in gastric corpus mucosa. RESULTS: There was no detectable difference between the groups in the grade of gastritis or the immunohistochemical staining characteristics. The laminated structure of the surface mucus gel layer was retained after administration of lafutidine and it was thicker than the layer in the control group. The surface layer in the lafutidine group had three-fold more mucin than that in the control group. There was no difference between the two groups in the mucin content of the deep mucosa. CONCLUSION: Lafutidine, given at clinical dosages, not only inhibits acid secretion but also strengthens the mucus barrier of the human gastric mucosa.     

Effects of tetragastrin on mucus glycoprotein in rat gastric mucosal protection.

The effects of tetragastrin on mucus glycoprotein (mucin) metabolism and mucosal protection in rat gastric mucosa were investigated. Rats were administered with various doses of tetragastrin (12, 120, or 400 micrograms/kg body weight; s.c.), followed by 50% ethanol-induced gastric injury. Tetragastrin caused a significant increase in mucin content in the corpus mucosa and prevented 50% ethanol-induced gastric mucosal damage in a dose-dependent manner. For assessment of the effects of tetragastrin on the metabolism of gastric mucin in detail, changes in mucin distribution in the three different layers of rat gastric mucosa were examined one hour after single administration of tetragastrin. A significant increase in the mucin content was noted in the mucus gel and surface mucosal layer. Mucin content in the deep mucosa corresponding mainly to the mucus neck cell mucin underwent virtually no change by this treatment. An increase in mucin in the mucus gel and surface mucosa would thus appear due to the administration of tetragastrin and may possibly be related to the protective action of the gastric mucosa against injury. The data demonstrate a possibility that gastrin may have potential for enhancing gastric mucosal protection associated with mucus secretion and/or mucus synthesis on the surface mucosa of rat gastric mucosa.     

Effects of tetragastrin on mucus glycoprotein in rat gastric mucosal protection

The effects of tetragastrin on mucus glycoprotein (mucin) metabolism and mucosal protection in rat gastric mucosa were investigated. Rats were administered with various doses of tetragastrin (12, 120, or 400 [μg/kg body weight; s.c), followed by 50% ethanol-induced gastric injury. Tetragastrin caused a significant increase in mucin content in the corpus mucosa and prevented 50% ethanol-induced gastric mucosal damage in a dose-dependent manner. For assessment of the effects of tetragastrin on the metabolism of gastric mucin in detail, changes in mucin distribution in the three different layers of rat gastric mucosa were examined one hour after single administration of tetragastrin. A significant increase in the mucin content was noted in the mucus gel and surface mucosal layer. Mucin content in the deep mucosa corresponding mainly to the mucus neck cell mucin underwent virtually no change by this treatment. An increase in mucin in the mucus gel and surface mucosa would thus appear due to the administration of tetragastrin and may possibly be related to the protective action of the gastric mucosa against injury. The data demonstrate a possibility that gastrin may have potential for enhancing gastric mucosal protection associated with mucus secretion and/or mucus synthesis on the surface mucosa of rat gastric mucosa.     

Recovery of mucin content in surface layer of rat gastric mucosa after HCl-aspirin-induced mucosal damage

Quantitative changes in mucin (mucus glyco-protein) in different layers of rat gastric mucosa after mucosal damage induced by acidified acetylsalicylic acid (HCl-aspirin; 0.15N HCl, 20–200 mg acetylsalicylic acid/kg body weight) were studied. More than 50 mg/kg HCl-aspirin led to a significant increase in macroscopic gastric injury (expressed as ulcer index) at 3h, compared with control (no aspirin) and there was a significant recoverly at 7h. Three h after dosing with 50 mg/kg acidified aspirin, there was superficial mucosal damage and decreased mucin content in the surface mucosal layer. Mucin production recovered 7h after the administration of 50 mg/kg acidified aspirin. Doses of acidified aspirin higher than 100 mg/kg decreased mucin content in the surface and deep corpus mucosal layers and no recovery was seen 7h after the administration. Physiological damage after the administration of 50 mg/kg HCl-aspirin was limited mainly to surface epithelial mucus cells. An experimental model in which superficial erosion was induced in rat gastric mucosa was established with low-dose HCl-aspirin.     

Effects of the M1 muscarinic receptor antagonist pirenzepine on gastric mucus glycoprotein in rats with or without ethanol-induced gastric damage.

