Intermittent colonic exoperistalsis for chronic constipation in spinal cord-injured individuals. A long-term structured patient feedback survey to evaluate home care use.

STUDY DESIGN: Structured patient feedback survey evaluating real-world home care use. OBJECTIVES: To assess the long-term effectiveness, tolerability, and satisfaction with the intermittent colonic exoperistalsis (ICE) treatment device MOWOOT in spinal cord-injured (SCI) individuals with chronic constipation. SETTING: Four specialized German hospitals. METHODS: SCI individuals with chronic constipation were invited to use MOWOOT 10-20 min daily and answer a questionnaire about their bowel situation before treatment (feedback 1, F1) and after ≥10 months of use (feedback 2, F2). Collected variables were device use, bowel function effectiveness, chronic constipation symptoms, concomitant use of laxatives and evacuation aids, and satisfaction with bowel function and management, which were compared between time points. At F2, participants reported efficacy, tolerability/side effects, and ease of use. RESULTS: Eleven participants used the device for a mean (SD) of 13.27 (4.03) months. From F1 to F2, mean time per evacuation decreased by 24.5 min (p = 0.0076) and the number of failed attempts to evacuate/week, by 1.05 (p = 0.0354) with a tendency toward increased bowel movements and softer stool consistency, and decreased incomplete bowel movements. Participants experienced decreased difficulty/strain (p = 0.0055), abdominal pain (p = 0.0230), bloating (p = 0.0010), abdominal cramps (p = 0.0019), and spasms (p = 0.0198), without significant changes in the use of laxatives and evacuation aids. Satisfaction with bowel function and management improved (p = 0.0095) and more participants reported being very satisfied/satisfied (p = 0.0300). Most reported tolerability, efficacy, and ease of use as very good/good. CONCLUSION: Long-term in-home ICE treatment improved bowel function and chronic constipation symptoms in SCI individuals, providing clinical benefits to this population. SPONSORSHIP (MOWOOT DEVICES LENDING): 4 M Medical GmbH, Norderstedt, Germany.

Safety and Efficacy of Intermittent Colonic Exoperistalsis Device to Treat Chronic Constipation: A Prospective Multicentric Clinical Trial.

INTRODUCTION: Chronic constipation is associated with various comorbidities and reduced quality of life. Current solutions, either pharmacological or invasive, show limited efficacy. Manual colon-specific massage is a well-established intervention to treat chronic constipation, but it should be applied daily. MOWOOT automatically provides intermittent colonic exo-peristalsis (ICE) treatment like that in manual massage. METHODS: This study assessed the safety and effectiveness of the ICE device to treat chronic constipation due to neurogenic bowel dysfunction or idiopathic causes with high component of pelvic floor disorders. The ICE device was used daily for 20 minutes over 4 weeks. Each participant was followed for 9 consecutive weeks. The same outcome measures (primary: complete bowel movements per week; secondary: Knowles Eccersley Scott Symptom Score and Patient Assessment of Constipation Quality of Life among others) were assessed at baseline (V1), last intervention weeks (V2), and post-treatment (V3). Responders were defined for selected outcomes as better results at V2 respect to V1. RESULTS: N = 92 adult patients constituted the intention-to-treat population, with N = 65 as the per protocol population. Adherence (quantity of treatment received) was ≥95% in the intention-to-treat population. Adverse events related with the treatment were low (8.7%). Using the device significantly increased the number of complete bowel movements per week (V2 - V1 = 1.8 [2.7], P < 0.0001), reduced the symptoms of chronic constipation (Knowles Eccersley Scott Symptom Score V2 - V1 = -3.9 [5.0], P < 0.0001), improved quality of life (Patient Assessment of Constipation Quality of Life V2 - V1 = -0.7 [0.8], P < 0.0001), and facilitated a reduction in laxatives. Colon transit and fecal consistency were not modified. There was a high number of responders (>70%). DISCUSSION: Considering safety, adherence, and efficacy being demonstrated, the results favor the use of MOWOOT to treat chronic constipation (Visual abstract, Supplementary Digital Content 1, http://links.lww.com/CTG/A440).(Equation is included in full-text article.).

CD40 gene silencing reduces the progression of experimental lupus nephritis modulating local milieu and systemic mechanisms.

