Cellular immunity in pyelonephritis: inhibition of the spleen cell response to the mitogen concanavalin A

Spleen cells from rats given experimental pyelonephritis using Escherichia coli and Proteus mirabilis as infecting organisms were evaluated for their ability to respond to the mitogen Concanavalin A. Results indicate an 80% reduction in the response of animals with gross suppuration in the kidney, but no inhibition is observed in animals with kidney infection, but not renal abscesses. The inhibition is not, apparently, due to serum factors.     

Kidney cell death in inflammation: The role of oxidative stress and mitochondria

Pyelonephritis is an infectious disease, and common treatment strategy is based on antibiotic therapy directed at the elimination of a pathogen. However, urinary tract infections are accompanied by inflammation and oxidative stress, which are major damaging factors, and therefore can serve as a target for therapeutic intervention. The goal of this study was to clarify the role of the mitochondrial reactive oxygen species (ROS) in kidney cell damage under experimental pyelonephritis. We investigated the mechanisms of inflammation and the role of mitochondria and oxidative stress in inflammation in kidney tissue using in vivo and in vitro models of pyelonephritis. We observed the development of oxidative stress in renal tubular epithelium in vitro, and resulting apoptotic cell death. This oxidative damage was caused by the leukocytes producing ROS after interaction with bacterial antigens. The essential role of mitochondria-mediated oxidative stress was confirmed using an experimental model of pyelonephritis in vivo. We revealed increased levels of malonic dialdehyde in kidneys of rats with experimental pyelonephritis that pointed to lipid peroxidation. Besides, high ROS levels were observed in blood leukocytes from rats with pyelonephritis. The mitochondria-targeted antioxidant SkQ1 significantly reduced the signs of kidney inflammatory injury, in particular the infiltration of neutrophils. Summarizing the data obtained, we assume the importance of mitochondrial ROS in different phases of acute pyelonephritis onset. Protection of kidney cells from infection-mediated damage can be attained by the induction of tolerance mechanisms and by antioxidant treatment.     

Inflammatory pre-conditioning of mesenchymal multipotent stromal cells improves their immunomodulatory potency in acute pyelonephritis in rats

Background aimsAcute pyelonephritis is one of the most frequent infectious diseases of the urinary tract and a leading cause of kidney failure worldwide. One strategy for modulating excessive inflammatory responses in pyelonephritis is administration of mesenchymal multipotent stromal cells (MMSCs).MethodsThe putative protective effect of injection of MMSCs against experimental acute pyelonephritis was examined. We used in vivo experimental model of APN where bacteria are introduced in the bladder of rat. Three days after, intravenous injection of MMSCs was done. On the 7th day blood samples and kidneys were taken for further analysis.ResultsWe found obvious signs of oxidative stress and inflammation in the kidney in acute pyelonephritis in rats. Particularly, pro-inflammatory cytokine tumor necrosis factor-α levels, malondialdehyde, nitrite and myeloperoxidase activity were significantly increased. Histologic evaluation revealed numerous attributes of inflammation and tissue damage in the kidney. Treatment with MMSCs caused a remarkable decrease of all of these pathologic signs in renal tissue. Also, activated leukocytes induced pre-conditioning-like signaling in MMSCs. We showed alterations of expression or activity of inducible nitric oxide synthase, transforming growth factor-β, matrix metalloproteinase-2 and glycogen synthase kinase-3β, which could mediate immunomodulation and protective effects of MMSCs. This signaling could be characterized as inflammatory pre-conditioning.ConclusionsThe beneficial capacity of MMSCs to alleviate renal inflammation was more pronounced when pre-conditioned MMSCs were used. This approach could be used to prime MMSCs with different inflammatory modulators to enhance their engraftment and function in an immunoprotected fashion.     

Experimental haematogenous pyelonephritis in mice with uropathogenic,enteropathogenic and enterotoxigenic

Acute haematogenous pyelonephritis was produced with known uropathogenic (075), enteropathogenic (0111) and enterotoxigenic (H10407) Escherichia coli in mice. The enterotoxigenic E. coli showed the highest bacterial counts in kidney and urine and was found to have the same potential for causing pyelonephritis as a known pyelonephritogenic strain both in untreated and corticosteroid treated mice. Enteropathogenic E. coli was found to be less pyelonephritogenic in untreated mice, but under the effect of corticosteroids it showed similar pyelonephritogenic potential.

