雨蛙素联合脂多糖致小鼠重症急性胰腺炎模型的建立及其机理的探讨

为建立一种快速、简便、无创伤性的小鼠重症急性胰腺炎模型。本实验运用雨蛙素联合脂多糖小鼠腹腔内给药;血淀粉酶和胰腺湿重测定;胰腺和胰外器官病理学检查;腺泡细胞透射电镜观察;血清NO浓度测定;胰腺组织SOD和MDA测定。结果发现,丙蛙素联合脂多糖组血淀粉酶、NO浓度和胰腺湿重均增高,SOD活力降低,MDA含量升高,胰腺间质水肿、实质出血坏死、炎症细胞浸润,腺泡细胞受损严重,胰外多器官受到不同程度的损害;雨蛙素组胰腺无明显出血坏死,胰外器官正常;脂多糖组胰腺基本正常,胰外器官轻微炎症浸润。由本实验结果显示,丙蛙素联合脂多糖致小鼠重症急性胰腺炎模型具有人类重症急性胰腺炎的病理特征,为非创伤性,成模快速稳定,重复性好;脂多糖促使雨蛙素诱导的急性水肿型胰腺炎重症化的机理与自由基释放—清除机制和氧化—抗氧化机制紊乱有关。     

L- 精氨酸和雨蛙素诱导急性胰腺炎模型的对比研究

目的:研究L-精氨酸和雨蛙素分别诱导SD大鼠急性胰腺炎(AP)模型的差异,为进一步研究急性胰腺炎提供可靠模型。方法:L-精氨酸采用3次腹腔注射,间隔1 h,雨蛙素采用7次腹腔注射,间隔1 h诱导急性胰腺炎模型。碘-淀粉比色法检测血清淀粉酶水平,血清脂肪酶测定试剂盒检测脂肪酶活性,胰腺组织切片观察组织的破坏情况,TUNEL法检测腺泡细胞凋亡。结果:①L-精氨酸诱导的大鼠模型血清淀粉酶和脂肪酶水平在诱导成功后6 h即显著升高,蛙皮素诱导的大鼠模型在12 h显著升高,与正常对照组比较均有统计学差异(P<0.05),提示急性胰腺炎建模成功。②L-精氨酸诱导的模型中胰腺组织结构破坏,有大片出血坏死灶、大量炎细胞浸润;而蛙皮素诱导的模型组织腺泡、间质水肿,炎性细胞浸润,少量散在出血坏死灶,血管变化常不明显,渗液清亮。结论:L-精氨酸和雨蛙素均能诱导SD大鼠急性胰腺炎模型,L-精氨酸诱导重症急性胰腺炎,雨蛙素诱导轻型急性胰腺炎,是研究急性胰腺炎的良好模型。     

不同剂量雨蛙素诱导小鼠急性胰腺炎模型的对比研究

目的:探究相同频次、不同剂量雨蛙素腹腔注射诱导急性胰腺炎小鼠模型轻重程度的差异。方法:雨蛙素腹腔注射法诱导胰腺炎C57小鼠模型,共注射12次,每次间隔1 h,分别设置单次剂量为10μg/kg、50μg/kg、250μg/kg三个梯度。检测模型的血清淀粉酶、脂肪酶、胰腺组织水含量,以及胰腺组织HE染色、病理学评分和肺组织HE染色。结果:①雨蛙素造模组小鼠淀粉酶、脂肪酶和胰腺组织水含量均较正常组明显升高(P0.05),50μg/kg剂量组各项数值达最大,250μg/kg剂量组无再明显升高(P0.05)。②造模组与对照组相比,胰腺组织和肺组织炎细胞浸润明显,低剂量(10μg/kg)注射胰腺组织呈水肿性改变,无出血坏死;常规剂量(50μg/kg)注射引起胰腺组织片状坏死出血;大剂量(250μg/kg)注射引起胰腺组织大范围坏死出血(P0.05)。结论:10μg/kg雨蛙素12次腹腔注射可诱发小鼠急性水肿性胰腺炎,50μg/kg雨蛙素12次腹腔注射能诱导出小鼠急性重症胰腺炎。     