Changes in gastric mucus glycoprotein (mucin) isolated from pirenzepine-treated rats with or without ethanol (50%)-induced gastric damage were studied. The prior administration of pirenzepine inhibited significantly and dose-dependently the occurrence of macroscopically observable hemorrhagic lesions induced by treatment with ethanol. The gastric mucosa was separated into the surface mucosa, including the mucus gel layer, and the deeper mucosa by mechanical scraping, and the mucin in each was isolated. In ethanol-treated animals the mucin content of the deep corpus mucosa was significantly reduced to 68% the control value. This reduction was inhibited by pretreatment with pirenzepine. In the surface mucosa mucin content was also reduced to 48% of control value by ethanol treatment, but pirenzepine pretreatment increased mucin content to 235% the control value. Total mucin content in the entire stomach essentially resumed the control level by pretreatment with 100 mg/kg of pirenzepine. A single oral administration of pirenzepine (100 mg/kg) caused no change in total mucin content, but mucin in the deep corpus mucosa selectively and significantly increased to 124% the control. These and the results of carbohydrate analysis of purified mucin indicate that pirenzepine administration possibly accelerates the secretion of accumulated deep corpus mucus, retains this deep mucus on surface mucosal mucus, and protects the gastric mucosa in ethanol-induced gastric damage. This may be related to the antiulcerogenic effects of pirenzepine.     

Effects of the Mt Muscarinic Receptor Antagonist Pirenzepine on Gastric Mucus Glycoprotein in Rats with or without Ethanol-Induced Gastric Damage

Changes in gastric mucus glycoprotein (mucin) isolated from pirenzepine-treated rats with or without ethanol (50%)-induced gastric damage were studied. The prior administration of pirenzepine inhibited significantly and dose-dependently the occurrence of macroscopically observable hemorrhagic lesions induced by treatment with ethanol. The gastric mucosa was separated into the surface mucosa, including the mucus gel layer, and the deeper mucosa by mechanical scraping, and the mucin in each was isolated. In cthanol-treated animals the mucin content of the deep corpus mucosa was significantly reduced to 68% the control value. This reduction was inhibited by pretreatment with pirenzepine. In the surface mucosa mucin content was also reduced to 48% of control value by ethanol treatment, but pirenzepine pretreatment increased mucin content to 235% the control value. Total mucin content in the entire stomach essentially resumed the control level by pretreatment with 100 mg/kg of pirenzepine. A single oral administration of pirenzepine (100 mg/kg) caused no change in total mucin content, but mucin in the deep corpus mucosa selectively and significantly increased to 124% the control. These and the results of carbohydrate analysis of purified mucin indicate that pirenzepine administration possibly accelerates the secretion of accumulated deep corpus mucus, retains this deep mucus on surface mucosal mucus, and protects the gastric mucosa in ethanol-induced gastric damage. This may be related to the antiulcerogenic effects of pirenzepine.     

Formation of a fibrin based gelatinous coat over repairing rat gastric epithelium after acute ethanol damage: interaction with adherent mucus

A gelatinous coat, heterogeneous in appearance, was formed over damaged rat gastric mucosa recovering from acute ethanol injury. This coat, in places 1.6 mm thick (median thickness 680 microns), was 10 times thicker than the translucent layer of adherent mucus (median thickness 70 microns) covering the undamaged mucosa. Immunohistochemistry and periodic acid Schiff staining showed this gelatinous coat to be predominantly a fibrin gel with an exterior layer rich in mucus and necrotic cells. The plasma clotting time was significantly decreased in vitro by pig gastric mucus gel and soluble mucus glycoprotein (90% and 13% respectively) suggesting that in vivo the mucus layer remaining after epithelial damage could act as a template for fibrinogen-fibrin conversion. These results show that a fibrin based gelatinous coat, quite distinct from the adherent mucus layer and with considerable protective potential could be formed over the repairing rat gastric mucosa after acute ethanol damage.     

The Diagnostic Significance of Sulfated Acid Mucin Content in Gastric Intestinal Metaplasia with Early Gastric Cancer

Specimens of fifteen surgically resected stomachs with early gastric cancer were histologically and histochemically examined using Alcian blue-periodic acid-Schiff and high iron diamine--Alcian blue stains. Samples were taken from the tumor, from the gastric mucosa 3 cm from the edge, and from the resected margins. In all 15 stomachs colonic intestinal metaplastic changes were present in the tumor tissue, as well as in the adjacent 3 cm mucosa and in the distant resected margins. In all cases neutral mucin content was reduced, whereas acid nonsulfated mucin was increased as demonstrated by Alcian blue-periodic-acid Schiff staining. Furthermore, acid sulfated mucin was demonstrated by high iron diamine-Alcian blue staining in the superficial layer of the metaplastic mucosa adjacent to the cancerous lesion and in the tumor itself. Sparse foci were also found in the surgical margins. We suggest that the increased content of acid sulfated mucin and its distribution might serve as an early indicator of malignant potential of the metaplastic gastric mucosa.     