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Acute Graft-Versus-Host Disease of the Kidney in Allogeneic Rat Bone Marrow Transplantation

Allogeneic hematopoietic cell or bone marrow transplantation (BMT) causes graft-versus-host-disease (GVHD). However, the involvement of the kidney in acute GVHD is not well-understood. Acute GVHD was induced in Lewis rats (RT1^l) by transplantation of Dark Agouti (DA) rat (RT1^a) bone marrow cells (6.0×10⁷ cells) without immunosuppression after lethal irradiation (10 Gy). We examined the impact of acute GVHD on the kidney in allogeneic BMT rats and compared them with those in Lewis-to-Lewis syngeneic BMT control and non-BMT control rats. In syngeneic BMT and non-BMT control rats, acute GVHD did not develop by day 28. In allogeneic BMT rats, severe acute GVHD developed at 21–28 days after BMT in the skin, intestine, and liver with decreased body weight (>20%), skin rush, diarrhea, and liver dysfunction. In the kidney, infiltration of donor-type leukocytes was by day 28. Mild inflammation characterized by infiltration of CD3+ T-cells, including CD8+ T-cells and CD4+ T-cells, and CD68+ macrophages to the interstitium around the small arteries was noted. During moderate to severe inflammation, these infiltrating cells expanded into the peritubular interstitium with peritubular capillaritis, tubulitis, acute glomerulitis, and endarteritis. Renal dysfunction also developed, and the serum blood urea nitrogen (33.9±4.7 mg/dL) and urinary N-acetyl-β-D-glucosaminidase (NAG: 31.5±15.5 U/L) levels increased. No immunoglobulin and complement deposition was detected in the kidney. In conclusion, the kidney was a primary target organ of acute GVHD after BMT. Acute GVHD of the kidney was characterized by increased levels of urinary NAG and cell-mediated injury to the renal microvasculature and renal tubules.     

Loxosceles gaucho venom-induced acute kidney injury--in vivo and in vitro studies

Background

Accidents caused by Loxosceles spider may cause severe systemic reactions, including acute kidney injury (AKI). There are few experimental studies assessing Loxosceles venom effects on kidney function in vivo.

Methodology/Principal Findings

In order to test Loxosceles gaucho venom (LV) nephrotoxicity and to assess some of the possible mechanisms of renal injury, rats were studied up to 60 minutes after LV 0.24 mg/kg or saline IV injection (control). LV caused a sharp and significant drop in glomerular filtration rate, renal blood flow and urinary output and increased renal vascular resistance, without changing blood pressure. Venom infusion increased significantly serum creatine kinase and aspartate aminotransferase. In the LV group renal histology analysis found acute epithelial tubular cells degenerative changes, presence of cell debris and detached epithelial cells in tubular lumen without glomerular or vascular changes. Immunohistochemistry disclosed renal deposition of myoglobin and hemoglobin. LV did not cause injury to a suspension of fresh proximal tubules isolated from rats.

Conclusions/Significance

Loxosceles gaucho venom injection caused early AKI, which occurred without blood pressure variation. Changes in glomerular function occurred likely due to renal vasoconstriction and rhabdomyolysis. Direct nephrotoxicity could not be demonstrated in vitro. The development of a consistent model of Loxosceles venom-induced AKI and a better understanding of the mechanisms involved in the renal injury may allow more efficient ways to prevent or attenuate the systemic injury after Loxosceles bite.     

Fragments Ba and Bb derived from guinea pig factor B of the properdin system: purification, characterization, and biologic activities.

Functionally active guinea pig factor B was purified by a combination of chromatographic steps including Sephadex G-25, QAE A25, QAE A50, CM C50, and Sepharose 4B coupled with purified cobra venom factor. Purified factor B had a m.w. of 106,000 daltons and a single subunit structure. It was heat labile. After cleavage of native B with cobra venom factor coupled to Sepharose 4B in the presence of D, the resulting two fragments, the larger one (Bb) and the smaller one (Ba), were further purified. The m.w. of Bb and Ba was determined as 64,000 and 53,000 daltons, respectively, by SDS-PAGE. Neither of the fragments evoked a contraction of guinea pig ileum or histamine release from rat mast cells. Only the smaller fragment Ba (at a concentration of 120 nM) stimulated guinea pig peritoneal polymorphonuclear leukocytes to respond with increased movement. This activity as well as the antigenicity of Ba were heat stable, but were sensitive to trypsin digestion, whereas the antigenicity of Bb was heat labile.     