胰腺p-STAT3在急性胰腺炎危重演变中的表达变化

目的：检测信号转导与转录激活因子3（STAT3）在不同程度胰腺炎模型小鼠胰腺组织中表达的变化,探讨其在急性胰腺炎危重演变中的作用。方法：48只健康雄性balb/c小鼠随机分为3组（n=16）：对照组（Con）、轻症急性胰腺炎（MAP）组、重症急性胰腺炎（SAP）组。Con组腹腔注射0.9% NaCl;MAP组腹腔注射雨蛙素;SAP组腹腔注射雨蛙素联合脂多糖;分别于造模后2 h、6 h检测血清淀粉酶的活性;分离胰腺、称重,计算胰腺湿重比;检测肺组织髓过氧化物酶（MPO）活性,评估炎细胞浸润肺组织的程度;HE染色切片,光镜下观察胰腺、肺组织病理学改变; Western blot法检测磷酸化STAT3（p-STAT3）的变化。结果：与Con组比较, MAP组和SAP组在各时间点血清淀粉酶活性和胰腺组织湿重比均升高（P<0.05）;肺组织MPO活性显著升高（P<0.05）,且SAP组肺MPO含量明显高于MAP组（P<0.01）。MAP组和SAP组,在造模后2 h,胰腺和肺均可见不同程度的病理学改变; SAP组在造模后2 h胰腺p-STAT3的表达最高,6 h表达有所减弱;MAP组各时间点仅有微量表达;Con组在各时间点为阴性表达。结论：p-STAT3在轻症急性胰腺炎和重症急性胰腺炎模型小鼠胰腺中的表达差异明显,说明重症急性胰腺炎的重症化与STAT3的活化关系密切;抑制STAT3活化将成为阻止急性胰腺炎重症化的靶点之一。     

L-Arg促使大鼠AEP演变为AHNP的大鼠模型及

目的　介绍一种急性水肿性胰腺炎(AEP)向急性出血坏死性胰腺炎(AHNP)演变的大鼠模型,并对其超微结构进行了观察。方法　30只SD大鼠随机分为正常组、AEP组和左旋精氨酸(L-Arg)干预组。通过阴茎背静脉注射雨蛙素诱导AEP模型后,再经该静脉注入L-Arg 1600mg/kg,以观察血清生化指标和胰组织的光镜、透射电镜下改变。结果　血清淀粉酶、脂肪酶水平在AEP组、L-Arg干预组均明显高于对照组,其中血清淀粉酶在两组间无显著性差异,而L-Arg干预组的血清脂肪酶却明显高于AEP组;AEP组的血清、胰组织NO浓度明显低于对照组,而L-Arg组明显高于对照组和AEP组。光镜及透射电镜证实,L-Arg干预AEP大鼠后,导致了胰实质出血、坏死和腺泡细胞内亚细胞结构的破坏。结论　L-Arg导致AEP加重为AHNP,与NO的毒性有关;此大鼠模型不但有血清淀粉酶等生化指标的改变,而且组织病理特点也较为典型,是研究急性胰腺炎重型化机理的良好模型。     

L-Arg促使大鼠AEP演变为AHNP的大鼠模型及超微结构观察

目的　介绍一种急性水肿性胰腺炎(AEP) 向急性出血坏死性胰腺炎(AHNP) 演变的大鼠模型,并对其超微结构进行了观察。方法　30 只SD大鼠随机分为正常组、AEP组和左旋精氨酸(L- Arg) 干预组。通过阴茎背静脉注射雨蛙素诱导AEP模型后,再经该静脉注入L- Arg 1600mg/kg,以观察血清生化指标和胰组织的光镜、透射电镜下改变。结果　血清淀粉酶、脂肪酶水平在AEP组、L- Arg 干预组均明显高于对照组,其中血清淀粉酶在两组间无显著性差异,而L- Arg 干预组的血清脂肪酶却明显高于AEP组;AEP组的血清、胰组织NO浓度明显低于对照组,而L- Arg 组明显高于对照组和AEP组。光镜及透射电镜证实,L- Arg 干预AEP大鼠后,导致了胰实质出血、坏死和腺泡细胞内亚细胞结构的破坏。结论　L- Arg 导致AEP加重为AHNP,与NO 的毒性有关;此大鼠模型不但有血清淀粉酶等生化指标的改变,而且组织病理特点也较为典型,是研究急性胰腺炎重型化机理的良好模型。     