Neuroendocrine differentiation of periodic-acid Schiff and Alcian blue-negative signet-ring cell-like cells and tubular adenocarcinoma cells within a gastric cancer

A case of a Borrmann type 2 advanced gastric cancer with endocrine differentiation is described. Histologically, the cancer was either composed of cells arranged in a tubular pattern or formed solid nests of various sizes. The tubular pattern was composed of a moderately differentiated tubular adenocarcinoma. The histology showed partial carcinoid tumor-like features. Cancer cells inside solid nests had a signet-ring cell-like appearance. Periodic-acid Schiff (PAS) staining was positive in the cytoplasm of a few of the cells found in the tubular pattern and in the mucus in some lumens and on the apical surface of cells in some lumens, but PAS did not stain cancer cells in the solid nests. Neither cancer cells nor mucus in the lumens were stained with alcian blue. All cancer cells were strongly positive for Grimelius silver stain, and most of the cancer cells stained positively for chromogranin A. Electron microscopic examination showed electron dense neuroendocrine granules in the cytoplasm of cancer cells. Cancer cells were stained positively for pancytokeratin, cytokeratin 8/18 and carcinoembryonic antigen. Muc 1 mucin glycoprotein staining was positive along the cell surfaces of cancer cells, but Muc 2, 5AC and 6 stainings were negative, although Muc 3 stained positively in the cytoplasm of a few cancer cells. The present case is a gastric tubular adenocarcinoma with Muc 1-positive, neutral- and acid mucin-negative signet-ring cell-like cells, which is associated with neuroendocrine differentiation.     

Trefoil factor 2 in gland mucous cell mucin in the mucous gel covering normal or damaged gastric mucosa using the Mongolian gerbil model

OBJECTIVE: Trefoil factor 2 (TFF2) is localized in gastric gland mucous cells. The purpose of the study was to determine whether TFF2 and gastric mucin are localized in mucous cells and in the surface mucous gel layer (SMGL) of the normal gastric mucosa or in the mucoid cap adherent to gastric mucosal lesions in Mongolian gerbils. MATERIAL AND METHODS: Gastric mucosal lesions were induced in Mongolian gerbils using oral administration of Helicobacter pylori (H. pylori), subcutaneous administration of indomethacin, or oral administration of 30% ethanol. Tissue samples were fixed in Carnoy's solution for preservation of the SMGL, dehydrated, and embedded in paraffin. Histochemical staining for gastric mucins and immunostaining for TFF2 were performed. RESULTS: It was found that surface mucous cell mucin and gland mucous cell mucin were segregated in the SMGL covering the normal gastric mucosa, and the mucin of the mucoid cap covering the mucosal lesions was primarily gland mucous cell mucin. There was a co-localization of TFF2 in gland mucous cell mucin in gland mucous cells, the SMGL, and the mucoid cap. CONCLUSIONS: The co-localization of TFF2 in gland mucous cells and in the adherent mucus suggests a physical interaction between TFF2 and gland mucous cell mucin, and the participation of TFF2 trapped in the adherent mucus functions in mucosal defense, healing, and repair.     

Expression of a specific mucin type recognized by monoclonal antibodies in the rat gastric mucosa regenerating from acetic acid-induced ulcer

BACKGROUND: Detailed research on the healing process of gastric mucosa from injury due to various necrotizing agents is important for regenerating medicine as well as for estimating the quality of ulcer healing. To elucidate this issue, we prepared monoclonal antibodies reacting with mucin molecules present in the specific region and layer of the gastrointestinal mucosa. METHODS: Acetic acid-induced gastric ulcers were prepared in 8-week-old male Wistar rats. Following 24-h fasting, the animals were killed at 20, 30 and 50 days after acid insult and their stomachs were removed immediately. Serial paraffin sections of the ulcer area were made and immunostained with three distinct monoclonal antibodies. RGM21 and HIK1083 react with mucins derived from the surface mucous cells of the corpus and the gland mucous cells of corpus and antrum, respectively. HCM31 stains sialomucin present in the small intestine and colonic mucosa of rat, but does not react with the intact gastric mucosa, except in the very narrow cardiac gland area. RESULTS: On the 20th day after ulcer preparation, the cells stained with RGM21 and HIK1083 were restricted only to the surface layer and the bottom layer of regenerating epithelia, respectively. HCN31 staining covered most of the regenerating epithelia. On the 30th day, the staining of HCM31 was enhanced in the regenerating area. Staining of RGM21 did not change, but the HIK1083 stained area increased in the lower part of the regenerating epithelia. On the 50th day, the staining with HCM31 weakened markedly in the lower part, and this area was occupied with HIK1083 positive cells. CONCLUSION: A notable but temporary expression of a kind of sialomucin specifically stained with HCM31 was observed in the regenerating epithelia during the healing stage of acetic acid-induced gastric damage.     