Isogenic P-fimbrial deletion mutants of pyelonephritogenic Escherichia coli: the role of α Gal(1–4)β Gal binding in virulence of a wild-type strain

Escherichia coli strains causing acute pyelonephritis often express multiple fimbrial types and haemolysin, which may contribute to their ability to adhere to, and interact with, kidney epithelial cells. Strain CFT073, a pap⁺, sfa⁺, pil⁺, hly⁺ pyelonephritis strain, previously established as virulent in the CBA mouse model of ascending urinary tract infection and cytotoxic for cultured human renal epithelial cells, was selected for construction of isogenic strains. From a gene bank of this strain, two distinct copies of the pap operon were isolated. The two P-fimbrial determinants were sub-cloned into pCVD442, a positive selection suicide vector containing the sacB gene of Bacillus subtilis. Deletion mutations were introduced into each of the two constructs, within papEFG of one operon and papDEFG of the other. Suicide vectors carrying pap deletions were mobilized from E. coli SM10 lambda pir into CFT073 (Nal^R) and cointegrates were passaged on non-selective medium. The first pap mutation was identified by screening a Southern blot of DNA from sucrose-resistant colonies using a papEFG probe. This mutant retained the MRHA⁺ phenotype since a second functional copy of pap was still present. A double pap-deletion mutant, UPEC76, confirmed by Southern blotting, was unable to agglutinate human type O erythrocytes or α Gal(1–4)β Gal-coated latex beads. CBA mice (N =100) were challenged transurethrally with 10⁵, 10⁶, 10⁷, or 10⁹ cfu of strains CFT073 or UPEC76. After one week, quantitative cultures of urine, bladder, and kidney were done and histologic changes were examined. No substantive differences in organism concentration or histological findings between parent and mutant were detected in urine, bladder, or kidney at any challenge concentration. We conclude that adherence by P fimbriae of uro-pathogenic E. coli strain CFT073 plays only a subtle role in the development of acute pyelonephritis in the CBA mouse model.     

Purification,kinetic studies,and homology model of Escherichia coli fructose-1,6-bisphosphatase

Previous kinetic characterization of Escherichia coli fructose 1,6-bisphosphatase (FBPase) was performed on enzyme with an estimated purity of only 50%. Contradictory kinetic properties of the partially purified E. coli FBPase have been reported in regard to AMP cooperativity and inactivation by fructose-2,6-bisphosphate. In this investigation, a new purification for E. coli FBPase has been devised yielding enzyme with purity levels as high as 98%. This highly purified E. coli FBPase was characterized and the data compared to that for the pig kidney enzyme. Also, a homology model was created based upon the known three-dimensional structure of the pig kidney enzyme. The k_cat of the E. coli FBPase was 14.6 s⁻¹ as compared to 21 s⁻¹ for the pig kidney enzyme, while the K_m of the E. coli enzyme was approximately 10-fold higher than that of the pig kidney enzyme. The concentration of Mg²⁺ required to bring E. coli FBPase to half maximal activity was estimated to be 0.62 mM Mg²⁺, which is twice that required for the pig kidney enzyme. Unlike the pig kidney enzyme, the Mg²⁺ activation of the E. coli FBPase is not cooperative. AMP inhibition of mammalian FBPases is cooperative with a Hill coefficient of 2; however, the E. coli FBPase displays no cooperativity. Although cooperativity is not observed, the E. coli and pig kidney enzymes show similar AMP affinity. The quaternary structure of the E. coli enzyme is tetrameric, although higher molecular mass aggregates were also observed. The homology model of the E. coli enzyme indicated slight variations in the ligand-binding pockets compared to the pig kidney enzyme. The homology model of the E. coli enzyme also identified significant changes in the interfaces between the subunits, indicating possible changes in the path of communication of the allosteric signal.     

