The time course of inflammatory cytokine secretion in a rat model of postoperative pain does not coincide with the onset of mechanical hyperalgesia

2007 ◽  
Vol 85 (6) ◽  
pp. 613-620 ◽  
Author(s):  
Lisa C. Loram ◽  
Andreas C. Themistocleous ◽  
Linda G. Fick ◽  
Peter R. Kamerman
Keyword(s):  
Postoperative Pain ◽  
Inflammatory Cytokine ◽  
Time Course ◽  
Mechanical Stimulus ◽  
Sprague Dawley ◽  
Tissue Samples ◽  
Sprague Dawley Rats ◽  
Tnf Α ◽  
Primary Hyperalgesia ◽  
Factor Α

We characterized the time course of inflammatory cytokine release at the site of injury and in plasma after surgery on the rat tail. Anesthetized Sprague–Dawley rats had a 20 mm long incision made through the skin and fascia of their tails. Control rats were anesthetized, but no incision was made. Blood and tissue samples were taken 2 h and 1, 2, 4, and 8 days after surgery and analysed by ELISA for interleukin-1β (IL-1β), interleukin-6 (IL-6), tumor necrosis factor-α (TNF-α), and cytokine-induced neutrophil chemoattractant-1 (CINC-1). In another group of rats, daily behavioral measurements were made of the rats’ responses to a blunt noxious mechanical stimulus (4 Newtons) applied to their tails. Primary hyperalgesia developed within 2 h of surgery and lasted for 6 days. The tissue concentrations of IL-1β, IL-6, and CINC-1 increased within 24 h of surgery, and TNF-α concentration increased within 48 h of surgery. Thereafter, cytokine concentrations remained elevated for 4 (IL-1β and IL-6) to 8 days (CINC-1, TNF-α) after surgery. Control animals did not develop hyperalgesia and no changes in cytokines concentrations were detected. Thus, in our model of postoperative pain, secretion of inflammatory cytokines IL-1β, IL-6, TNF-α, and CINC-1 was not essential for the initiation of postoperative hyperalgesia.

scholarly journals Spinal NMDA receptor activation constrains inactivity-induced phrenic motor facilitation in Charles River Sprague-Dawley rats

2014 ◽  
Vol 117 (7) ◽  
pp. 682-693 ◽  
Author(s):  
K. A. Streeter ◽  
T. L. Baker-Herman
Keyword(s):  
Motor Neurons ◽  
Neural Activity ◽  
Receptor Activation ◽  
Motor Nucleus ◽  
Sprague Dawley ◽  
Sprague Dawley Rats ◽  
Tnf Α ◽  
Burst Amplitude ◽  
Nmdar Activation ◽  
Factor Α

Reduced spinal synaptic inputs to phrenic motor neurons elicit a unique form of spinal plasticity known as inactivity-induced phrenic motor facilitation (iPMF). iPMF requires tumor necrosis factor-α (TNF-α) and atypical protein kinase C (aPKC) activity within spinal segments containing the phrenic motor nucleus to stabilize early, transient increases in phrenic burst amplitude into long-lasting iPMF. Here we tested the hypothesis that spinal N-methyl-d-aspartate receptor (NMDAR) activation constrains long-lasting iPMF in some rat substrains. Phrenic motor output was recorded in anesthetized, ventilated Harlan (HSD) and Charles River (CRSD) Sprague-Dawley rats exposed to a 30-min central neural apnea. HSD rats expressed a robust, long-lasting (>60 min) increase in phrenic burst amplitude (i.e., long-lasting iPMF) when respiratory neural activity was restored. By contrast, CRSD rats expressed an attenuated, transient (∼15 min) iPMF. Spinal NMDAR inhibition with DL-2-amino-5-phosphonopentanoic acid (APV) before neural apnea or shortly (4 min) prior to the resumption of respiratory neural activity revealed long-lasting iPMF in CRSD rats that was phenotypically similar to that in HSD rats. By contrast, APV did not alter iPMF expression in HSD rats. Spinal TNF-α or aPKC inhibition impaired long-lasting iPMF enabled by NMDAR inhibition in CRSD rats, suggesting that similar mechanisms give rise to long-lasting iPMF in CRSD rats with NMDAR inhibition as those giving rise to long-lasting iPMF in HSD rats. These results suggest that NMDAR activation can impose constraints on TNF-α-induced aPKC activation after neural apnea, impairing stabilization of transient iPMF into long-lasting iPMF. These data may have important implications for understanding differential responses to reduced respiratory neural activity in a heterogeneous human population.