白细胞介素-6在急性胰腺炎中的作用及其机制研究

目的:明确白细胞介素-6(IL-6)在小鼠急性胰腺炎中的作用及其机制研究。方法:通过胰胆管结扎的方法诱导小鼠急性胰腺炎;分离小鼠胰腺腺泡细胞。采用ELISA方法检测胰腺组织或腺泡细胞裂解物中的细胞因子;通过western blot分析检测组织或细胞中IL-6或ERK表达。结果:IL-6浓度在胰腺组织和腺泡细胞中显著增加(P0.05)。在离体原代小鼠腺泡细胞,TNF-α刺激增加IL-6释放(P0.05);与此同时,IL-6刺激可增加其它促炎性细胞因子的释放,两者都涉及ERK MAP激酶通路。黄酮类化合物木犀草素抑制IL-6刺激引起白细胞介素-6(IL-6)和人巨嗜细胞激活蛋白-1(CCL2/MCP-1)释放。最后进一步证实,IL-6激活人胰腺组织中的ERK。结论:IL-6在急性胰腺炎中增加,激活炎症通路并加重急性胰腺炎。     

饥饿及雨蛙素诱导的AR42J 细胞中自噬基因LC3及beclin-1 表达的变化

目的:观察饥饿及雨蛙素诱导的大鼠胰腺腺泡细胞AR42J中自噬基因LC3及beclin-1表达的变化,初步探讨吞噬(autophagy)在急性胰腺炎中的作用。方法:选择体外培养的生长状态良好的大鼠胰腺腺泡AR42J细胞,随机分为3组,饥饿组(N=10),雨蛙素处理组(N=10),空白对照组(N=10)。饥饿组加入充足的平衡盐溶液,雨蛙素处理组加入含10-7mol/L雨蛙素的全营养培养液,空白对照组加入含20%灭活胎牛血清的F12-K培养液(p H7.2-7.4),各组分别于处理后2、4、6 h收集细胞并提取蛋白质。采用免疫印迹法检测三组不同时点胰腺腺泡细胞AR42J中自噬基因Beclin-1和LC3的蛋白表达。结果:空白对照组不同时点beclin-1和LC3-II均呈低表达,且各时点比较差异无统计学意义(P<0.05)。饥饿组和雨蛙素处理组beclin-1和LC3-II的表达随处理时间的延长逐渐增加,且不同时点beclin-1和LC3-II的表达均较空白对照组显著增高,差异均具统计学意义(P<0.05)。结论:雨蛙素和饥饿刺激可导致大鼠胰腺腺泡细胞AR42J中LC3-II及beclin-1蛋白表达随作用时间的延长而增加,自噬可能参与了胰腺炎的发生发展过程。     

双氯灭痛胶浆对重症急性胰腺炎大鼠的治疗作用机制

目的:研究双氯灭痛胶浆对大鼠重症急性胰腺炎(SAP)的治疗作用及机制探讨.方法:将大鼠随机分成双氯灭痛胶浆治疗组(Ds)、重症急性胰腺炎组(SAP)和正常对照组(N),术后分别于12、24和36h处死,观察血清淀粉酶、SOD、CAT、NO、丙二醛(MDA)、核因子κB(NF-κB)、及胰腺大体病理及光镜下病理变化.结果:治疗组的淀粉酶、NF-κB、NO、MDA、胰腺组织的Hughes评分均明显降低、SOD、CAT、明显升高(P＜0.05).结论:双氯灭痛胶浆对大鼠SAP有治疗作用,其作用机制可能与抑制NF-κB等前致炎物质的释放,清除自由基和抗脂质过氧化反应,抑制胰腺组织中的中性粒细胞的浸润及其活化程度有关.     