Histological,molecular and biochemical detection of renal injury after Echis pyramidum snake envenomation in rats

Nephrotoxicity is a common sign of snake envenomation. The present work aimed to clarify the effect of intraperitoneal injection of 1/8 LD₅₀ and 1/4 LD₅₀ doses of Echis pyramidum snake venom on the renal tissue of rats after 2, 4 and 6 h from envenomation. Histopathological examination showed intense dose and time dependent abnormalities, including swelling glomerulus and tubular necrosis and damage as well as signs of intertubular medullary hemorrhage at early stages of envenomation. However, at late stages of envenomation by any of the doses under investigation, no intact renal corpuscles were recorded and complete lysis in renal corpuscles with ruptured Bowman’s capsules was observed. Immunohistochemistry by immunohistochemical staining was used to test the protein expression of Bax in renal tissue of rats. The result showed that the expression of Bax in renal tissue sections of envenomated rats was increased according to dose and time-dependant manner. The isolation of DNA from the renal cells of envenomed rats pointed out to the occurrence of DNA fragmentation, which is another indicator for renal tissue injury especially after 6 h of 1/4 LD₅₀ of E. pyramidum envenomation. Oxidative stress biomarkers malondialdehyde and nitrite/nitrate levels, antioxidant parameters; glutathione, total antioxidant capacity and catalase were assayed in renal tissue homogenates. The venom induced significant increase in the levels of malondialdehyde and nitrite/nitrate while the levels of glutathione, total antioxidant capacity and catalase were significantly decreased, especially after 6 h of envenomation. The results revealed that the E. pyramidum induced dose and time-dependant significant disturbances in the physiological parameters in the kidney. We conclude that the use of the immunohistochemical techniques, the detection of DNA integrity and oxidative stress marker estimations are more specific tools that can clarify cellular injury and could point out to the defense activity of the renal tissue at envenomation.     

Bilirubin inhibits the chemotactic activity of human polymorphonuclear leukocytesin vitro

Using the migration of human polymorphonuclear leukocytes in agarosein vitro, it was established that bilirubin inhibits migration (chemotaxis) of these cells upon stimulation with both complement-derived (zymosan-activated serum) and bacteria-derived (abacterial filtrate ofE. coli) chemotactic agents.     

The role of nonautologous and autologous adipose-derived mesenchymal stem cell in acute pyelonephritis

We compared the therapeutic effects of autologous and nonautologous adipose-derived mesenchymal stem cell (ADMSC), in ameliorating the renal function in a rabbit model of acute pyelonephritis. The difference of perirenal and neck subcutaneous ADMSCs were also evaluated. Twenty female rabbits were apportioned to 5 groups. In group I (n = 4), the rabbits were injected direct inoculation of Escherichia coli (E. coli) into the right kidney. In group II (n = 4), autologous ADMSCs obtained from nape adipose tissue were injected into the subcapsular space 1 week after E. coli injection, while nonautologous ADMSCs of the same origin (from male rabbits) were applied in group III (n = 4). In group IV (n = 4), autologous perirenal ADMSCs were applied with the same method, while perirenal nonautologous ADMSCs from male rabbits were used in group V (n = 4). Technetium-99m-DMSA renal scan was performed 1, 2 and 4 months post-injection in all groups. Kidneys were excised for the evaluation of histopathological changes in the same time points. PCR examination for detection of Y-chromosome (in group III and V) and fluorescent evaluation (in group II and IV) were also performed to determine the fate of injected cells. Injection of autologous ADMSCs resulted in more satisfactory outcomes in reduction of interstitial fibrosis, tubular, and glomerular atrophy as compared to nonautologous groups. However, histopathological ameliorations were significantly better in group IV in which autologous perirenal ADMSC was applied. Remarkably, two months after the injection, Technetium-99m-DMSA renal scan showed that right kidney reached to near normal cortical function (48 and 45%) in group IV and V, respectively as compared to groups II (41%) and III (37%). Autologous ADMSCs may have better results in cell therapy as compared to nonautologous cells. However, more satisfactory outcomes may be obtained when the cell source is selected from the surrounding adipose tissue.     