Temporal relationships between biotransformation, detoxication, and chlordecone potentiation of chloroform-induced hepatotoxicity

1986 ◽  
Vol 64 (4) ◽  
pp. 477-482 ◽  
Author(s):  
L. Arthur Hewitt ◽  
Gilles Caillé ◽  
Gabriel L. Plaa
Keyword(s):  
Time Course ◽  
Corn Oil ◽  
Temporal Correlation ◽  
Microsomal Protein ◽  
Sprague Dawley ◽  
Tissue Samples ◽  
Temporal Relationships ◽  
Sprague Dawley Rats ◽  
Kidney Liver

Exposure to chlordecone (CD, Kepone) is known to increase the hepatotoxicity of chloroform (CHCl3) in rats. A time-course analysis was conducted relating several indices of biotransformation capacity with the ability of CD to potentiate CHCl3-induced hepatotoxicity. Male Sprague–Dawley rats were given a single administration of corn oil alone or CD (50 mg/kg, po) dissolved in corn oil. At 2, 4, 8, 16, 20, 24, or 32 days posttreatment, groups of rats were killed and their livers were analyzed for (i) cytochrome P-450, NADPH-dependent cytochrome c reductase, cytochrome b5 and glutathione content or (ii) in vitro irreversible binding of 14CHCl3-derived radiolabel to microsomal protein. Similarly treated rats were challenged (2–32 days posttreatment) with CHCl3 (0.5 mL/kg po); 24 h later, liver damage was assessed by plasma alanine aminotransferase (ALT), plasma ornithine carbamyl transferase (OCT), plasma bilirubin, and hepatic glucose-6-phosphatase. CD potentiation was maximal 2 days posttreatment; and enhanced susceptibility to CHCl3 persisted up to 20–24 days post-CD treatment. In a parallel study animals treated with chlordecone were killed 8, 16, 20, 24, or 32 days later. Blood, kidney, liver, and adipose tissue samples were taken and analyzed for chlordecone content. The results suggest that a general temporal correlation exists between biotransformation rate (microsomal 14C binding), chlordecone content, and the severity of liver injury; the other parameters monitored do not appear to relate directly to the potentiation.

scholarly journals TNF-α-Mediated RIPK1 Pathway Participates in the Development of Trigeminal Neuropathic Pain in Rats

2022 ◽  
Vol 23 (1) ◽  
pp. 506
Author(s):  
Jo Young Son ◽  
Jin Sook Ju ◽  
Yu Mi Kim ◽  
Dong Kuk Ahn
Keyword(s):  
Neuropathic Pain ◽  
Nerve Injury ◽  
Mechanical Allodynia ◽  
Inflammatory Responses ◽  
Inferior Alveolar Nerve ◽  
Sprague Dawley ◽  
Sprague Dawley Rats ◽  
Tnf Α ◽  
Factor Α ◽  
Inferior Alveolar Nerve Injury

Receptor-interacting serine/threonine-protein kinase 1 (RIPK1) participates in the regulation of cellular stress and inflammatory responses, but its function in neuropathic pain remains poorly understood. This study evaluated the role of RIPK1 in neuropathic pain following inferior alveolar nerve injury. We developed a model using malpositioned dental implants in male Sprague Dawley rats. This model resulted in significant mechanical allodynia and upregulated RIPK1 expression in the trigeminal subnucleus caudalis (TSC). The intracisternal administration of Necrosatin-1 (Nec-1), an RIPK1 inhibitor, blocked the mechanical allodynia produced by inferior alveolar nerve injury The intracisternal administration of recombinant rat tumor necrosis factor-α (rrTNF-α) protein in naive rats produced mechanical allodynia and upregulated RIPK1 expression in the TSC. Moreover, an intracisternal pretreatment with Nec-1 inhibited the mechanical allodynia produced by rrTNF-α protein. Nerve injury caused elevated TNF-α concentration in the TSC and a TNF-α block had anti-allodynic effects, thereby attenuating RIPK1 expression in the TSC. Finally, double immunofluorescence analyses revealed the colocalization of TNF receptor and RIPK1 with astrocytes. Hence, we have identified that astroglial RIPK1, activated by the TNF-α pathway, is a central driver of neuropathic pain and that the TNF-α-mediated RIPK1 pathway is a potential therapeutic target for reducing neuropathic pain following nerve injury.

