Hepatocyte growth factor pretreatment reduces apoptosis and mucosal damage after intestinal ischemia-reperfusion

Improved Preservation of Rat Small Intestine Transplantation Graft by Introduction of Mesenchymal Stem Cell-Secreted Fractions

Segmental grafts from living donors have advantages over grafts from deceased donors when used for small intestine transplantation. However, storage time for small intestine grafts can be extremely short and optimal graft preservation conditions for short-term storage remain undetermined. Secreted factors from mesenchymal stem cells (MSCs) that allow direct activation of preserved small intestine grafts. Freshly excised Luc-Tg LEW rat tissues were incubated in preservation solutions containing MSC-conditioned medium (MSC-CM). Preserved Luc-Tg rat-derived grafts were then transplanted to wild-type recipients, after which survival, injury score, and tight junction protein expression were examined. Luminance for each graft was determined using in vivo imaging. The findings indicated that 30-100 and 3-10 kDa fractions of MSC-CM have superior activating effects for small intestine preservation. Expression of the tight-junction proteins claudin-3, and zonula occludens-1 preserved for 24 h in University of Wisconsin (UW) solution containing MSC-CM with 50-100 kDa, as shown by immunostaining, also indicated effectiveness. Reflecting the improved graft preservation, MSC-CM preloading of grafts increased survival rate from 0% to 87%. This is the first report of successful transplantation of small intestine grafts preserved for more than 24 h using a rodent model to evaluate graft preservation conditions that mimic clinical conditions.

Influence of Growth Factors on the Development of Necrotizing Enterocolitis

Growth factors have important roles in gastrointestinal tract development, maintenance, and response to injury. Various experiments have been used to demonstrate growth factor influence in multiple disease processes. These studies demonstrated enhancement of mucosal proliferation, intestinal motility, immune modulation, and many other beneficial effects. Select growth factors, including epidermal growth factor and heparin-binding epidermal growth factor like growth factor, demonstrate some beneficial effects in experimental and clinical intestinal injury demonstrated in necrotizing enterocolitis. The roles of glucagon-like peptide 2, insulin-like growth factor 1, erythropoietin, growth hormone, and hepatocyte growth factor in necrotizing enterocolitis are summarized in this article.

Hepatocyte growth factor, hepatocyte growth factor activator and arginine in a rat fulminant colitis model

Introduction

Dextran sodium sulfate (DSS) is commonly used to induce a murine fulminant colitis model. Hepatocyte growth factor (HGF) has been shown to decrease the symptoms of inflammatory bowel disease (IBD) but the effect of its activator, HGFA, is not well characterized. Arginine reduces effects of oxidative stress but its effect on IBD is not well known. The primary aim is to determine whether HGF and HGFA, or arginine will decrease IBD symptoms such as pain and diarrhea in a DSS-induced fulminant colitis murine model.

Methods

A severe colitis was induced in young, male Fischer 344 rats with 4% (w/v) DSS oral solution for seven days; rats were sacrificed on day 10. Rats were divided into five groups of 8 animals: control, HGF (700 mcg/kg/dose), HGF and HGFA (10 mcg/dose), HGF and arginine, and high dose HGF (2800 mcg/kg/dose). Main clinical outcomes were pain, diarrhea and weight loss. Blinded pathologists scored the terminal ileum and distal colon.

Results

DSS reliably induced severe active colitis in 90% of animals (n = 36/40). There were no differences in injury scores between control and treatment animals. HGF led to 1.38 fewer days in pain (p = 0.036), while arginine led to 1.88 fewer days of diarrhea (P = 0.017) compared to controls. 88% of HGFA-treated rats started regaining weight (P < 0.001).

Discussion/Conclusion

Although treatment was unable to reverse fulminant disease, HGF and arginine were associated with decreased days of pain and diarrhea. These clinical interventions may reduce associated symptoms for severe IBD patients, even when urgent surgical intervention remains the only viable option.

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We developed a fulminant colitis model in adolescent rats.

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The fulminant colitis model reproduces inflammatory bowel disease in humans.

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The rats were treated with hepatocyte growth factor, its activator, and arginine.