Expression of gastric mucin in the stomachs of two patients with Menetrier's disease: an immunohistochemical study

Menetrier's disease is a rare gastric condition characterized by marked proliferation of the mucosa and variable mucus secretion and achlorhydria. We report, for the first time, minor variations in MUC1-7 distribution in the mucosa of two stomachs from patients with Menetrier's disease, when compared with a normal stomach. All stomachs stained positively for MUC4, 5AC and 6 and showed no or little staining with MUC2 and 3. Thus, Menetrier's disease is characterized by an excess quantity of mucus secretion, but differs little from normal stomachs with regards to the types of mucin produced. The mucins, MUC1-7, are found with variable distribution in different body tissues; MUC4, MUC5AC and MUC6 are typically found in gastric mucosa.     

Lack of correlation between mucus gel thickness and gastric cytoprotection in rats

The effect of various cytoprotective agents on the thickness of gastric mucus gel layer in rats was studied. It was hypothesized that an increase in the mucus gel layer might be involved in cytoprotection. The results show that this is not the case. Neither prostaglandin E2, 16,16-dimethyl prostaglandin E2, nor mild irritants (20% ethanol, 0.35 M HCl, 20% glucose, 20% mannitol), all given orally, altered the thickness of the mucus gel layer, although these agents were found to be cytoprotective, i.e., inhibiting the formation of gastric mucosal necrotic lesions caused by oral administration of absolute ethanol. The only agents that significantly increased the thickness of the mucus gel layer were a hypertonic solution (4% NaCl) and sodium salicylate. We conclude that if mucus plays a role in cytoprotection, it is not by virtue of an increase in thickness of the gel layer adherent to the gastric mucosa.     

Expression of a Specific Mucin Type Recognized by Monoclonal Antibodies in the Rat Gastric Mucosa Regenerating from Acetic Acid-induced Ulcer

Background: Detailed research on the healing process of gastric mucosa from injury due to various necrotizing agents is important for regenerating medicine as well as for estimating the quality of ulcer healing. To elucidate this issue, we prepared monoclonal antibodies reacting with mucin molecules present in the specific region and layer of the gastrointestinal mucosa. Methods: Acetic acid-induced gastric ulcers were prepared in 8-week-old male Wistar rats. Following 24-h fasting, the animals were killed at 20, 30 and 50 days after acid insult and their stomachs were removed immediately. Serial paraffin sections of the ulcer area were made and immunostained with three distinct monoclonal antibodies. RGM21 and HIK1083 react with mucins derived from the surface mucous cells of the corpus and the gland mucous cells of corpus and antrum, respectively. HCM31 stains sialomucin present in the small intestine and colonic mucosa of rat, but does not react with the intact gastric mucosa, except in the very narrow cardiac gland area. Results: On the 20th day after ulcer preparation, the cells stained with RGM21 and HIK1083 were restricted only to the surface layer and the bottom layer of regenerating epithelia, respectively. HCM31 staining covered most of the regenerating epithelia. On the 30th day, the staining of HCM31 was enhanced in the regenerating area. Staining of RGM21 did not change, but the HIK1083 stained area increased in the lower part of the regenerating epithelia. On the 50th day, the staining with HCM31 weakened markedly in the lower part, and this area was occupied with HIK1083 positive cells. Conclusion: A notable but temporary expression of a kind of sialomucin specifically stained with HCM31 was observed in the regenerating epithelia during the healing stage of acetic acidinduced gastric damage.     