黄芩甙对重症急性胰腺炎保护作用的研究

目的:探讨黄芩甙对重症急性胰腺炎保护作用的机制.方法:45只雄性SD大鼠随机分为假手术组、模型组和黄芩甙干预组,每组15只.假手术组进腹后仅翻动胰腺和十二指肠后关腹,模型组采用3.5%牛黄胆酸纳逆行胰胆管注射造成重症急性胰腺炎大鼠模型,黄苓甙干预组在造模成功后给予黄芩甙治疗.观察各组大鼠术后胰腺的病理变化,术后3 h、6h、12h腹水及血清淀粉酶、脂肪酶的变化,测定胰腺组织MDA,SOD,TNF-α及IL-8的含量.结果:①在各时间点,模型组腹水量、血清淀粉酶、脂肪酶均较假手术组显著增加(p＜0.01);黄芩甙干预组腹水量、血清淀粉酶、脂肪酶均较模型组显著减少(p＜0.05),其中12 h组腹水量较6h组显著减少(p＜0.05);6h、12h血清淀粉酶、脂肪酶较3 h组显著降低(p＜0.05);②假手术组组织结构完整,无明显改变;模型组胰腺及周围有皂化斑的形成,胰腺水肿、出血,炎细胞浸润,胰腺组织结构破坏明显,有大片坏死区;黄芩甙治疗组和模型组比较显著改善;③在各时间点,模型组胰腺组织中MDA,TNF-α及IL-8含量较假手术组均显著升高,SOD显著降低(p＜0.05);黄芩甙干预组较模型组MDA,TNF-α及IL-8含量显著降低,SOD显著升高(p＜0.05).结论:黄芩甙可能通过降低氧自由基对组织的损害,抑制炎症因子的产生和释放起到保护胰腺组织的作用.     

Sensory nerves in central and peripheral control of pancreatic integrity by leptin and melatonin.

Central nervous system affects pancreatic secretion of enzymes however, the neural modulation of acute pancreatitis has not been investigated. Leptin and melatonin have been recently reported to affect the inflammatory response of various tissues. The identification of specific receptors for both peptides in the pancreas suggests that leptin and melatonin could contribute to the pancreatic protection against inflammation. The aim of this study was: 1/ to compare the effect of intracerebroventricular (i.c.v.) or intraperitoneal (i.p.) administration of leptin or melatonin on the course of caerulein-induced pancreatitis (CIP) in the rat, 2/ to examine the involvement of sensory nerves (SN) and calcitonin gene-related peptide (CGRP) in pancreatic protection afforded by leptin or melatonin, 3/ to assess the effect of tested peptides on lipid peroxidation products (MDA + 4-HNE) in the pancreas of CIP rats, 4/ to investigate the influence of leptin or melatonin on nitric oxide (NO) release from isolated pancreatic acini and 5/ to determine the effects of caerulein and leptin on leptin receptor gene expression in these acini by RT-PCR. CIP was induced by subcutaneous (s.c.) infusion of caerulein (25 microg/kg) to the conscious rats, confirmed by the significant increases of pancreatic weight and plasma amylase and by histological examination. This was accompanied in marked reduction of pancreatic blood flow and significant rise of MDA + 4-HNE in the pancreas. Leptin or melatonin were administered i.p. or i.c.v. 30 min prior to the start of CIP. Deactivation of SN was produced by s.c. capsaicin (100 mg/kg). An antagonist of CGRP, CGRP 8-37 (100 microg/kg i.p.), was given together with leptin or melatonin to the CIP rats. MDA + 4-HNE was measured using LPO commercial kit. NO was determined using the Griess reaction. Pretreatment of CIP rats with i.p. leptin (2 or 10 microg/kg) or melatonin (10 or 50 mg/kg) significantly attenuated the severity of CIP. Similar protective effects were observed following i.c.v. application of leptin (0.4 or 2 microg/rat) but not melatonin (10 or 40 microg/rat) to the CIP rats. Capsaicin deactivation of SN oradministration of CGRP 8-37 abolished above beneficial effects of leptin on CIP, whereas melatonin-induced protection of pancreas was unaffected. Pretreatment with i.p. melatonin (10 or 50 mg/kg), but not leptin, significantly reduced MDA + 4-HNE in the pancreas of CIP rats. Leptin (10(-10) - 10(-6) M) but not melatonin (10(-8) - 10(-5) M) significantly stimulated NO release from isolated pancreatic acini. Leptin receptor gene expression in these acini was significantly increased by caerulein and leptin. We conclude that 1/ central or peripheral pretreatment with leptin protects the pancreas against its damage induced by CIP, whereas melatonin exerts its protective effect only when given i.p., but not following its i.c.v. adminstration, 2/ activation of leptin receptor in the pancreatic acini appears to be involved in the beneficial effects of leptin on acute pancreatitis, 3/ the protective effects of leptin involve sensory nerves, CGRP and increased generation of NO whereas melatonin-induced protection of the pancreas depends mainly on the antioxidant local effect of this indole, and scavenging of the radical oxygen species in the pancreatic tissue.     