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The HGF treated rats had fewer days of pain.

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The arginine treated rats had fewer days of diarrhea.

Direct peritoneal resuscitation improves survival and decreases inflammation after intestinal ischemia and reperfusion injury

BACKGROUND

Direct peritoneal resuscitation (DPR) has previously been shown to alter blood flow in the small bowel mesenteric vessels in models of intestinal ischemia. However, a survival advantage or its effects on local tissue inflammation have not been previously demonstrated. We hypothesized that DPR would increase survival and decrease intestinal tissue inflammation after intestinal ischemia and reperfusion (I/R) injury.

METHODS

Eight-week-old male C57Bl6J mice were anesthetized and underwent midline laparotomy. I/R and DPR groups were exposed to superior mesenteric artery occlusion for 60 min with a nontraumatic clamp. Immediately after removal of the clamp, 1 mL of phosphate-buffered saline, 1 mL of minimal essential media, or 1 mL of minimal essential media supplemented with fetal bovine serum, penicillin and/or streptomycin, and glutamine were placed into the abdominal cavity of DPR groups. Animals were then closed in two layers and allowed to reperfuse for 6 h (cytokine analysis, n = 6 per group) or 7 d (survival analysis, n = 10 per group). After 6 h of reperfusion, animals were euthanized. Intestines were harvested and homogenized. Extracts were quantified for total protein content (Bradford assay), myeloperoxidase activity, tissue inflammatory cytokine, and growth factor production. P < 0.05 was significant.

RESULTS

I/R caused marked intestinal ischemia, significant mortality, and a significant increase in tissue cytokine and growth factor levels (P < 0.05). Seven-day survival was 30% for I/R without treatment and rose to 60% with DPR therapy using phosphate-buffered saline as the dialysate. DPR using plain MEM or MEM with supplements after ischemia increased 7-d survival to 90% (P < 0.05). DPR also significantly decreased intestinal tissue levels of myeloperoxidase, as well as intestinal tissue levels of multiple growth factors and inflammatory cytokines.

CONCLUSIONS

DPR increases survival and decreases intestinal inflammation after intestinal I/R injury. Translational applications are readily achievable and should be considered for patients with intestinal ischemic pathology.

The canonical Notch signaling was involved in the regulation of intestinal epithelial cells apoptosis after intestinal ischemia/reperfusion injury

Notch signaling plays a critical role in the maintenance of intestinal homeostasis. The aim of the present study was to investigate the role of Notch signaling in the apoptosis of intestinal epithelial cells after intestinal ischemia reperfusion (I/R) injury. Male C57BL/6 mice were subjected to sham operation or I/R injury. Intestinal tissue samples were collected at 12 h after reperfusion. TUNEL (terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labeling) staining showed that intestinal I/R injury induced significantly increased apoptosis of intestinal epithelial cells. Meanwhile, the mRNA expression of Jagged1, DLL1, Notch2, and Hes5, and protein expression of NICD2 and Hes5 were increased significantly after I/R injury in intestinal epithelial cells. In an in vitro IEC-6 culture model, flow cytometry analyses showed that inhibition of Notch signaling by γ-secretase inhibitor DAPT and the suppression of Hes5 expression using siRNA both significantly increased the apoptosis of IEC-6 cells under the condition of hypoxia/reoxygenation (H/R). In conclusion, the Notch2/Hes5 signaling pathway was activated and involved in the regulation of intestinal epithelial cells apoptosis in intestinal I/R injury.

The role of growth factors in intestinal regeneration and repair in necrotizing enterocolitis

Necrotizing enterocolitis (NEC) is a devastating intestinal disease resulting in major neonatal morbidity and mortality. The pathology is poorly understood, and the means of preventing and treating NEC are limited. Several endogenous growth factors have been identified as having important roles in intestinal growth as well as aiding intestinal repair from injury or inflammation. In this review, we will discuss several growth factors as mediators of intestinal regeneration and repair as well as potential therapeutic agents for NEC.

