Brankica Paunovic

Early endothelial damage and increased colonic vascular permeability in the development of experimental ulcerative colitis in rats and mice.

The role of endothelial damage and increased vascular permeability (VP) in the pathogenesis of ulcerative colitis (UC) has not been investigated. We examined using functional, morphologic, and molecular biologic studies whether and to what extent the endothelial barrier dysfunction precedes enhanced epithelial permeability (EP) and the development of mucosal lesions during the early stages of experimental UC. We showed that in rats with iodoacetamide (IA)-induced UC increased colonic VP occurs early (ie, 2.6-fold increase at 15 min, P<0.01) preceding changes in epithelial barrier permeability. EP was unchanged at 15 and 30 min after IA administration and was increased 1.9-fold at 1 h and 6.7-fold at 2 h (both P<0.001) after IA. In the dextran sodium sulfate-induced slowly developing UC, colonic VP was significantly increased in 2 days (P<0.05) and EP only in 4 days (P<0.05). Mucosal endothelial injury led to hypoxia (P<0.05) of colonic surface epithelial cells 30 min after IA administration that was associated with increased expressions of transcription factors hypoxia-inducible factor-1α and early growth response-1. Electron and light microscopy demonstrated areas of colonic mucosa with perivascular edema covered by intact layer of surface epithelial cells in both rat and mouse models of UC. This is the first demonstration in four models of UC that endothelial damage, increased colonic VP, perivascular edema, and epithelial hypoxia precede epithelial barrier dysfunction that is followed by erosions, ulceration, and inflammation in UC.

New mechanistic explanation for the localization of ulcers in the rat duodenum: Role of iron and selective uptake of cysteamine

Cysteamine, a coenzyme A metabolite, induces duodenal ulcers in rodents. Our recent studies showed that ulcer formation was aggravated by iron overload and diminished in iron deficiency. We hypothesized that cysteamine is selectively taken up in the duodenal mucosa, where iron absorption primarily occurs, and is transported by a carrier-mediated process. Here we report that cysteamine administration in rats leads to cysteamine accumulation in the proximal duodenum, where the highest concentration of iron in the gastrointestinal tract is found. In vitro, iron loading of intestinal epithelial cells (IEC-6) accelerated reactive oxygen species (ROS) production and increased [(14)C]cysteamine uptake. [(14)C]Cysteamine uptake by isolated gastrointestinal mucosal cells and by IEC-6 was pH-dependent and inhibited by unlabeled cysteamine. The uptake of [(14)C]cysteamine by IEC-6 was Na(+)-independent, saturable, inhibited by structural analogs, H(2)-histamine receptor antagonists, and organic cation transporter (OCT) inhibitors. OCT1 mRNA was markedly expressed in the rat duodenum and in IEC-6, and transfection of IEC-6 with OCT1 siRNA decreased OCT1 mRNA expression and inhibited [(14)C]cysteamine uptake. Cysteamine-induced duodenal ulcers were decreased in OCT1/2 knockout mice. These studies provide new insights into the mechanism of cysteamine absorption and demonstrate that intracellular iron plays a critical role in cysteamine uptake and in experimental duodenal ulcerogenesis.

Role of anti-angiogenic factor endostatin in the pathogenesis of experimental ulcerative colitis

AIMS Vascular endothelial growth factor (VEGF) and pathologic angiogenesis have been demonstrated to play a pathogenic role in the development and progression of inflammatory bowel disease. Thus, we hypothesized that the potent anti-angiogenic factor endostatin might play a beneficial role in experimental ulcerative colitis (UC). MAIN METHODS We used three animal models of UC: (1) induced by 6% iodoacetamide (IA) in rats, or (2) by 3% dextran sulfate sodium (DSS) in matrix metalloproteinase-9 (MMP-9) knockout (KO) and wild-type mice, and (3) interleukin-10 (IL-10) KO mice. Groups of MMP-9 KO mice with DSS-induced UC were treated with endostatin or water for 5days. KEY FINDINGS We found concomitant upregulation of VEGF, PDGF, MMP-9 and endostatin in both rat and mouse models of UC. A positive correlation between the levels of endostatin or VEGF and the sizes of colonic lesions was seen in IA-induced UC. The levels and activities of MMP-9 were also significantly increased during UC induced by IA and IL-10 KO. Deletion of MMP-9 decreased the levels of endostatin in both water- and DSS-treated MMP-9 KO mice. Treatment with endostatin significantly improved DSS-induced UC in MMP-9 KO mice. SIGNIFICANCE 1) Concomitantly increased endostatin is a defensive response to the increased VEGF in UC, 2) MMP-9 is a key enzyme to generate endostatin which may modulate the balance between VEGF and endostatin during experimental UC, and 3) endostatin treatment plays a beneficial role in UC. Thus, anti-angiogenesis seems to be a new therapeutic option for UC.