Attenuated febrile response to lipopolysaccharide in rats with biliary obstruction

2000 ◽  
Vol 279 (1) ◽  
pp. G172-G177 ◽  
Author(s):  
L. K. McCullough ◽  
Y. Takahashi ◽  
T. Le ◽  
Q. J. Pittman ◽  
M. G. Swain
Keyword(s):  
Serum Levels ◽  
Sham Operation ◽  
Sprague Dawley ◽  
Febrile Response ◽  
Perioperative Morbidity ◽  
Sprague Dawley Rats ◽  
Tnf Α ◽  
Factor Α ◽  
Generation Male ◽  
Necrosis Factor

Patients with biliary tract obstruction have unexplained, inordinately high rates of perioperative morbidity and mortality, whereas cholestatic animals display abnormal hypothalamic responses to pyrogenic stimuli. We asked if obstructive cholestasis was associated with abnormal fever generation. Male Sprague-Dawley rats (250 g) underwent laparotomy for implantation of thermistors and either bile duct resection (BDR) or sham operation. After recovery, temperatures were recorded by telemetry and conscious, unrestrained rats in each group were injected intraperitoneally with either interleukin-1β (IL-1β;1 μg/kg) or Escherichia colilipopolysaccharide (LPS; 50 μg/kg). Baseline temperatures in both groups were similar. Febrile responses after IL-1β injection in BDR and sham groups were not significantly different. However, in response to LPS injection, BDR rats showed an initial hypothermia with a subsequently attenuated febrile response. Administration of anti-tumor necrosis factor-α (TNF-α) antibody 2 h before LPS injection blocked the LPS-induced hypothermia seen in BDR animals. However, serum levels of TNF-α were not significantly different between sham and BDR animals after LPS injection at any time point measured (0, 1.5, and 3 h).

scholarly journals Anti-Inflammation Effect of Small Molecule Oligopeptides Prepared from Panax ginseng C. A. Meyer in Rats

Molecules ◽  
2019 ◽  
Vol 24 (5) ◽  
pp. 858 ◽  
Author(s):  
Meihong Xu ◽  
Qihe Chen ◽  
Rui Fan ◽  
Junbo Wang ◽  
Yong Li
Keyword(s):  
Platelet Activating Factor ◽  
Sprague Dawley ◽  
Edema Formation ◽  
Leukotriene D4 ◽  
Sprague Dawley Rats ◽  
Tnf Α ◽  
G 12 ◽  
Anti Inflammatory ◽  
Factor Α ◽  
Acute And Chronic Inflammation

The present study was designed to investigate the anti-inflammatory effects of ginseng oligopeptides (GOPs). For the anti-inflammatory activity, dextran-induced paw edema and granuloma models were used in Sprague-Dawley rats (180–200 g, 12 weeks old, n = 10). Rats were treated orally with GOPs (0, 62.5, 125, 250 and 500 mg/kg) for prophylaxis. In the granuloma model, the levels of NO, Tumor necrosis factor-α (TNF-α), interleukin IL-β, and interleukin IL-10 in serum were evaluated. In addition, in the edema model, the level of TNF-α, prostaglandin E2 (PGE2), Leukotriene D4 (LTD4), and the platelet activating factor (RAF) in paw tissue were detected. PCR assessed the effect of GOPs on the expression of MAPK and NF-κB. The results showed that oral administration of GOPs inhibited inflammation caused by cotton pellet and dextran. GOPs significantly inhibited the edema formation via MAPK and NF-κB. These findings suggested that GOPs have a beneficial effect on acute and chronic inflammation, and the mechanism possibly mediated by inhibiting gene expression involved in inflammation and downregulating inflammatory mediators.

scholarly journals The anti-apoptotic, antioxidant and anti-inflammatory effects of curcumin on acrylamide-induced neurotoxicity in rats

2020 ◽  
Author(s):  
Jie Guo ◽  
Xiaolu Cao ◽  
Xianmin Hu ◽  
Shulan Li ◽  
Jun Wang
Keyword(s):  
Oxidative Stress ◽  
Terminal Deoxynucleotidyl Transferase ◽  
Tunel Staining ◽  
Apoptotic Cells ◽  
Sprague Dawley ◽  
Sprague Dawley Rats ◽  
Tnf Α ◽  
Anti Inflammatory ◽  
Factor Α ◽  
Necrosis Factor