Effect of pasteurization on selected immune components of donated human breast milk

OBJECTIVE

Pasteurized, donated milk is increasingly provided to preterm infants in the absence of mother's own milk. The aim of this study was to determine the effect of pasteurization on the concentration of selected components in donated human breast milk.

STUDY DESIGN

Donated milk from 34 mothers was pooled into 17 distinct batches (4 mothers per batch). Aliquots of each batch were then Holder pasteurized (62.5 °C for 30 min). Interferon-γ (IFN-γ), tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β), IL-2, IL-4, IL-5, IL-8, IL-10, IL-12p70 and IL-13 were measured in a multiplex enzyme-linked immunosorbent assay (ELISA). Granulocyte colony-stimulating factor (G-CSF), heparin-binding epidermal-like growth factor (HB-EGF) and hepatocyte growth factor (HGF) were measured by ELISA. Lipids were assessed by gas chromatography and gangliosides by the resorcinol-HCl reaction.

RESULT

IFN-γ, TNF-α, IL-1β, IL-10 and HGF were significantly reduced by pasteurization (P<0.05). Gangliosides were not affected, but the proportion of medium-chain saturated fats was increased (P<0.05) with a trend towards a decreased proportion of oleic acid (P=0.057).

CONCLUSION

Pasteurization significantly reduced the concentration of several immunoactive compounds present in breast milk, but did not have an impact on others.

The effect of hepatocyte growth factor on gene transcription during intestinal adaptation

PURPOSE

Previously, we investigated the physiologic effects of hepatocyte growth factor (HGF) on intestinal adaptation using a massive small bowel resection (MSBR) rat model. To correlate these altered physiologic changes with gene alterations, we used microarray technology at 7, 14, and 21 days after MSBR.

METHODS

Forty-five adult female rats were divided into 3 groups and underwent 70% MSBR, MSBR + HGF (intravenous 150 μg/kg per day), or sham operation (control). Five animals per group were killed at each time point. Ileal mucosa was harvested and RNA extracted. Rat Gene Chips and Expression Console software (Affymetrix, Santa Clara, CA) were used. Statistical analysis was done by analysis of variance using Partek Genomics Suite (Partek, Inc, St Louis, MO). Results were significant if fold change was more than 2 or less than -2, with P < .05.

RESULTS

Compared with the control group, MSBR group had significant increases in up-regulated and down-regulated genes. The MSBR-HGF group had further increases in up-regulated and down-regulated genes compared with the MSBR group. At 7 days, 6 cellular hypertrophy families had 30 genes up-regulated, and HGF up-regulated an additional 14 genes. At 21 days, 5 hyperplasia gene families had 32 up-regulated genes. Hepatocyte growth factor up-regulated an additional 16 genes.

CONCLUSIONS

Microarray analysis of intestinal adaptation identified an early emphasis on hypertrophy and later emphasis on hyperplasia. This is the first demonstration that the effect of HGF on intestinal adaptation is recruitment of more genes rather than an increase in the fold change of already up-regulated genes.

Can we protect the gut in critical illness? The role of growth factors and other novel approaches

The intestine plays a central role in the pathophysiology of critical illness and is frequently called the "motor" of the systemic inflammatory response. Perturbations to the intestinal barrier can lead to distant organ damage and multiple organ failure. Therefore, identifying ways to preserve intestinal integrity may be of paramount importance. Growth factors and other peptides have emerged as potential tools for modulation of intestinal inflammation and repair due to their roles in cellular proliferation, differentiation, migration, and survival. This review examines the involvement of growth factors and other peptides in intestinal epithelial repair during critical illness and their potential use as therapeutic targets.

Distribution of attenuated salmonellae carrying hepatocyte growth factor genes in murine gastric ulcers

AIM: To highlight tissue distribution of attenuated salmonellae carrying hepatocyte growth factor (HGF) genes in murine gastric ulcers and thereby to provide a basis for HGF application in gene therapy for gastric ulcers.