Molecular Mechanisms of Basic Fibroblast Growth Factor Effect on Healing of Ulcerative Colitis in Rats

We demonstrated previously that basic fibroblast growth factor (bFGF) accelerated the healing of experimental duodenal ulcers, and we now hypothesize that bFGF might also accelerate the healing of experimental ulcerative colitis (UC). We also explored the potential molecular mechanisms involved in the accelerated healing of UC in rats treated with bFGF. The results demonstrated that colonic lesions were significantly reduced by bFGF treatment, whereas neutralization of bFGF aggravated iodoacetamide-induced UC. Protein expression of bFGF was increased during the healing stage of UC. Tumor necrosis factor-α levels and myeloperoxidase activity were significantly decreased in UC rats treated with bFGF, whereas they increased in rats treated with anti-bFGF antibody. Real-time polymerase chain reaction and immunohistochemistry showed decreased levels of p27 in the UC rats compared with the healthy controls, which was reversed by bFGF treatment in a dose-dependent manner. By immunohistochemistry and double labeling of Ki-67 and CD34, prominent positive staining of Ki-67 and CD34 was seen after bFGF treatment, indicating the enhanced proliferation of fibroblasts and epithelial and endothelial cells, i.e., angiogenesis. We conclude that bFGF plays a beneficial role in the healing of UC in rats. The molecular mechanisms of bFGF in UC healing not only involve the expected increased cell proliferation, especially angiogenesis, but also encompass the reduction of inflammatory cytokines and infiltration of inflammatory cells. Thus, bFGF enema may be a new therapeutic option for UC.

Angiogenic and Anti-Angiogenic Therapy for Gastrointestinal Ulcers: New Challenges for Rational Therapeutic Predictions and Drug Design

Gastrointestinal (GI) ulcers are essentially internal wounds that resist normal healing processes. Since their pathogenesis is poorly understood, and the etiologic (e.g., gastric acid, aspirin-like drugs, stress) and aggravating factors (e.g., H. pylori) are not well characterized, the remaining therapeutic option is to accelerate healing. Superficial mucosal lesions, i.e., erosions usually heal by epithelial regeneration and restitution, but when ulcers involve the muscularis propria, smooth muscle cells do not divide/regenerate. These deep lesions are filled by granulation tissue, i.e., angiogenesis followed by proliferation of connective tissue fibroblasts that deposit collagen over which adjacent surviving and dividing epithelial cells migrate to complete the healing. Our laboratory was the first to postulate that stimulation of angiogenesis alone might be sufficient to accelerate ulcer healing in the GI tract. Indeed, daily treatment of rats with bFGF, PDGF or VEGF markedly improved the healing of cysteamine-induced chronic duodenal ulcers, without any reduction in gastric acid secretion. These results were reproduced by a single dose of gene therapy by adenoviral vectors encoding PDGF or VEGF genes. The molar potency of angiogenic growth factors was 2-7 million times better than the antiulcerogenic effect of antisecretory H2 antagonists. Since histologically & pathologically gastroduodenal ulcers look similar to ulcers in the lower GI tract, we also predicted that the healing of experimental ulcerative colitis might be also improved by these angiogenic growth factors. Rectal enemas containing bFGF or PDGF indeed accelerated the healing of chemically induced ulcerative colitis in rats. VEGF, also known as VPF (vascular permeability factor), however, had no effect or slightly aggravated the colonic lesions. Injection of anti-VEGF neutralizing antibodies, however, counteracted the increased vascular permeability in the early stages of experimental ulcerative colitis and subsequently decreased the number of inflammatory cells in colonic ulcers in rats, resulting in significantly improved healing in the lower GI tract lesions. Thus, the three angiogenic growth factors tested exerted beneficial effect on gastroduodenal ulcers, and rectal enemas with bFGF or PDGF also accelerated the healing of experimental ulcerative colitis. Surprisingly, we achieved the latter effect with anti-VEGF antibodies, most likely because of the pro-inflammatory actions of VEGF in the pathogenesis of ulcerative colitis.

Inhibition of Cysteamine-Induced Duodenal Ulcers in OCT1/2 Knockout Mice

COX-2 and CGRP, downregulation of SOD but no effect on proinflammatory cytokines was observed. In rats with deactivated sensory nerves, the protective effect of orexin on the gastric mucosa against ethanol induced lesions was attenuated. This was associated with decreased expression of HSP70 and increase of COX-2 and SOD. No changes in proinflammatory cytokines were observed. In addition, orexin treatment caused a significant upregulation of CGRP expression. Conclusion: Orexin-A protects the gastric mucosa from acute lesions induced by 75% ethanol and this protective effect is mediated at least in part by sensory nerves and CGRP and stimulatory effect of this peptide on expression of HSP70 and the anti-oxidant enzyme SOD.