Lupus nephritis (LN) is an autoimmune disorder in which co-stimulatory signals have been involved. Here we tested a cholesterol-conjugated-anti-CD40-siRNA in dendritic cells (DC) in vitro and in a model of LPS to check its potency and tissue distribution. Then, we report the effects of Chol-siRNA in an experimental model of mice with established lupus nephritis. Our in vitro studies in DC show a 100% intracellular delivery of Chol-siRNA, with a significant reduction in CD40 after LPS stimuli. In vivo in ICR mice, the CD40-mRNA suppressive effects of our Chol-siRNA on renal tissue were remarkably sustained over a 5 days after a single preliminary dose of Chol-siRNA. The intra-peritoneal administration of Chol-siRNA to NZB/WF1 mice resulted in a reduction of anti-DNA antibody titers, and histopathological renal scores as compared to untreated animals. The higher dose of Chol-siRNA prevented the progression of proteinuria as effectively as cyclophosphamide, whereas the lower dose was as effective as CTLA4. Chol-siRNA markedly reduced insterstitial CD3+ and plasma cell infiltrates as well as glomerular deposits of IgG and C3. Circulating soluble CD40 and activated splenic lymphocyte subsets were also strikingly reduced by Chol-siRNA. Our data show the potency of our compound for the therapeutic use of anti-CD40-siRNA in human LN and other autoimmune disorders.

Impact of small molecules immunosuppressants on P-glycoprotein activity and T-cell function.

PURPOSE: P-glycoprotein (Pgp) is a member of the ABC-transporter family that transports substances across cellular membranes acting as an efflux pump extruding drugs out of the cells. Pgp plays a key role on the pharmacokinetics of several drugs. Herein, we have studied the effects of immunosuppressants on Pgp function, assessing rhodamine-123 (Rho123) uptake and efflux in different T-cell subsets. METHODS: Different immunosuppressants such as Cyclosporine (CsA), Rapamycin (Rapa) and Tacrolimus (Tac) were used to assess the in vitro effect on Pgp function of main T-cell subsets among healthy volunteers. We measured Rho123 uptake, efflux and kinetic of extrusion in CD4+ and CD8+ subsets by flow cytometry. Antigen-specific memory T-cell responses were assessed by measuring T-cell proliferation and cytokine secretion using an allogeneic mixed lymphocyte reaction. RESULTS: Rho123 uptake in groups treated with CsA and CsA+Rapa was significantly decreased compared to non-treated group and the other immunosupressants in both T cells subsets. Pgp activity was also reduced in CsA and CsA+Rapa compared to the other immunosupressants but it was only significant in the CsA group for CD8+ subset. Kinetic extrusion of Rho123 by Pgp in all groups was faster in CD8+ T cells. All immunosuppressants and the specific Pgp inhibitor PSC833 diminished antigen-primed T-cell proliferation, especially CD8+ T-cell subset. CONCLUSIONS: Our data indicate that small molecules immunosuppressants, especially CsA, inhibit Pgp activity and T-cell function being the CD8+ T cells more susceptible to this effect. These findings support the importance of Pgp when designing combined immunosuppressive regimens.

Cold ischaemia, innate immunity and deterioration of the glomerular filtration barrier in antibody-mediated acute rejection.

BACKGROUND: In renal transplantation, cold ischaemia (CI) determines acute rejection through innate immunity among others. Acute rejection episodes are a risk factor for late allograft dysfunction and proteinuria. This implies some alteration of the glomerular filtration barrier (GFB). Besides its effects on acute rejection, we hypothesized that CI might somehow damage the GFB being directly responsible for late proteinuria. METHODS: On rat kidney allografts suffering from antibody-mediated acute rejection with or without CI and compared with syngeneic grafts, we quantified the gene expression of innate and adaptive immune mediators and assessed the capillary glomerular basement membranes (CapBM) by immunostaining collagen-IV (ColIV). ColIV was also assessed in equivalent groups from a previous chronic study followed up for 24 weeks. RESULTS: CI up-regulated enzymes critical in the stabilization of collagen chains, increasing ColIV deposition and thickening the CapBM. CI increased the C4d and IgG deposits within grafts, amplified innate immunity (heat shock protein 70, fibronectin, Toll-like-receptor-4 and MyD88) and synergized with alloreactivity in triggering adaptive response through CD40. CONCLUSIONS: Initial CI increased the ColIV deposition in CapBM, damaging the GFB and being responsible for part of the proteinuria associated with late allograft dysfunction. This deterioration of the GFB is related to the early innate immunity activation and subsequent up-regulation of CD40 in acute rejected grafts. In chronic rejected allografts, thickened CapBM may be a consequence of an unresolved immune-inflammatory response worsened by CI.