METHODS: Eighty acetic acid-induced gastric ulcer rats were randomly divided into two groups: HGF treatment group (n = 40 rats) and green fluorescent protein (GFP) treatment group (n = 40 rats). Intragastric administration of attenuated salmonellae carrying HGF and GFP was performed on rats, each one with 0.2 mL, and once every two days for totally 3 times. Three rats in GFP group were killed each time on day 1, 3, 5, 7, 9 and frozen sections were made from stomach, liver, intestines, spleen and kidney to observe tissue distribution of target genes under fluorescence microscopy; 3 rats in HCF group were killed each time on day 1, 3, 5, 7, 9, 11, 13, 15, 17, 19 and 21 to obverse tissue expression using ELISA and to detect tissue distribution of eukaryotic expression vector using PCR.

RESULTS: In GFP group, some strong fluorescence was observed in the stomach and intestines under fluorescence microscopy, and weak fluorescence in liver, spleen and kidneys. The intensity of fluorescence reached its peak on day 5 and day 7. In HGF group, high-level HGF gene expression by ELISA was detected in stomach, liver, spleen, kidney and intestines with higher expression in the intestines and stomach. CMV promoter fragment of eukaryotic expression vectors was detected in stomach, liver, spleen, kidney, large intestine and small intestine.

CONCLUSION: As a cellular vector, orally-administrated attenuated salmonellae could transfer target genes eukaryotic expression vector into stomach and intestinal tissues for gastric ulcer treatment in rats.

Hepatocyte growth factor prevents pulmonary ischemia-reperfusion injury in mice

BACKGROUND

Ischemia-reperfusion (IR) injury after lung transplantation leads to significant morbidity and mortality in recipients, which remains the major obstacle in clinical lung transplantation. To reduce pulmonary graft dysfunction and improve prognosis after lung transplantation, prevention of IR-induced lung injury in the peri-operative period is required. In the present study, we investigated the effects of recombinant hepatocyte growth factor (HGF) on pulmonary IR injury using a murine model system.

METHODS

To assess the protective effect of HGF against lung injury, mice with pulmonary IR were divided into two groups and injected with 500 microg/kg of human recombinant HGF or the same dose of saline alone as a control.

RESULTS

After pulmonary IR injury, the lung injury score increased in a time-dependent manner up to 24 hours. A significant reduction of lung injury score was observed with the administration of exogenous HGF. Moreover, the ratio of apoptotic cells was significantly reduced in mice treated with HGF. Significantly increased expression of Bcl-xL was observed after IR in mice administered HGF as compared with saline-treated controls. In contrast, expression of Bax was reduced significantly in HGF-treated mice. Serum levels of endogenous murine HGF were increased significantly in HGF-treated mice.

CONCLUSIONS

Our findings indicate that administration of exogenous HGF ameliorates the pulmonary tissue injury induced by IR, which may provide an alternative for prevention of IR-induced lung injury in the peri-operative period in lung transplantation.

Mechanisms of cell death in oxidative stress

Reactive oxygen or nitrogen species (ROS/RNS) generated endogenously or in response to environmental stress have long been implicated in tissue injury in the context of a variety of disease states. ROS/RNS can cause cell death by nonphysiological (necrotic) or regulated pathways (apoptotic). The mechanisms by which ROS/RNS cause or regulate apoptosis typically include receptor activation, caspase activation, Bcl-2 family proteins, and mitochondrial dysfunction. Various protein kinase activities, including mitogen-activated protein kinases, protein kinases-B/C, inhibitor-of-I-kappaB kinases, and their corresponding phosphatases modulate the apoptotic program depending on cellular context. Recently, lipid-derived mediators have emerged as potential intermediates in the apoptosis pathway triggered by oxidants. Cell death mechanisms have been studied across a broad spectrum of models of oxidative stress, including H2O2, nitric oxide and derivatives, endotoxin-induced inflammation, photodynamic therapy, ultraviolet-A and ionizing radiations, and cigarette smoke. Additionally ROS generated in the lung and other organs as the result of high oxygen therapy or ischemia/reperfusion can stimulate cell death pathways associated with tissue damage. Cells have evolved numerous survival pathways to counter proapoptotic stimuli, which include activation of stress-related protein responses. Among these, the heme oxygenase-1/carbon monoxide system has emerged as a major intracellular antiapoptotic mechanism.

