Project description:Downregulation or gene mutation of MUC6, a major component of gastric mucin, is often identified in human gastric cancers. However, the mechanistic role of MUC6 alteration in gastric carcinogenesis remains unclear. Here, using Muc6-deficient mice, we revealed that dysregulated glycosylation in Muc6-deficient gastric epithelium causes aberrant golgi stress responses, resulting in spontaneous gastric cancer development. Muc6-deficient tumor growth is dependent on MAPK activation, which is mediated by golgi stress-induced golph3 upregulation. Glycomic analysis and lectin-binding assays revealed abnormal expression of mannose-rich N-type glycans in Muc6-deficient gastric tumors. Banana lectin-drug conjugates, which bind to mannose-rich glycans, dramatically suppress mannose-rich murine and human gastric cancer growth. Thus, we propose golgi stress responses and aberrant sugar chains as promising therapeutic targets in gastric cancers accompanied with mucin expression disorder.

Project description:Downregulation or gene mutation of MUC6, a major component of gastric mucin, is often identified in human gastric cancers. However, the mechanistic role of MUC6 alteration in gastric carcinogenesis remains unclear. Here, using Muc6-deficient mice, we revealed that dysregulated glycosylation in Muc6-deficient gastric epithelium causes aberrant golgi stress responses, resulting in spontaneous gastric cancer development. Muc6-deficient tumor growth is dependent on MAPK activation, which is mediated by golgi stress-induced golph3 upregulation. Glycomic analysis and lectin-binding assays revealed abnormal expression of mannose-rich N-type glycans in Muc6-deficient gastric tumors. Banana lectin-drug conjugates, which bind to mannose-rich glycans, dramatically suppress mannose-rich murine and human gastric cancer growth. Thus, we propose golgi stress responses and aberrant sugar chains as promising therapeutic targets in gastric cancers accompanied with mucin expression disorder.

Project description:Gene expression profiles of Bacteroides thetaiotaomicron in vitro during growth on host mucosal polysaccharides as sole carbon sources. All substrates in this series are derived from porcine gastric mucin and include mucin O-glycans and glycosaminoglycans.

Project description:The human C-type lectin Reg3a (HIP/PAP) is an antimicrobial peptide that kills Gram-positive bacteria. Reg3a preserves gut microbiota homeostasis, reinforces intestinal barrier function and thereby helps to fight induced colitis in mice. Transcriptomic data revealed an upregulation of numerous genes involved in the robustness of the intestinal barrier, and the biosynthesis pathway of mucin core 1 and 3 O-glycans.

Project description:Symbiotic interactions between humans and our communities of resident gut microbes (microbiota) play many roles in health and disease. Some gut bacteria utilize mucus as a nutrient source and can under certain conditions damage the protective barrier it forms, increasing disease susceptibility. We investigated how Ruminococcus torques—a known mucin-degrader that remains poorly studied despite its implication in inflammatory bowel diseases (IBDs)— degrades mucin glycoproteins or their component O-linked glycans to understand its effects on the availability of mucin-derived nutrients for other bacteria. We found that R. torques utilizes both mucin glycoproteins and released oligosaccharides from gastric and colonic mucins, degrading these substrates with a panoply of mostly constitutively expressed, secreted enzymes. Investigation of mucin oligosaccharide degradation by R. torques revealed strong fucosidase, sialidase and b1,4-galactosidase activities. There was a lack of detectable sulfatase and weak β1,3-galactosidase degradation, resulting in accumulation of glycans containing these structures on mucin polypeptides. While the Gram-negative symbiont, Bacteroides thetaiotaomicron grows poorly on mucin glycoproteins, we demonstrate a clear ability of R. torques to liberate products from mucins, making them accessible to B. thetaiotaomicron. This work underscores the diversity of mucin-degrading mechanisms in different bacterial species and the probability that some species are contingent on others for the ability to more fully access mucin-derived nutrients. The ability of R. torques to directly degrade a variety of mucin and mucin glycan structures and unlock released glycans for other species suggests that it is a keystone mucin degrader, which may contribute to its association with IBD.

Project description:This experiment continues our investigation of glycosylation in endometrial epithelium. During the menstrual cycle, estrogen and progesterone sensitise the uterus to the implanting embryo. There is a major expansion of Golgi and secretory function with increases in mucin (MUC1) and the appearance of specific glycans. We are using Ishikawa cells as a model for in vitro implantation, and have shown the presence of steroid receptors and alterations in glycosylation after hormone exposure.

