EXISTENCE OF AN ENDOGENOUS INHIBITOR OF DNA SYNTHESIS IN RABBIT SMALL INTESTINE SPECIFICALLY EFFECTIVE ON CELL PROLIFERATION IN ADULT MOUSE INTESTINE

Abstract Background Adult stem cells play an essential role in adult organ physiology and tissue repair and regeneration. While much has been learnt about the property and function of various adult stem cells, the mechanisms of their development remain poorly understood in mammals. Earlier studies suggest that the formation of adult mouse intestinal stem cells takes place during the first few weeks after birth, the postembryonic period when plasma thyroid hormone (T3) levels are high. Furthermore, deficiency in T3 signaling leads to defects in adult mouse intestine, including reduced cell proliferation in the intestinal crypts, where stem cells reside. Our earlier studies have shown that protein arginine methyltransferase 1 (PRMT1), a T3 receptor coactivator, is highly expressed during intestinal maturation in mouse. Methods We have analyzed the expression of PRMT1 by immunohistochemistry and studied the effect of tissue-specific knockout of PRMT1 in the intestinal epithelium. Results We show that PRMT1 is expressed highly in the proliferating transit amplifying cells and crypt base stem cells. By using a conditional knockout mouse line, we have demonstrated that the expression of PRMT1 in the intestinal epithelium is critical for the development of the adult mouse intestine. Specific removal of PRMT1 in the intestinal epithelium results in, surprisingly, more elongated adult intestinal crypts with increased cell proliferation. In addition, epithelial cell migration along the crypt-villus axis and cell death on the villus are also increased. Furthermore, there are increased Goblet cells and reduced Paneth cells in the crypt while the number of crypt base stem cells remains unchanged. Conclusions Our finding that PRMT1 knockout increases cell proliferation is surprising considering the role of PRMT1 in T3-signaling and the importance of T3 for intestinal development, and suggests that PRMT1 likely regulates pathways in addition to T3-signaling to affect intestinal development and/or homeostasis, thus affecting cell proliferating and epithelial turn over in the adult.

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INHIBITION OF THEILER'S ENCEPHALOMYELITIS VIRUS (GDVII STRAIN) OF MICE BY AN INTESTINAL MUCOPOLYSACCHARIDE

Journal of Experimental Medicine ◽

10.1084/jem.98.5.399 ◽

1953 ◽

Vol 98 (5) ◽

pp. 399-415 ◽

Cited By ~ 18

Author(s):

Benjamin Mandel ◽

Efraim Racker

Keyword(s):

Small Intestine ◽

Adult Mouse ◽

Reducing Sugars ◽

Theiler's Virus ◽

Intestinal Tissue ◽

Adult Mice ◽

Encephalomyelitis Virus ◽

Mouse Intestine

A mucopolysaccharide has been obtained from intestinal tissue of adult mice which inhibits both infectivity and hemagglutination of Theiler's GDVII strain of encephalomyelitis virus of mice. The inhibitor is inactive against the FA and TO strains of Theiler's virus and against the Lansing strain of poliomyelitis virus. In the adult mouse, large amounts of the inhibitor are found only in the small intestine. The small intestine of infant mice, however, contains a considerably smaller amount of inhibitor. Inhibition, both in vivo and in vitro, appears to be the result of an interaction between virus and inhibitor. The intestines of man, monkey, rabbit, rat, cotton rat, hamster, sheep, cow, and pig contain relatively little inhibitor whereas guinea pig intestine contains as much as adult mouse intestine. An enzyme was found in the feces of mice, and several other animals, which is capable of destroying the inhibitory activity of the mucopolysaccharide with the liberation of reducing sugars.

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Mucosal ornithine decarboxylase, polyamines, and hyperplasia in infected intestine

AJP Gastrointestinal and Liver Physiology ◽

10.1152/ajpgi.1991.260.1.g45 ◽

1991 ◽

Vol 260 (1) ◽

pp. G45-G51 ◽

Cited By ~ 5

Author(s):

J. Y. Wang ◽

L. R. Johnson ◽

Y. H. Tsai ◽

G. A. Castro

Keyword(s):

Cell Proliferation ◽

Small Intestine ◽

Dna Synthesis ◽

Protein Content ◽

Ornithine Decarboxylase ◽

Trichinella Spiralis ◽

Significant Rise ◽

Ileal Mucosa ◽

Polyamine Biosynthesis ◽

Proximal Half

Ornithine decarboxylase (ODC), through the regulation of polyamine biosynthesis, influences normal mucosal growth and cell proliferation. The purpose of our study was to determine whether mucosal ODC activity and polyamines play a role in the dramatic increase in mucosal mass and crypt elongation associated with parasite-induced inflammation in the small intestine. Rats were inoculated orally with L1 larvae of the parasitic nematode Trichinella spiralis and killed at different times during the enteric phase of infection. Duodenal and jejunal mucosal ODC activities increased significantly from 2 to 14 days, peaking 7 days postinfection (PI). By 21 days PI, enzyme activity had returned to near normal values. In the ileal mucosa, ODC activity was increased only at 7 days PI. Increases in ODC activity were paralleled by increases in mucosal putrescine, spermidine, and spermine content. Infection with T. spiralis induced DNA synthesis and evoked a significant rise in DNA, RNA, and protein content in the mucosa. Increases in nucleic acid and protein levels were most prominent in the proximal half of the small intestine where the majority of worms reside. Treatment of rats with alpha-difluoromethylornithine (DFMO) prevented the infection-induced elevations in mucosal ODC activity, polyamine levels, DNA synthesis, and DNA, RNA, and protein content without influencing the development of inflammation or the parasite's life cycle. These results suggest that mucosal hyperplasia caused by infection may be regulated, in part, by the growth-promoting effects of ODC, presumably through the stimulation of crypt cell proliferation. Thus ODC may be an important determinant of the intestinal response to infection.