Effects of hepatocyte growth factor on rat inflammatory bowel disease models

Hepatocyte growth factor (HGF) is a hepatotrophic factor and, also, functions as an epithelial growth factor. We examined the therapeutic effects of HGF on rat inflammatory bowel disease models induced by trinitrobenzensulfonic acid or dextran sulfate sodium. Recombinant human HGF was continuously administered at 50 microg/body/day using an intraperitoneally implanted pump for 7 days. Treatment of HGF reduced the ulcerated area, histological damage score, mucosal myeloperoxidase activity, and epithelial apoptotic rate but did not increase epithelial mitotic rate and immunohistochemical labeling indexes of proliferating cell nuclear antigen, Ki-67, and bromodeoxyuridine as indexes of epithelial cell proliferation in either model. We then examined the epithelial localization of the HGF receptor c-met and identified it on the surface epithelia, where apoptosis was observed, but did not find it in the proliferative zone. These results suggest that HGF exhibits therapeutic effects via anti-inflammation including antiapoptosis rather than epithelial cell proliferation in these inflammatory bowel disease models.

Review article: diagnosis and management of mesenteric ischaemia with an emphasis on pharmacotherapy

Mesenteric ischaemia results from decreased blood flow to the bowel, causing cellular injury from lack of oxygen and nutrients. Acute mesenteric ischaemia (AMI) is an uncommon disorder with high morbidity and mortality, but outcomes are improved with prompt recognition and aggressive treatment. Five subgroups of AMI have been identified, with superior mesenteric artery embolism (SMAE) the most common. Older age and cardiovascular disease are common risk factors for AMI, excepting acute mesenteric venous thrombosis (AMVT), which affects younger patients with hypercoaguable states. AMI is characterized by sudden onset of abdominal pain; a benign abdominal exam may be observed prior to bowel infarction. Conventional angiography and more recently, computed tomography angiography, are the cornerstones of diagnosis. Correction of predisposing conditions, volume resuscitation and antibiotic treatment are standard treatments for AMI, and surgery is mandated in the setting of peritoneal signs. Intra-arterial vasodilators are used routinely in the treatment of non-occlusive mesenteric ischaemia (NOMI) and also are advocated in the treatment of occlusive AMI to decrease associated vasospasm. Thrombolytics have been used on a limited basis to treat occlusive AMI. A variety of agents have been studied in animal models to treat reperfusion injury, which sometimes can be more harmful than ischaemic injury. Chronic mesenteric ischaemia (CMI) usually is caused by severe obstructive atherosclerotic disease of two or more splanchnic vessels, presents with post-prandial pain and weight loss, and is treated by either surgical revascularization or percutaneous angioplasty and stenting.

Hepatocyte growth factor treatment ameliorates diarrhea and bowel inflammation in a rat model of inflammatory bowel disease

BACKGROUND/PURPOSE

Transfection of the HLA-B27 gene into normal Fischer rats induces phenotypic changes similar to inflammatory bowel disease (IBD). This study investigated the benefits of 2 doses of hepatocyte growth factor (HGF) on the manifestations of IBD in this rat model.

METHODS

Fischer rats and HLA-B27 rats were divided into 4 groups: Fischer rats treated with saline, HLA-B27 rats treated with saline, HGF at 150 microg/kg/d, and HGF at 300 microg/kg/d. HGF or saline was infused for 14 days via an osmotic pump attached to a catheter in the internal jugular vein. After treatment, rats were evaluated for diarrhea and reduction in gross and microscopic bowel inflammation. Statistics were determined using analysis of variance (ANOVA). A P value < or =.05 was considered significant.

RESULTS

Administration of HGF at 150 microg/kg/d decreased diarrhea by 40%, gross inflammation by 41%, and microscopic inflammation by 72% (P < or =.05). At 300 microg/kg/d HGF decreased diarrhea by 46%, gross inflammation by 45%, and microscopic inflammation by 54% (P < or =.05).

CONCLUSIONS

HGF administration reduces the clinical manifestations of IBD in this rat model. Similar effects were seen at both doses of HGF administration, implying that there is a plateau above which further increases in HGF levels provides no added benefit. HGF administration may be clinically useful in the management of IBD.