Mesenchymal stem cell therapy prevents interstitial fibrosis and tubular atrophy in a rat kidney allograft model.

In solid organ transplantation, mesenchymal stem cell (MSC) therapy is strongly emerging among other cell therapies due to the positive results obtained in vitro and in vivo as an immunomodulatory agent and their potential regenerative role. We aimed at testing whether a single dose of MSCs, injected at 11 weeks after kidney transplantation for the prevention of chronic mechanisms, enhanced regeneration and provided protection against the inflammatory and fibrotic processes that finally lead to the characteristic features of chronic allograft nephropathy (CAN). Either bone marrow mononuclear cells (BMCs) injection or no-therapy (NT) were used as control treatments. A rat kidney transplantation model of CAN with 2.5 h of cold ischemia was used, and functional, histological, and molecular parameters were assessed at 12 and 24 weeks after transplantation. MSC and BMC cell therapy preserves renal function at 24 weeks and abrogates proteinuria, which is typical of this model (NT24w: 68.9 ± 26.5 mg/24 h, MSC24w: 16.6 ± 2.3 mg/24 h, BMC24w: 24.1 ± 5.3 mg/24 h, P<0.03). Only MSC-treated animals showed a reduction in interstitial fibrosis and tubular atrophy (NT24w: 2.3 ± 0.29, MSC24w: 0.4 ± 0.2, P<0.03), less T cells (NT: 39.6 ± 9.5, MSC: 8.1 ± 0.9, P<0.03) and macrophages (NT: 20.9 ± 4.7, MSC: 5.9 ± 1.7, P<0.05) infiltrating the parenchyma and lowered expression of inflammatory cytokines while increasing the expression of anti-inflammatory factors. MSCs appear to serve as a protection from injury development rather than regenerate the damaged tissue, as no differences were observed in Ki67 expression, and kidney injury molecule-1, Clusterin, NGAL, and hepatocyte growth factor expression were only up-regulated in nontreated animals. Considering the results, a single delayed MSC injection is effective for the long-term protection of kidney allografts.

The combination of sirolimus and rosiglitazone produces a renoprotective effect on diabetic kidney disease in rats.

AIMS: Peroxisome proliferator-activated receptor-gamma (PPAR-gamma) agonists and mammalian target of rapamycin (mTOR) inhibitors share mechanisms concerning cell growth and reduction of extracellular matrix accumulation. The purpose of this study was to evaluate the potential synergistic effect of this combination on diabetic kidney disease in rats. MAIN METHODS: Diabetes was induced by streptozotocin in 42 male Sprague-Dawley rats. Sixteen weeks after diabetes induction, animals were divided into four groups: diabetic animals without intervention (D), diabetic animals with administration of sirolimus (D+SRL), diabetic animals with administration of rosiglitazone (D+RGT), and diabetic animals with administration of sirolimus and rosiglitazone (D+SRL+RGT). KEY FINDINGS: At a 30-day follow up, diabetic rats showed higher kidney weight, mean glomerular volume, mesangial expansion and albuminuria compared with non-diabetic rats. mTOR downstream proteins, p-T389-S6K and p-T37/46-4EBP1, were higher in diabetic than non-diabetic kidneys, whereas p-S473-AKT was not, suggesting that hyperglycemia mainly activated the mTORC1 pathway in vivo. Moreover, the catalytic subunit of protein phosphatase 2A (PP2Ac) was down-regulated in the diabetic kidney. Sirolimus inhibited the mTORC1 pathway, while the PPAR-gamma agonist rosiglitazone enhanced PP2Ac and reduced p70S6K. Both drugs were associated with a reduction in albuminuria, renal enlargement and mesangial expansion, but without any improvement in glycemic control. Sirolimus and rosiglitazone in combination down-regulated the mTORC1 pathway and over-activated PP2Ac in diabetic kidney. This effect may account for the synergistic reduction of renal hypertrophy, albuminuria and renal TGF-beta1 observed in diabetic rats treated with SRL+RGT. SIGNIFICANCE: The combination of sirolimus and rosiglitazone is renoprotective with respect to diabetic nephropathy.

Endothelial cell transduction in primary cultures from regressing mesonephros.