Trefoil factor 2 in gland mucous cell mucin in the mucous gel covering normal or damaged gastric mucosa using the Mongolian gerbil model

Objective. Trefoil factor 2 (TFF2) is localized in gastric gland mucous cells. The purpose of the study was to determine whether TFF2 and gastric mucin are localized in mucous cells and in the surface mucous gel layer (SMGL) of the normal gastric mucosa or in the mucoid cap adherent to gastric mucosal lesions in Mongolian gerbils. Material and methods. Gastric mucosal lesions were induced in Mongolian gerbils using oral administration of Helicobacter pylori (H. pylori), subcutaneous administration of indomethacin, or oral administration of 30% ethanol. Tissue samples were fixed in Carnoy's solution for preservation of the SMGL, dehydrated, and embedded in paraffin. Histochemical staining for gastric mucins and immunostaining for TFF2 were performed. Results. It was found that surface mucous cell mucin and gland mucous cell mucin were segregated in the SMGL covering the normal gastric mucosa, and the mucin of the mucoid cap covering the mucosal lesions was primarily gland mucous cell mucin. There was a co-localization of TFF2 in gland mucous cell mucin in gland mucous cells, the SMGL, and the mucoid cap. Conclusions. The co-localization of TFF2 in gland mucous cells and in the adherent mucus suggests a physical interaction between TFF2 and gland mucous cell mucin, and the participation of TFF2 trapped in the adherent mucus functions in mucosal defense, healing, and repair.     

The value of tissue mucin changes and CEA content in evaluation of benign colonic adenomas

A combined histopathologic, histochemical, and immunohistochemical study of benign colorectal adenomas is presented. Specimens of 39 adenomas were studied by hematoxylin and eosin (HE) stain, alcian blue-periodic acid Schiff (AB-PAS), and high-iron-diamine-alcian blue (HID-AB). Carcinoembryonic antigen (CEA) was demonstrated by peroxidase-antiperoxidase (PAP) technique. Variable amounts of neutral mucin and decreased sulfated acid mucin content, as well as increased CEA content, were found in the dysplastic epithelium of benign colonic adenomas. These changes were not seen in normal colonic mucosa. It is suggested that the above-mentioned methods may represent an aid in the evaluation of malignant potential of benign polyps.     

Mucin abnormality of colonic mucosa in ulcerative colitis associated with carcinoma and/or dysplasia

Twenty cases of resected specimens of carcinoma and/or dysplasia complicating ulcerative colitis were histochemically investigated by the periodic acid-thionin Schiff/potassium hydroxide/periodic acid-Schiff (PAT/KOH/PAS) staining method to see mucin characteristics of carcinoma, dysplasia, and the background mucosa of these lesions. As a control, 11 resected specimens of ulcerative colitis without dysplastic changes and 26 specimens of colonic carcinoma were examined also. All dysplasia and carcinoma in ulcerative colitis stained blue, whereas normal colonic mucin stained red in 65 percent. In 14 of 20 specimens with carcinoma and/or dysplasia, the background mucosa appeared normal with hematoxylin and eosin staining, but showed a mosaic staining pattern with PAT/KOH/PAS. However, only two of 11 specimens of ulcerative colitis without dysplasia and none of 26 specimens of flat mucosa with colorectal carcinoma showed a mosaic staining pattern. From these observations it was concluded that the PAT/KOH/PAS staining method could be useful as a histochemical marker of premalignant change in longstanding ulcerative colitis. Supported by the Grant-in-Aid from the Ministry of Health and Welfare for Group Research of Inflammatory Bowel Disease.     

The human trefoil peptide, TFF1, is present in different molecular forms that are intimately associated with mucus in normal stomach

BACKGROUND: TFF1 is a 6.5 kDa secreted protein that is expressed predominantly in normal gastric mucosa. It is coexpressed with mucins and it can form dimers via a free carboxy terminal cysteine residue. AIMS: To investigate the molecular forms of TFF1 that are present in normal human stomach and the association of the different molecular forms with mucus. SUBJECTS: All subjects had macroscopically normal stomachs at gastroscopy. None had a significant past medical history. METHODS: TFF1 was detected in normal gastric mucosa and adherent mucus by western transfer analysis after electrophoresis on reducing and non-reducing polyacrylamide gels. In some instances, proteins were fractionated by caesium chloride density gradient centrifugation prior to detection of TFF1. The location of TFF1 in gastric mucosa with an intact adherent mucus layer was assessed by immunohistochemistry. RESULTS: Three different molecular forms of TFF1 were detected: TFF1 monomer, TFF1 dimer, and a TFF1 complex with an apparent molecular mass of about 25 kDa. TFF1 was present at higher concentrations than realised previously. The TFF1 complex was present in the adherent mucus gel layer but while its interaction with mucin was destabilised by caesium chloride, the interaction between mucin and the TFF1 dimer was resistant to caesium chloride. CONCLUSIONS: Most of TFF1 in normal human gastric mucosa is present in a complex that is stabilised by a disulphide bond. TFF1 is intimately associated with mucus. The high concentration, colocalisation, and binding of TFF1 to gastric mucus strongly implicate TFF1 in gastric mucus function.