Project description:Gene expression profiles of Bacteroides thetaiotaomicron in vitro during growth on host mucosal polysaccharides as sole carbon sources. All substrates in this series are derived from porcine gastric mucin and include mucin O-glycans and glycosaminoglycans. Two different culture formats used: 800ml batch-culture bioreactors and 5ml tube cultures (format is indicated within each sample title). Each set of growths was referenced to a minimal medium glucose reference corressponding to the same culture format. Unfractionated porcine mucosal glycan (PMG) growths were compared to previously published in vivo datasets, which were referenced to the 800ml minimal medium glucose reference dataset.

Project description:The human gut microbiota is crucial for degrading dietary fibres from the diet. However, some of these bacteria can also degrade host glycans, such as mucins, the main component of the protective gut mucus layer. Specific microbiota species and mucin degradation patterns are associated with inflammatory processes in the colon. Yet, it remains unclear how the utilization of mucin glycans affects the degradation of dietary fibres by the human microbiota. Here, we used three dietary fibres (apple pectin, β-glucan and xylan) to study in vitro the dynamics of colon mucin and dietary fibre degradation by the human faecal microbiota. The dietary fibres showed clearly distinguishing modulatory effects on faecal microbiota composition. The utilization of colon mucin in cultures led to alterations in microbiota composition and metabolites. Metaproteome analysis showed the central role of the Bacteroides in degradation of complex fibres while Akkermansia muciniphila was the main degrader of colonic mucin. This work demonstrates the intricacy of complex glycan metabolism by the gut microbiota and how the utilization of host glycans leads to alterations in the metabolism of dietary fibres. Metaproteomics analysis of this data reveals the functional activities of the bacteria in consortia, by this contributing to a better understanding of the complex metabolic pathways within the human microbiota that can be manipulated to maximise beneficial microbiota-host interactions. In this study two different mucin samples were used: commercial porcine gastric mucin and in house prepared porcine colonic mucin. This dataset analyses the proteome of: A) autoclaved porcine colonic mucin; B) not autoclaved porcine colonic mucin; C) porcine gastric mucin.

Project description:The process of aging is associated with disturbed mineral homeostasis, such as zinc deficiency. Simultaneously, cellular response to external stimuli, including receptor signaling and DNA repair response diminishes, and epigenetic dysregulation occurs. The Golgi apparatus plays various roles in the cell; however, the effect of aging on the morphology and function of the Golgi apparatus and the impact of Golgi senescence in cellular activity remains unknown. In the present study, we found that Golgi stress is associated with senescent cell irresponsiveness to external stimuli. The senescent Golgi was associated with a disassembled microtubule network in the Golgi and perinuclear areas. These effects could be reproduced by disruption of the Golgi-associated microtubules or zinc depletion. To clarify the importance of Golgi-zinc homeostasis in more detail, the implications of the Golgi-zinc transporter ZIP13 were analyzed; Zip13-deficient mice Golgi exhibited morphology similar to that of senescent Golgi. Additionally, fibroblasts from Zip13-deficient mice showed dysregulation of DNA repair and cellular acetylation with downregulated nuclear translocation of p300, HDAC1/2, and p53 proteins, which are reminiscent characteristics of senescent cells. Our findings demonstrate the underlying reason for senescent cell irresponsiveness to various stimuli and highlight the importance of a zinc-rich diet during aging.

Project description:C-mannosylated peptides are easily detected by mass spectrometry (MS) from purified proteins but not from complex biological samples. Enrichment of specific glycopeptides by lectin affinity prior to MS analysis has been widely applied to support glycopeptide identification, but was up till now not available for C-mannosylated peptides. Here we used the α-mannose-specific Burkholderia cenocepacia lectin A (BC2L-A) and show that, in addition to its previously demonstrated high-mannose N-glycan binding capability, this lectin is able to retain C- and O-mannosylated peptides. We evaluated the binding abilities of BC2L-A to standard peptides. In conclusion, BC2L-A enabled specific enrichment of C- and O-mannosylated peptides and might have superior properties over other lectins for binding to α-mannose-terminating glycans.