Ym is one of the chitinase family proteins, which are widely distributed in mammalian bodies and can bind glycosaminoglycans such as heparin/heparan sulfate. Ym1 is a macrophage protein produced in parasitic infections, while its isoform, Ym2, is upregulated in lung under allergic conditions. In the present study, we revealed the distinct cellular expression of Ym1 and Ym2 in normal mice by in situ hybridization and immunohistochemistry. Ym1 was principally expressed in the lung, spleen, and bone marrow, while Ym2 was found in the stomach. Ym1-expressing cells in the lung were alveolar macrophages, and the immunoreactivity for Ym1 was localized in rough endoplasmic reticulum. In the spleen, Ym1-expressing cells gathered in the red pulp and were electron microscopically identified as immature neutrophils. In the bone marrow, immature neutrophils were intensely immunoreactive, but lost this immunoreactivity with maturation. Moreover, needle-shaped crystals in the cytoplasm of macrophages, which formed erythroblastic islands, also showed intense Ym1 immunoreactivity. Ym2 expression was restricted to the stratified squamous epithelium in the junctional region between forestomach and glandular stomach. The function of Ym1 and Ym2 is still unclear; however, the distinct cellular localization under normal conditions suggests their important roles in hematopoiesis, tissue remodeling, or immune responses as an endogenous lectin.
Rab3 is a subfamily of the small GTP-binding protein Rab family and plays an important role in exocytosis. Several potential effectors of Rab3, including rabphilin3 and Rims (Rim1 and Rim2), have been isolated and characterized. Noc2 was identified originally in endocrine pancreas as a molecule homologous to rabphilin3, but its role in exocytosis is unclear. To clarify the physiological function of Noc2 directly, we have generated Noc2 knockout (Noc2 ؊͞؊ ) mice. Glucose intolerance with impaired insulin secretion was induced in vivo by acute stress in Noc2 ؊͞؊ mice, but not in wild-type (Noc2 ؉͞؉ ) mice. Ca 2؉ -triggered insulin secretion from pancreatic isles of Noc2 ؊͞؊ mice was markedly impaired, but was completely restored by treatment with pertussis toxin, which inhibits inhibitory G protein Gi͞o signaling. In addition, the inhibitory effect of clonidine, an ␣2-adrenoreceptor agonist, on insulin secretion was significantly greater in Noc2 ؊/؊ islets than in Noc2 ؉͞؉ islets. Impaired Ca 2؉ -triggered insulin secretion was rescued by adenovirus gene transfer of wild-type Noc2 but not by that of mutant Noc2, which does not bind to Rab3. Accordingly, Noc2 positively regulates insulin secretion from endocrine pancreas by inhibiting Gi͞o signaling, and the interaction of Noc2 and Rab3 is required for the effect. Interestingly, we also found a marked accumulation of secretory granules in various exocrine cells of Noc2 ؊͞؊ mice, especially in exocrine pancreas with no amylase response to stimuli. Thus, Noc2, a critical effector of Rab3, is essential in normal regulation of exocytosis in both endocrine and exocrine cells.
Galectin is an animal lectin that recognizes beta-galactosides of glycoconjugates and is abundant in the gut. This study revealed the cellular expression of galectin subtypes throughout the mouse digestive tract by in situ hybridization. Signals for five subtypes (galectin-2, -3, -4/6, and -7) were detected exclusively in the epithelia. In the glandular stomach, galectin-2 and -4/6 were predominantly expressed from gastric pits to neck of gastric glands, where mucous cells were the main cellular sources. The small intestine exhibited intense, maturation-associated expressions of galectin-2, -3, and -4/6 mRNAs. Galectin-2 was intensely expressed from crypts to the base of villi, whereas transcripts of galectin-3 gathered at villous tips. Signals for galectin-4/6 were most intense at the lower half of villi. Galectin-2 was also expressed in goblet cells of the small intestine but not in those of the large intestine. In the large intestine, galectin-4/6 predominated, and the upper half of crypts simultaneously contained transcripts of galectin-3. Stratified epithelium from the lip to forestomach and anus intensely expressed galectin-7 with weak expressions of galectin-3. Because galectins in the digestive tract may be multi-functional, information on their cell/stage-specific expression contributes to a better understanding of the functions and pathological involvements of galectins.
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