Deactivation of ROCK-II by Y-27632 enhances basolateral pancreatic enzyme secretion and acute pancreatitis induced by CCK analogues

In isolated rat pancreatic acini, protein expression of RhoA and Rho-associated kinase, ROCK-II, and the formation of immunocomplex of RhoA with ROCK-II were enhanced by CCK-8, carbachol, and the phorbol ester TPA. The ROCK-specific inhibitor, Y-27632, did not alter basal amylase secretion, whereas it potentiated CCK-stimulated pancreatic enzyme secretion in vitro. During caerulein-induced pancreatitis occurring in mice in vivo, Y-27632 enhanced serum amylase levels and the formation of interstitial edema and vacuolization at 12-18h after the first injection of caerulein. Y-27632 in turn inhibited the recovery of protein expression of ROCK-II at 18h after the first caerulein injection. These results suggest that RhoA and ROCK-II assemble normal CCK-stimulated pancreatic enzyme secretion and prevent caerulein-induced acute pancreatitis.     

Local disruption of the celiac ganglion inhibits substance P release and ameliorates caerulein-induced pancreatitis in rats

Primary sensory neurons of the C and Adelta subtypes express the vanilloid capsaicin receptor TRPV1 and contain proinflammatory peptides such as substance P (SP) that mediate neurogenic inflammation. Pancreatic injury stimulates these neurons causing the release of SP in the pancreas resulting in pancreatic edema and neutrophil infiltration that contributes to pancreatitis. Axons of primary sensory neurons innervating the pancreas course through the celiac ganglion. We hypothesized that disruption of the celiac ganglion by surgical excision or inhibition of C and Adelta fibers through blockade of TRPV1 would reduce the severity of experimental pancreatitis by inhibiting neurogenic inflammation. Resiniferatoxin (RTX) is a specific TRPV1 agonist that, in high doses, selectively destroys C and Adelta fibers. Sprague-Dawley rats underwent surgical ganglionectomy or application of 10 microg RTX (vs. vehicle alone) to the celiac ganglion. One week later, pancreatitis was induced by six hourly intraperitoneal injections of caerulein (50 microg/kg). The severity of pancreatitis was assessed by serum amylase, pancreatic edema, and pancreatic myeloperoxidase (MPO) activity. SP receptor (neurokinin-1 receptor, NK-1R) internalization in acinar cells, used as an index of endogenous SP release, was assessed by immunocytochemical quantification of NK-1R endocytosis. Caerulein administration caused significant increases in pancreatic edema, serum amylase, MPO activity, and NK-1R internalization. RTX treatment and ganglionectomy significantly reduced pancreatic edema by 46% (P < 0.001) and NK-1R internalization by 80% and 51% (P < 0.001 and P < 0.05, respectively). RTX administration also significantly reduced MPO activity by 47% (P < 0.05). Neither treatment affected serum amylase, consistent with a direct effect of caerulein. These results demonstrate that disruption of or local application of RTX to the celiac ganglion inhibits SP release in the pancreas and reduces the severity of acute secretagogue-induced pancreatitis. It is possible that selectively disrupting TRPV1-bearing neurons could be used to reduce pancreatitis severity.     

The calcium binding protein S100A9 is essential for pancreatic leukocyte infiltration and induces disruption of cell-cell contacts

Leukocyte infiltration is an early and critical event in the development of acute pancreatitis. However, the mechanism of leukocyte transmigration into the pancreas and the function of leukocytes in initiating acute pancreatitis are still poorly understood. Here, we studied the role of S100A9 (MRP14), a calcium binding protein specifically released by polymorph nuclear leukocytes (PMN), in the course of acute experimental pancreatitis. Acute pancreatitis was induced by repeated supramaximal caerulein injections in S100A9 deficient or S100A9 wild-type mice. We then determined S100A9 expression, trypsinogen activation peptide (TAP) levels, serum amylase and lipase activities, and tissue myeloperoxidase (MPO) activity. Cell-cell contact dissociation was analyzed in vitro with biovolume measurements of isolated acini after incubation with purified S100A8/A9 heterodimers, and in vivo as measurement of Evans Blue extravasation after intravenous application of S100A8/A9. Pancreatitis induced increased levels of S100A9 in the pancreas. However, infiltration of leukocytes and MPO activity in the lungs and pancreas during acute pancreatitis was decreased in S100A9-deficient mice and associated with significantly lower serum amylase and lipase activities as well as reduced intrapancreatic TAP-levels. Incubation of isolated pancreatic acini with purified S100A8/A9-heterodimers resulted in a rapid dissociation of acinar cell-cell contacts which was highly calcium-dependent. Consistent with these findings, in vivo application of S100A8/A9 in mice was in itself sufficient to induce pancreatic cell-cell contract dissociation as indicated by Evans Blue extravasation. These data show that the degree of intrapancreatic trypsinogen activation is influenced by the extent of leukocyte infiltration into the pancreas which, in turn, depends on the presence of S100A9 that is secreted from PMN. S100A9 directly affects leukocyte tissue invasion and mediates cell contact dissociation via its calcium binding properties.     