Complement dependence of antibody-induced mesangial cell injury in the rat

Intravenous administration of rabbit anti-rat thymocyte serum (ATS) reactive with Thy-1-like antigens present on rat mesangial cells induces almost immediate (1-hr) mesangial cell injury in rats followed by sequential mesangiolytic and mesangial-proliferative/infiltrative lesions. To determine the role of complement in these ATS-induced glomerular lesions, ATS was given to Lewis rats that had been depleted of C3 by cobra venom factor (CVF). CVF treatment prevented the degenerative changes in mesangial cells and accumulation of even the few polymorphonuclear leukocytes (PMN) seen in the glomeruli (2.67 PMN/glomerulus) 1 hr after ATS-treatment in rats not given CVF. In addition, CVF prevented the mesangiolysis and mesangial hypercellularity seen at day 4. Rat C3 and late complement components identified in the mesangial of ATS-treated rats in close association with the deposition of rabbit immunoglobulin G was also absent as a result of CVF treatment. CVF treatment did not affect binding of ATS to glomeruli as studied by immunofluorescence or paired label radioisotope techniques. The depletion of leukocytes and/or PMN by irradiation or treatment with anti-I-MN serum had no effect on the induction of the acute mesangial cell damage or the mesangiolytic lesion. Irradiation did diminish the 4-day proliferative/infiltrative lesion. Complement depletion normalized the ATS-induced increase in mesangial uptake of heat-aggregated human gamma-globulin (655.0 +/- 35.2 micrograms in ATS-treated vs 20.3 +/- 2.9 micrograms/5 X 10(4) glomeruli in ATS plus CVF-treated rats; mean +/- SEM). Small immune deposits present in the mesangial areas of kidneys 4 to 5 days after CVF treatment represented CVF-anti-CVF antibody-C3 complexes. The model of mesangial cell damage induced by ATS in the rat is complement-dependent and may relate, at least in part, to complement-mediated mesangial cell lysis.     

Cyclosporine A Impairs Nucleotide Binding Oligomerization Domain (Nod1)-Mediated Innate Antibacterial Renal Defenses in Mice and Human Transplant Recipients

Acute pyelonephritis (APN), which is mainly caused by uropathogenic Escherichia coli (UPEC), is the most common bacterial complication in renal transplant recipients receiving immunosuppressive treatment. However, it remains unclear how immunosuppressive drugs, such as the calcineurin inhibitor cyclosporine A (CsA), decrease renal resistance to UPEC. Here, we investigated the effects of CsA in host defense against UPEC in an experimental model of APN. We show that CsA-treated mice exhibit impaired production of the chemoattractant chemokines CXCL2 and CXCL1, decreased intrarenal recruitment of neutrophils, and greater susceptibility to UPEC than vehicle-treated mice. Strikingly, renal expression of Toll-like receptor 4 (Tlr4) and nucleotide-binding oligomerization domain 1 (Nod1), neutrophil migration capacity, and phagocytic killing of E. coli were significantly reduced in CsA-treated mice. CsA inhibited lipopolysaccharide (LPS)-induced, Tlr4-mediated production of CXCL2 by epithelial collecting duct cells. In addition, CsA markedly inhibited Nod1 expression in neutrophils, macrophages, and renal dendritic cells. CsA, acting through inhibition of the nuclear factor of activated T-cells (NFATs), also markedly downregulated Nod1 in neutrophils and macrophages. Silencing the NFATc1 isoform mRNA, similar to CsA, downregulated Nod1 expression in macrophages, and administration of the 11R-VIVIT peptide inhibitor of NFATs to mice also reduced neutrophil bacterial phagocytosis and renal resistance to UPEC. Conversely, synthetic Nod1 stimulating agonists given to CsA-treated mice significantly increased renal resistance to UPEC. Renal transplant recipients receiving CsA exhibited similar decrease in NOD1 expression and neutrophil phagocytosis of E. coli. The findings suggest that such mechanism of NFATc1-dependent inhibition of Nod1-mediated innate immune response together with the decrease in Tlr4-mediated production of chemoattractant chemokines caused by CsA may contribute to sensitizing kidney grafts to APN.     

An ultrastructural study of the renal medulla in experimental acute pyelonephritis.