Abstract Background: Acrylamide (ACR) formed during heating of tobacco and carbohydrate-rich food as well as widely applied in industries has been known as a well-established neurotoxic pollutant. Although the precise mechanism is unclear, enhanced apoptosis, oxidative stress and inflammation have been demonstrated to contribute to the ACR-induced neurotoxicity. In this study, we assessed the possible anti-apoptotic, antioxidant and anti-inflammatory effects of curcumin, the most active component in a popular spice known as turmeric, on the neurotoxicity caused by ACR in rats.Methods: Curcumin at the dose of 50 and 100 mg/kg was orally given to ACR- intoxicated Sprague-Dawley rats exposed by ACR at 40mg/kg for 4 weeks. All rats were subjected to behavioral analysis. The HE staining and terminal deoxynucleotidyl transferase mediated dUTP nick end labelling (TUNEL) staining were used to detect histopathological changes and apoptotic cells, respectively. The mRNA and protein expressions of apoptosis-related molecule telomerase reverse transcriptase (TERT) were detected using real-time PCR and immunohistochemistry, respectively. The contents of malondialdehyde (MDA) and glutathione (GSH) as well as the activities of superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) were measured as the indicators for evaluating the level of oxidative stress in brain. The levels of pro-inflammatory cytokinestumor necrosis factor-α (TNF-α) and interleukin-1β (IL-1β) in the cerebral homogenates were detected using ELISA assay.Results: ACR-induced weigh loss, deficits in motor function as well as pathological alterations in brains were significantly improved in rats administrated with 50 and 100 mg/kg curcumin. TUNEL-positive apoptotic cells in curcumin-treated ACR intoxicated brains were less than those in the ACR model group. Curcumin administration especially at the dose of 100 mg/kg upregulated the TERT mRNA expression and enhanced the number of TERT-positive cells in ACR-intoxicated cortex tissues. Moreover, curcumin treatment reduced the concentrations of TNF-α, IL-1β and MDA, while increased the GSH contents as well as the SOD and GSH-Px activities in the cerebral homogenates, in comparison to ACR control group.Conclusions: These data suggested the anti-apoptotic, antioxidant and anti-inflammatory effects of curcumin on ACR-induced neurotoxicity in rats. Maintaining TERT-related anti-apoptotic function might be one mechanism underlying the protective effect of curcumin on ACR-intoxicated brains.

Abstract 400: A Nonpeptide Angiotensin (Ang) II Type 2 Receptor (AT2R) Agonist Improves Diabetic Nephropathy via Inhibition of Renal Inflammation

Hypertension ◽  
2012 ◽  
Vol 60 (suppl_1) ◽  
Author(s):  
Luis Matavelli ◽  
Helmy M Siragy
Keyword(s):  
Oxidative Stress ◽  
Diabetic Nephropathy ◽  
Inflammatory Factors ◽  
Sprague Dawley ◽  
Renal Inflammation ◽  
Sprague Dawley Rats ◽  
Tnf Α ◽  
Compound 21 ◽  
Factor Α

We explored the hypothesis that direct AT2R stimulation improves albuminuria in diabetes by reducing renal inflammation and improving oxidative stress. Sham and DM Sprague-Dawley rats were treated for 4 weeks with vehicle (V) or AT2R agonist Compound 21 (C21; 0.3 mg/kg/d). C21 was infused systemically by osmotic minipump. Diabetes was induced by streptozotocin (65 mg/kg IP). At the end of study, we monitored BP, 24h urine collection for measurements of urinary albumin to creatinine ratio (UACR), and renal interstitial fluid (RIF) levels of tumor necrosis factor-α (TNF-α), interleukin-6 (IL-6), nitric oxide (NO), cGMP, and 8-isoprostane (ISO). Data are shown as mean±SE. There were no significant differences in BP between different treatments. UACR (μg/mg), compared to Control+V (14±2), increased significantly in DM+V (60±3, p<0.001) and did not change in Control+C21 (16±2). Compared to DM+V, UACR decreased significantly by 20% in DM+C21 (50±3, P<0.04). RIF TNF-α and IL-6 (pg/min), compared to Control+V (0.040±0.001 and 0.613±0.012, respectively), increased in DM+V (0.046±0.001 and 0.652±0.005, P<0.01) and did not change in Control+C21 (0.041±0.001 and 0.622±0.008). Compared to DM+V, RIF TNF-α and IL-6 decreased in DM+C21 (0.041±0.001 and 0.616±0.007, P<0.01). RIF NO (μmol/min) and cGMP (fmol/min), compared to Control+V (7.0±0.3 and 3.8±0.4), decreased in DM+V (4.3±0.5 and 1.7±0.2, P<0.001) and did not change in Control+C21 (6.6±0.3 and 3.7±0.5). RIF NO and cGMP increased in DM+C21 (6.2±0.8 and 2.7±0.4, P<0.04) compared to DM+V. RIF ISO (pmol/min), compared to Control+V (0.135±0.005), increased in DM+V (0.158±0.007, P<0.02) and did not change in Control+C21 (0.134±0.010). Compared to DM+V, RIF ISO significantly decreased in DM+C21 (0.135±0.006, P<0.03). We concluded that direct AT2R stimulation by the nonpeptide agonist C21 improves diabetic nephropathy through the reduction of renal inflammatory factors and improvement of oxidative stress.