Skeletal muscle targeting in vivo electroporation-mediated HGF gene therapy of bleomycin-induced pulmonary fibrosis in mice

Lung fibrosis is a common feature of interstitial lung diseases, and apoptosis and fibrinogenesis play critical roles in its formation and progression. Hepatocyte growth factor (HGF) is one of the ideal therapeutic agents for prevention of lung fibrosis because of its antiapoptotic and fibrinolytic effects. The aim of this study is to establish nonviral HGF gene therapy of bleomycin-induced lung fibrosis avoiding the viral vector-related side effects. C57BL/6 mice were injected with 3.0 mg/kg body weight of bleomycin intratracheally. Following bleomycin injection, 50 microl of pUC-HGF (1 mg/ml) was injected into each of the quadriceps muscle. Immediately after plasmid injection, in vivo electroporation was performed with pulse generator. Skeletal muscle-targeting electroporation induced transgene expression on day 1 and persisted for 4 weeks, and human HGF was also detected in the lung. In mice transferred with HGF, pathological score (1.0+/-0.3 vs 3.2+/-0.6), TUNEL-positive cell index (4.5+/-1.1 vs 14.2+/-3.1), and hydroxyproline content (9.0+/-1.3 vs 14.4+/-5.1 micromol/g) were significantly reduced compared with the control. Furthermore, survival rate of HGF mice was significantly improved compared with the control. Our data indicate that HGF gene therapy with a single skeletal muscle-targeting electroporation has a therapeutic potential for bleomycin-induced lung fibrosis and this strategy can be applied as a practical gene therapy protocol for various organs.

c-Met tyrosine kinase receptor expression and function in human and canine osteosarcoma cells

To further characterize the role of hepatocyte growth factor-scatter factor (HGF-SF) and its receptor (c-Met) in osteosarcoma (OS), human OS cell lines with low (SAOS-2) and high (SAOS-LM2) metastatic potential, and cell lines derived from spontaneous canine OS were studied. All cell lines were evaluated for c-Met and HGF-SF expression and receptor activation using Northern, RT-PCR, and Western blot analyses, respectively. Functional activity of receptor-ligand interaction was measured using c-Met phosphorylation status, proliferation assays (anchorage-dependent and -independent), Matrigel invasion, modulation of urokinase plasminogen activator (uPA) expression, and cell dispersion (scattering). All cell lines exhibited steady-state mRNA expression of c-Met. The canine OS cell lines also expressed HGF-SF mRNA as determined by RT-PCR analysis. Western analysis showed c-Met protein expression and HGF-stimulated (human) or constitutive (canine) receptor autophosphorylation. Treatment with recombinant human HGF resulted in enhanced proliferation in 3 of 5 OS cell lines and enhanced colony formation in 2 of 5 OS cell lines. Matrigel invasion was significantly enhanced in 3 of the cell lines and uPA levels were significantly increased in the SAOS-2 cells following HGF treatment. Scattering was enhanced in both the SAOS-2 and SAOS-LM2 cells. These data support the involvement of c-Met and HGF-SF in the growth and progression of human and canine OS, and may offer new targets for the development of therapeutic strategies for OS.

Hepatocyte growth factor facilitates colonic mucosal repair in experimental ulcerative colitis in rats

Hepatocyte growth factor (HGF) modulates intestinal epithelial cell proliferation and migration, serving as a critical regulator of intestinal wound healing. In this study, we examined the effect of administration of recombinant human HGF on colonic mucosal damage in vivo. Acute colitis was induced in rats by feeding with 5% dextran sulfate sodium (DSS) for 7 days, and colitis was subsequently maintained by feeding with 1% DSS. On the 5th day of DSS administration, osmotic pumps releasing recombinant human HGF (200 microg/day) were implanted into the peritoneum of the rats. Continuous intraperitoneal delivery of HGF led to both increased serum human HGF levels and c-Met tyrosine phosphorylation within the colonic mucosa. Compared with mock-treated rats, those administered human HGF showed a reduction in colitis-associated weight loss, large intestinal shortening, and improved colonic erosions. Enhanced epithelial regeneration and cellular proliferation were observed in rats treated with recombinant human HGF. The weights of the liver, kidneys, and spleen were not affected by HGF administration. These results indicate that HGF administration accelerates colonic mucosal repair in rats with DSS-induced colitis and suggest that recombinant human HGF may be a useful therapeutic tool to facilitate intestinal wound healing in patients with ulcerative colitis.