Experimental acute pyelonephritis was produced in rats by a combination of intravenous administration of Escherichia coli, strain IMRU-54, and temporary unilateral mechanical ureteral obstruction. Structural alterations of the renal medulla were studied by light and electron microscopy. Major cellular alterations occurred in the vasa recta. Tubular and interstitial cells demonstrated minimal alterations after the brief period of acute inflammation. Polymorphonuclear leukocytes within tubular lumina contained structures resembling E. coli in nonprotoplasts-like form. Numerous protoplast-like organisms, to the exclusion of any other structural forms, were detected within the interstitium of the inner medulla. Nonprotoplast-like structures resembling E. coli were rarely observed in interstitium of the inner medulla. Following relief of ureteral obstruction, clearance of acute inflammation was rapid. In conclusion, hemoatogenous acute pyelonephritis induced by E. coli, IMRU-54, is able to inflict cytological and ultrastructural damage to structural elements of the inner and outer medulla of rats. Vasa recta incurred prominent alterations in endothelia and basement membranes, whereas tubular epithelia and interstitial cells had relatively good structural preservation. The data suggest that intravenously administered E. coli is capable to revert to a protoplast-like structure in the inner medulla.     

Oxytocin alleviates oxidative renal injury in pyelonephritic rats via a neutrophil-dependent mechanism

BACKGROUND: Urinary tract infection (UTI) may cause inflammation of the renal parenchyma and may lead to impairment in renal function and scar formation. Oxidant injury and reactive oxygen species (ROS) have been found responsible in the pathogenesis of UTI. The neurohypophyseal hormone oxytocin (OT) facilitates wound healing and is involved in the modulation of immune and inflammatory processes. We investigated the possible therapeutic effects of OT against Escherichia coli induced pyelonephritis in rats both in the acute and chronic setting. METHODS: Twenty-four Wistar rats were injected 0.1 ml solution containing E. coli ATCC 25922 10(10) colony forming units/ml into left renal medullae. Six rats were designed as sham group and were given 0.1 ml 0.9% NaCl. Pyelonephritic rats were treated with either saline or OT immediately after surgery and at daily intervals. Half of the pyelonephritic rats were decapitated at the 24th hour of E. coli infection, and the rest were followed for 7 days. Renal function tests (urea, creatinine), systemic inflammation markers [lactate dehydrogenase (LDH) and tumor necrosis factor alpha (TNF-alpha)] and renal tissue malondialdehyde (MDA) as an end product of lipid peroxidation, glutathione (GSH) as an antioxidant parameter and myeloperoxidase (MPO) as an indirect index of neutrophil infiltration were studied. RESULTS: Blood urea, creatinine, and TNF-alpha levels were increased, renal tissue MDA and MPO levels were elevated and GSH levels were decreased in both of the pyelonephritic (acute and chronic) rats. All of these parameters and elevation of LDH at the late phase were all reversed to normal levels by OT treatment. CONCLUSION: OT alleviates oxidant renal injury in pyelonephritic rats by its anti-oxidant actions and by preventing free radical damaging cascades that involves excessive infiltration of neutrophils.     

Inhibition of a membrane complement regulatory protein by a monoclonal antibody induces acute lethal shock in rats primed with lipopolysaccharide

Rats pretreated with traces of LPS developed acute fatal shock syndrome after i.v. administration of a mAb that inhibits the function of a membrane complement regulatory molecule. Such a shock was not observed after the administration of large amounts of LPS instead of the mAb following LPS pretreatment. The lethal response did not occur in rats depleted of either leukocytes or complement, and a C5a receptor antagonist was found to inhibit the reaction. Furthermore, LPS-treated rats did not suffer fatal shock following the injection of cobra venom factor, which activates complement in the fluid phase so extensively as to exhaust complement capacity. Therefore, complement activation on cell membranes is a requirement for this type of acute reaction.     

Secondary structure of the autoregulatory mRNA binding site of ribosomal protein L1

Summary The secondary structure of the autoregulatory mRNA binding site of Escherichia coli ribosomal protein L1 has been studies using enzymatic methods. The control region of the E. coli L11 operon was cloned into a vector under control of the Salmonella phage SP6 promoter, and RNA transcribed using SP6 RNA polymerase. The secondary structure of this RNA was probed using structure-specific nucleases, and by comparison of the data with computer predictions of RNA folding, secondary structural features were deduced. The proposed model is consistent with elements of some previously proposed models, but differs in other features. Finally, secondary structure information was obtained from two mutant mRNAs and the structural features correlated with observed phenotypes of the mutants.Abbreviations MB mung bean nuclease - V₁ cobra venom nuclease - sss single-strand-specific - dss double-strand-specific