Changes in rat mesentery interstitial matrix due to superfusate

1993 ◽  
Vol 265 (3) ◽  
pp. H852-H856 ◽  
Author(s):  
B. J. Barber ◽  
R. A. Babbitt ◽  
S. Dutta ◽  
S. Parameswaran
Keyword(s):  
Protein Content ◽  
Normal Saline ◽  
Protein Concentration ◽  
Matrix Protein ◽  
Protein Transport ◽  
Albumin Concentration ◽  
Sprague Dawley ◽  
Tissue Samples ◽  
Rat Mesentery ◽  
Sprague Dawley Rats

Animal preparations for microscopy often require a superfusate solution to cover surgically exposed tissue. There are few, if any, data concerning the effects of this solution on extravascular protein concentration and hydration. The effect of superfusion on mesenteric tissue in anesthetized male Sprague-Dawley rats was studied. Tissue samples were taken from nonsuperfused and superfused tissue and analyzed for hydration, albumin, and transferrin content. The mesenteric tissue interstitial matrix was rapidly altered by normal saline superfusate. After superfusion, there was a decrease (P < 0.01) in tissue albumin concentration from 1.17 +/- 0.27 to 0.10 +/- 0.08 g/dl (n = 9). Tissue hydration increased from 4.98 +/- 0.8 micrograms water/microgram dry wt in controls to 7.38 +/- 1.2 micrograms water/micrograms dry wt after superfusion. When a range of superfusate albumin concentrations was used (0, 1, 2, and 3 g/dl), tissue albumin concentration changed 0.59 +/- 0.09 g/dl for each gram per deciliter change in superfusate concentration (P < 0.0001). The large changes in interstitial matrix protein content and hydration suggest that superfusate solution effects need to be considered in microvascular protein transport experiments.

Activated Kupffer cells cause a hypermetabolic state after gentle in situ manipulation of liver in rats

2001 ◽  
Vol 280 (6) ◽  
pp. G1076-G1082 ◽  
Author(s):  
Peter Schemmer ◽  
Nobuyuki Enomoto ◽  
Blair U. Bradford ◽  
Hartwig Bunzendahl ◽  
James A. Raleigh ◽  
...  
Keyword(s):  
Liver Transplantation ◽  
Kupffer Cells ◽  
Cell Function ◽  
Sprague Dawley ◽  
Sprague Dawley Rats ◽  
Hypermetabolic State ◽  
Hypoxia Marker ◽  
Factor Α ◽  
Necrosis Factor

Harvesting trauma to the graft dramatically decreases survival after liver transplantation. Since activated Kupffer cells play a role in primary nonfunction, the purpose of this study was to test the hypothesis that organ manipulation activates Kupffer cells. To mimic what occurs with donor hepatectomy, livers from Sprague-Dawley rats underwent dissection with or without gentle organ manipulation in a standardized manner in situ. Perfused livers exhibited normal values for O2 uptake (105 ± 5 μmol · g−1 · h−1) measured polarigraphically; however, 2 h after organ manipulation, values increased significantly to 160 ± 8 μmol · g−1 · h−1 and binding of pimonidazole, a hypoxia marker, increased about threefold ( P < 0.05). Moreover, Kupffer cells from manipulated livers produced three- to fourfold more tumor necrosis factor-α and PGE2, whereas intracellular calcium concentration increased twofold after lipopolysaccharide compared with unmanipulated controls ( P < 0.05). Gadolinium chloride and glycine prevented both activation of Kupffer cells and effects of organ manipulation. Furthermore, indomethacin given 1 h before manipulation prevented the hypermetabolic state, hypoxia, depletion of glycogen, and release of PGE2 from Kupffer cells. These data indicate that gentle organ manipulation during surgery activates Kupffer cells, leading to metabolic changes dependent on PGE2 from Kupffer cells, which most likely impairs liver function. Thus modulation of Kupffer cell function before organ harvest could be beneficial in human liver transplantation and surgery.

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