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DNA Synthesis and Development Strategies with Possible Consequences on Sexual Dimorphism in Adult Mouse Submandibular Glands

Critical Reviews in Oral Biology & Medicine ◽

10.1177/10454411930040033601 ◽

1993 ◽

Vol 4 (3) ◽

pp. 511-516 ◽

Cited By ~ 6

Author(s):

Paul C. Denny ◽

Patricia A. Denny ◽

Yang Chai ◽

Donna K. Klauser

Keyword(s):

Cell Proliferation ◽

Sexual Dimorphism ◽

Dna Synthesis ◽

Submandibular Gland ◽

Adult Mouse ◽

Development Strategies ◽

Submandibular Glands ◽

Cellular Processes

This article summarizes a series of recent studies that broaden the criteria for sexual dimorphism in adult mouse submandibular gland. From these observations, a hypothesis is presented, suggesting that the gross histological differences that are characteristic of adult sexual dimorphism in the gland secondarily result from differences in the activities of three fundamental cellular processes, that is, rates of cell proliferation, cell sizes, and ongoing patterns of differentiation.

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Genotoxicity and Cell Proliferative Activity of 3-Chloro-4-(Dichloromethyl)-5-Hydroxy-2(5H)-Furanone [MX] in Rat Glandular Stomach

Water Science & Technology ◽

10.2166/wst.1992.0311 ◽

1992 ◽

Vol 25 (11) ◽

pp. 341-345 ◽

Cited By ~ 38

Author(s):

C. Furihata ◽

M. Yamashita ◽

N. Kinae ◽

T. Matsushima

Keyword(s):

Cell Proliferation ◽

Body Weight ◽

Dna Synthesis ◽

Ornithine Decarboxylase ◽

Tap Water ◽

Fold Increase ◽

Single Strand ◽

Glandular Stomach ◽

Decarboxylase Activity ◽

Pyloric Mucosa

MX is a strong direct acting mutagen on Salmonella typhimurium TA100 and is present in chlorinated tap water which contains organic compounds. MX was administered orally to 7-week-old male F344 rats, and its geno-toxicity in the pyloric mucosa of stomach was examined by analysis of DNA single strand scissions by the alkaline elution method. The effect of MX on cell proliferation was examined by assays of the inductions of replicative DNA synthesis and ornithine decarboxylase. MX at closes of 20-48 mg/kg body weight induced DNA single strand scissions dose-dependently (p<0.02) in the pyloric mucosa of the stomach 2 h after its administration. Moreover at doses of 10-60 mg/kg body weight, it induced up to 21-fold increase in replicative DNA synthesis (p<0.01) 16 h after its administration. At doses of 10-60 mg/kg body weight, it induced up to 100-fold increase in ornithine decarboxylase activity with a maximum 16 h after its administration. These results suggest that MX is genotoxic and induces cell proliferation in the glandular stomach of rats.

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TAZ inhibits acinar cell differentiation but promotes immature ductal cell proliferation in adult mouse salivary glands

Genes to Cells ◽

10.1111/gtc.12879 ◽

2021 ◽

Author(s):

Yosuke Miyachi ◽

Miki Nishio ◽

Junji Otani ◽

Shinji Matsumoto ◽

Akira Kikuchi ◽

...

Keyword(s):

Cell Proliferation ◽

Cell Differentiation ◽

Salivary Glands ◽

Acinar Cell ◽

Adult Mouse ◽

Ductal Cell

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Is polyamine synthesis involved in the proliferative response of the intestinal epithelium to urogastrone-epidermal growth factor?

Clinical Science ◽

10.1042/cs0760595 ◽

1989 ◽

Vol 76 (6) ◽

pp. 595-598 ◽

Cited By ~ 11

Author(s):

R. A. Goodlad ◽

H. Gregory ◽

N. A. Wright

Keyword(s):

Cell Proliferation ◽

Small Intestine ◽

Growth Factor ◽

Epidermal Growth Factor ◽

Proliferative Response ◽

Intestinal Cell ◽

Intestinal Epithelial ◽

Polyamine Synthesis ◽

Proliferative Effect ◽

Epidermal Growth

1. Intestinal epithelial cell proliferation was measured in rats maintained on total parenteral nutriton (TPN), in TPN rats given 300 μg of recombinant human epidermal growth factor (urogastrone-epidermal growth factor, URO-EGF) day−1 kg−1, and in further groups given URO-EGF and difluoromethylornithine (DFMO), an inhibitor of the enzyme ornithine decarboxylase (ODC). 2. URO-EGF significantly increased intestinal cell proliferation throughout the gastrointestinal tract. The proliferative response of the colon was particularly pronounced. 3. DFMO reduced the proliferative effect of urogastrone in the stomach and small intestine. DFMO also reduced URO-EGF-stimulated intestinal cell proliferation in the colon, but to a lesser extent. 4. It is concluded that ODC is essential for effecting the proliferative response of the stomach and small intestine to URO-EGF, but this role may be less important in the colon.

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