Loss of renal function during normal aging is associated with vascular alterations. Consequently, new therapeutic approaches, including gene therapy, to protect renal endothelial cells are expected to be greatly beneficial. Quail mesonephros is a transitory embryonic kidney that has been used for the study of vascular development and involution. Vascular alterations in regressing mesonephros are similar to those observed in aging kidney. In the present study, we examined adenovirus-mediated gene transfer to endothelial cells in primary cultures from developing and regressing quail mesonephros. Quail embryos with developing and regressing mesonephros were examined on day 6 (30HH) and day 11 (40HH) of incubation, respectively. The senescence markers, associated beta-galactosidase activity and p16(INK4a), were examined in whole mesonephros. Quail embryos were injected intracardiacally with adenoviral vectors (rAd-CMV-LacZ) and endothelial cell transduction examined. In addition, primary cell cultures from mesonephros were exposed to adenoviral vectors. Endothelial cells in primary cultures were identified as QH1(+), LEP100(-) and acidic phosphatase(-) cells and adenovirus-transduced cells were those positive for bacterial-associated beta-galactosidase activity. We report that endothelial cells in the whole regressing mesonephros and primary cell cultures expressed senescence markers. In addition, we observed that adenoviral vectors were able to transduce endothelial cells in the whole regressing mesonephros, and that cultured endothelial and macrophagic cells from the regressing mesonephros were more efficiently transduced than those derived from the developing mesonephros. Our results suggest that quail mesonephros provides a practical model to assay gene transfer to endothelial cells in regressing/senescent vessels.

Rapamycin has dual opposing effects on proteinuric experimental nephropathies: is it a matter of podocyte damage?

BACKGROUND: In clinical renal transplantation, an increase in proteinuria after conversion from calcineurin inhibitors to rapamycin has been reported. In contrast, there are studies showing a nephro-protective effect of rapamycin in proteinuric diseases characterized by progressive interstitial inflammatory fibrosis. METHODS: Because of the contradictory reports concerning rapamycin on proteinuria, we examined proteinuria and podocyte damage markers on two renal disease models, with clearly different pathophysiological mechanisms: a glomerular toxico-immunological model induced by puromycin aminonucleoside, and a chronic hyperfiltration and inflammatory model by mass reduction, both treated with a fixed high rapamycin dose. RESULTS: In puromycin groups, rapamycin provoked significant increases in proteinuria, together with a significant fall in podocin immunofluorescence, as well as clear additional damage to podocyte foot processes. Conversely, after mass reduction, rapamycin produced lower levels of proteinuria and amelioration of inflammatory and pro-fibrotic damage. In contrast to the puromycin model, higher glomerular podocin and nephrin expression and amelioration of glomerular ultrastructural damage were found. CONCLUSIONS: We conclude that rapamycin has dual opposing effects on subjacent renal lesion, with proteinuria and podocyte damage aggravation in the glomerular model and a nephro-protective effect in the chronic inflammatory tubulointerstitial model. Rapamycin produces slight alterations in podocyte structure when acting on healthy podocytes, but it clearly worsens those podocytes damaged by other concomitant injury.

Different storing and processing conditions of human lymphocytes do not alter P-glycoprotein rhodamine 123 efflux.

P-glycoprotein (Pgp), a protein codified by Multi Drug Resistance (MDR1) gene, has a detoxifying function and might influence the toxicity and pharmacokinetics and pharmacodynamics of drugs. Sampling strategies to improve Pgp studies could be useful to optimize the sensitivity and the reproducibility of efflux assays. This study aimed to compare Pgp expression and efflux activity by measuring Rhodamine123 (Rh123) retention in lymphocytes stored under different conditions, in order to evaluate the potential utility of any of the storing conditions in Pgp functionality. Our results show no change in protein expression of Pgp by confocal studies and Western blotting, nor changes at the mRNA level (qRT-PCR). No differences in Rh123 efflux by Pgp activity assays were found between fresh and frozen lymphocytes after 24 hours of blood extraction, using either of the two Pgp specific inhibitors (VP and PSC833). Different working conditions in the 24 hours post blood extraction do not affect Rh123 efflux. These results allow standardization of Pgp activity measurement in different individuals with different timing of blood sampling and in different geographic areas.

Different renal toxicity profiles in the association of cyclosporine and tacrolimus with sirolimus in rats.