Expression of NK-1 and NK-3 tachykinin receptors in pancreatic acinar cells after acute experimental pancreatitis in rats

Activation of neurokinin (NK)-1 receptors but not of NK-3 stimulates amylase release from isolated pancreatic acini of the rat. Immunofluorescence studies show that NK-1 receptors are more strongly expressed than NK-3 receptors on pancreatic acinar cells under basal conditions. No studies have examined the expression of the two NK receptor populations in pancreatic acini during pancreatitis in rats. We therefore investigated the relationships between expression of these two tachykinin receptors and experimental acute pancreatitis induced by stimulating pancreatic amylase with caerulein (CK) in rats. Hyperstimulation of the pancreas by CK caused an increase in plasma amylase and pancreatic water content and resulted in morphological evidence of cytoplasmic vacuolization. Immunofluorescence analysis revealed a similar percentage of NK-1 receptor antibody immunoreactive acinar cells in rats with pancreatitis and in normal rat tissue but a larger percentage of NK-3 receptor immunoreactive cells in acute pancreatitis than in normal pancreas. Western blot analysis of NK-1 and NK-3 receptor protein levels after CK-induced pancreatitis showed no change in NK-1 receptors but a stronger increase in NK-3 receptor expression in pancreatic acini compared with normal rats thus confirming the immunofluorescence data. These new findings support previous evidence that substance P-mediated functions within the pancreas go beyond sensory signal transduction contributing to neurogenic inflammation, and they suggest that substance P plays a role in regulating pancreatic exocrine secretion via acinar NK-1 receptors. The significant increase in NK-3 receptors during pancreatic stimulation suggests that NK-3 receptors also intervene in the pathogenesis of mild acute pancreatitis in rats.     

Platelet activating factor (PAF) inhibitor (TCV-309) reduces caerulein- and PAF-induced pancreatitis. A morphologic and functional study in the rat.

Caerulein-induced acute pancreatitis was studied in rats. Consistent with this type of acute pancreatitis morphological (edema, leukocytic infiltration and acinar cell vaculization) and biochemical (increase in pancreatic protein content. PAF release and serum amylase) changes developed 5 hours after caerulein administration. In addition increase in pancreatic weight and decrease in pancreatic blood flow were noticed. PAF administration caused pancreatic damage similar in some parameters to caerulein-induced pancreatitis, along with reduction of pancreatic blood flow, increase in pancreatic protein content, and serum amylase. TCV-309, a selective PAF antagonist, administered prior to caerulein and/or PAF, reduced caerulein-induced pancreatitis and prevented PAF-induced pancreatitis. Results of our present studies indicate the crucial role of PAF in pathogenesis of experimental acute pancreatitis.     

The contradictory effects of nitric oxide in caerulein-induced acute pancreatitis in rats

This study was planned to observe the effects of nitric oxide synthesis on the antioxidative defense enzymes and pancreatic tissue histology in caerulein-induced acute pancreatitis. Acute pancreatitis was induced by intraperitoneal injections of 50 microg/kg caerulein, L-arginine used for NO induction and N(omega)-nitro-L-arginine methyl ester (L-NAME) used for NO inhibition. In the caerulein group acinar cell degeneration, interstitial inflammation, oedema and haemorrhage were detected. Pancreatic damage scores were decreased with both NO induction and inhibition (p<0.05). MDA, GSH-Px, CAT, GSH and SOD activities were significantly changed in the caerulein group and indicated increased oxidative stress. Both NO induction and inhibition decreased this oxidative stress. It is concluded that both nitric oxide induction and inhibition ameliorated caerulein-induced acute pancreatitis. The findings indicate that a certain amount of NO production has beneficial effects in experimental acute pancreatitis, but uncontrolled over-production of NO may be detrimental.