Effect of diabetic state on co-localization of substance P and serotonin in the gut in animal models.

Changes in the numbers of serotonin- and substance P-immunoreactive (IR) cells occur in several animal models of diabetes. It is not known, however, whether these changes are a result of actual cell loss or are caused by modified gene expression in cells showing co-localization of serotonin and substance P. The pattern of mono- and co-expression of serotonin, as well as of substance P, was therefore investigated in gastrointestinal endocrine cells from animal models of human type 1 and type 2 diabetes, namely non-obese diabetic (NOD) and obese diabetic (ob/ob) mice. Immunocytochemical staining by the avidin-biotin complex method was performed for computerized image analysis of each cell type, and by immunofluorescence double staining to study co-localization. Tissues from antrum, proximal duodenum and distal colon were investigated. Co-localization of serotonin- and substance P-IR was found in all investigated parts of the gut. In antrum, substance P immunoreactivity was found exclusively in serotonin-IR cells. In both NOD and ob/ob mice there was a reduced number of substance P-IR cells, but an unchanged serotonin-IR cell count, which thus tallies with a shut-off of substance P expression in antral enterochromaffin cells. In duodenum, both diabetes models showed a decreased number of serotonin-IR cells. Furthermore there was a decreased number of substance P-IR cells in the type 2 model. The proportion of serotonin-IR cells showing substance P-immuno-reactivity was decreased in both diabetic models, thus indicating a shut-off of substance P-gene expression. However, this does not fully explain the changes in duodenum, but the diabetic state probably affects the number of mono-expressed cells as well. In colon, no change was found in diabetic mice regarding co-localization of substance P and serotonin. However, pre-diabetic NOD mice showed a decreased proportion of substance P in serotonin-IR cells, which might be explained by the increased number of serotonin-IR cells, combined with an unchanged number of substance P-IR cells. In conclusion, diabetic animal models of both type 1 and type 2 appear to have a combination of decreased expression of substance P in serotonin-IR cells of both antrum and duodenum, as well as a change in the number of mono-expressed cells. The pattern in colon, on the other hand, seems to be unaffected.

[1]  A. Spångeus,et al.  Large intestinal endocrine cells in non-obese diabetic mice. , 1998, Journal of diabetes and its complications.

[2]  K. Kohnert,et al.  The distribution of endocrine cell types of the gastrointestinal mucosa in genetically diabetic (db/db) mice. , 1995, Gastroenterology.

[3]  R. Stenling,et al.  Peptidergic innervation and endocrine cells in the human liver. , 1993, Scandinavian journal of gastroenterology.

[4]  D. G. Ferguson,et al.  An indirect immunofluorescence procedure for staining the same cryosection with two mouse monoclonal primary antibodies. , 1993, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[5]  M. Boon,et al.  Notes on the application of microwaves for antigen retrieval in paraffin and plastic tissue sections. , 1993, European journal of morphology.

[6]  N. Talley,et al.  Review article: 5‐hydroxytryptamine agonists and antagonists in the modulation of gastrointestinal motility and sensation: clinical implications , 1992, Alimentary pharmacology & therapeutics.

[7]  H. Kolb,et al.  Mouse models of insulin dependent diabetes: low-dose streptozocin-induced diabetes and nonobese diabetic (NOD) mice. , 1987, Diabetes/metabolism reviews.

[8]  J. Lord,et al.  Effect of age on hepatocyte and soleus muscle insulin receptor binding in lean and genetically obese diabetic (ob/ob) mice. , 1985, Diabetes research.

[9]  L. Schiller,et al.  Disorders of gastrointestinal motility associated with diabetes mellitus. , 1983, Annals of internal medicine.

[10]  A. Spångeus,et al.  Does diabetic state affect co-localization of peptide YY and enteroglucagon in colonic endocrine cells? , 2000, Histology and histopathology.

[11]  A. Spångeus,et al.  Substance P in the gastrointestinal tract of non-obese diabetic mice. , 1998, Scandinavian journal of gastroenterology.

[12]  G. Locke Epidemiology of gastrointestinal complications of diabetes mellitus. , 1995, European journal of gastroenterology & hepatology.

[13]  Y. Tochino The NOD mouse as a model of type I diabetes. , 1987, Critical reviews in immunology.

[14]  P. Lidberg On the role of substance P and serotonin in the pyloric motor control. An experimental study in cat and rat. , 1985, Acta physiologica Scandinavica. Supplementum.

[15]  L. Scott,et al.  Small intestinal transit and myoelectric activity in diabetic rats. , 1980 .

[16]  D. Coleman,et al.  Laboratory animals exhibiting obesity and diabetes syndromes. , 1977, Metabolism: clinical and experimental.