IL-11 pretreatment reduces cell death after intestinal ischemia-reperfusion

BACKGROUND

Intestinal ischemia-reperfusion (IR) injury results in enterocyte necrosis and apoptosis. This study was designed to evaluate the potential protective effects of interleukin-11 (IL-11) pretreatment on intestinal mucosa following IR injury.

MATERIALS AND METHODS

Sham (n = 7) and control animals (n = 7) received 48 h of intravenous saline while treatment animals (n = 7) received IL-11 (750 microg/kg/day). Sham animals then underwent laparotomy alone, while control and treatment animals underwent 35 min of mesenteric artery occlusion and 120 min of reperfusion. Midjejunum samples were obtained and serum was drawn. Fluorometric assays were performed for hexosaminidase A (HEX A) and beta-glucuronidase (GLUC), markers of enterocyte necrosis. Apoptosis was quantified by TUNEL and confirmed by DNA fragmentation. Transcription of Bcl-2, an antiapoptotic regulator, was assessed by multiplex RT-PCR. Statistical analysis was performed using ANOVA and expressed as means +/- SEM.

RESULTS

In pretreated animals, HEX A and GLUC activities after IR were reduced from 570 +/- 54 to 426 +/- 47 nmol/ml/h (P < 0.05) and from 183 +/- 29 to 125 +/- 7 nmol/ml/h (P < 0.01), respectively. Pretreated animals had a reduced number of apoptotic cells per 10 crypts (79 +/- 11) compared with untreated rats (255 +/- 17) after IR injury (P < 0.01). Mucosal DNA from pretreated rats qualitatively showed less fragmentation on electrophoresis. Relative Bcl-2 band intensity was higher in pretreated animals (1.04 +/- 0.09) compared with controls (0.78 +/- 0.07) (P < 0.05).

CONCLUSIONS

IL-11 pretreatment reduced crypt cell apoptosis after IR injury, possibly by upregulating Bcl-2. Treated animals also demonstrated attenuation in the release of certain lysosomal enzymes. These data indicate that following IR injury, IL-11 improves enterocyte survival by reducing necrosis and apoptosis.

A possible mechanism for prevention of intestinal programmed cell death after ischemia-reperfusion injury by hepatocyte growth factor pretreatment

BACKGROUND/PURPOSE

Intestinal ischemia-reperfusion (IR) injury produces necrosis and apoptosis resulting in tissue loss. The authors have observed previously that pretreatment with hepatocyte growth factor (HGF) attenuates enterocyte apoptosis after IR. This study investigated the effects of HGF on tissue levels of caspase-8, an apoptosis initiator, and caspase-3, an apoptosis effector, in intestinal mucosa after IR.

METHODS

Thirty rats underwent placement of jugular venous catheters connected to osmotic pumps; 15 rats received vehicle, and 15 rats received HGF (150 microg/kg/d). After a 48-hour infusion, 5 rats from each group underwent either 35 minutes of superior mesenteric artery occlusion alone, or ischemia followed by 2 or 6 hours of reperfusion. Mucosal protein was analyzed for caspase-8 and caspase-3 activity. DNA fragmentation was used to measure the presence of apoptosis. Statistical significance was determined using analysis of variance.

RESULTS

After 6 hours of reperfusion, caspase-3 activity was increased significantly in control animals (P <.05). In HGF-pretreated animals, caspase-8 and caspase-3 activities were significantly reduced at 6 hours compared with control animals (P <.05).

CONCLUSION

By preventing the activation of enterocyte caspase enzymes, and, thus, reducing apoptosis, HGF may enhance preservation of the intestine after IR injury.