BACKGROUND: The association of calcineurin inhibitors (CNIs) with mTOR inhibitors (mTORi) is still a problem in clinical practice and there is substantial interest in better understanding the impact of these associations on kidney toxicity. We aimed to analyse the functional and histological profiles of damage and to define the contribution of inflammatory and pro-fibrotic mediators in the association of cyclosporine (CsA) and/or tacrolimus (Tac) with sirolimus (SRL). METHODS: A well-defined model of nephrotoxicity in salt-depleted male rats was used. Monotherapy groups were distributed as a non-treated control group with saline solution (n = 12), the Tac group (n = 16) (tacrolimus 6 mg/kg/day) and the CsA group (n = 13) (CsA 15 mg/kg/day). The groups with different associations were scattered as the Tac + SRL group (n = 14) (tacrolimus 6 mg/kg/day and rapamycin 3 mg/kg/day) and the CsA + SRL group (n = 7) (CsA 15 mg/kg/day and rapamycin 3 mg/kg/day). Groups were divided into 30 and 70 days of follow-up, but the CsA + SRL group was only studied for 30 days because animals became sick. RESULTS: Rats with the CsA + SRL association were the only ones which showed a significant reduction in body weight, impairment of renal function and severe and diffuse tubular vacuolization and tubular atrophy following a striped distribution, and scarce areas of the kidney were still preserved. The Tac + SRL association did not produce renal function impairment, and mild histological damage including enhanced periglomerular tubular atrophy was observed. This local damage affected the distal convoluted tubule involving macula densa and juxtaglomerular apparatus. Pro-inflammatory mediators paralleled functional and structural data. ED-1 and TNF-alpha were noticeably higher in the CsA + SRL than in the Tac + SRL association. Only in the CsA + SRL association an important increase in alpha-SMA+ cells was seen, mainly found in the areas with tubular atrophy. TGF-beta1 was also markedly enhanced in the CsA + SRL association whilst monotherapy or Tac + SRL groups at 30 days TGF-beta1 did not show any changes. However, at 70 days of treatment TGF-beta1 was significantly increased in the Tac + SRL group. Animals receiving SRL showed a decrease in renal vascular endothelial growth factor (VEGF) expression. This growth factor was significantly down-regulated in both CNI associations than in SRL monotherapy. P-glycoprotein (Pgp) was overexpressed in CsA and CsA + SRL therapy whilst Tac and TAC + SRL showed a middle increase Pgp expression but higher than the control and SRL group. CONCLUSION: We conclude that the association of SRL with high doses of CsA or Tac produces a different functional, histological, inflammatory and pro-fibrogenic pattern. Thus, the addition of SRL to high doses of CsA leads to severe renal injury. Combination with high doses of Tac is clearly less deleterious in the short term. However, there is a low grade of pro-fibrotic inflammatory expression when this association is prolonged.

Gene therapy for acute renal failure.

Thanks to the progressive understanding of the cellular and molecular basis of renal function and disease, during the next several decades new therapeutic approaches to a wide range of kidney disorders, including acute renal failure (ARF), will be developed. In this regard, the repair of ischemic and toxic ARF is critically dependent on a redundant, interactive cytokine and growth factors network to return kidney function to near-normal baseline function. A newer strategy in biotechnology is the development of recombinant genetic engineered compounds and, recently, cell therapy derivatives. Gene therapy offers a novel approach for prevention and treatment of renal diseases. Technical advances in viral vector systems and the development of fusigenic liposome vectors have been crucial to the progress of effective gene therapy strategies directed at renal structures in animal models. Many investigations have provided experimental models for gene delivery systems but the most efficient renal gene transfer was obtained from intrarenal injection or perfusion of explanted kidneys in transplantation. Continued technologic advances in vector systems and promising results in human and animal gene transfer studies make the use of gene therapy an encouraging strategy. Cell therapy, a tool for gene therapy, is based on the ability to expand specific cells in tissue culture to perform differentiated tasks and to introduce these cells into the patient either in extracorporeal circuits or as implants as drug delivery vehicles of a single protein or to provide physiological functions. These new approaches may result in therapeutic modalities that diminish the degree of renal failure and the time needed to recover renal function in acute tubular necrosis. This article specifically examines the present prospects of gene developing therapies in the treatment of ARF.

Ischemic preconditioning in solid organ transplantation: from experimental to clinics.

This study reviews the current understanding of ischemic preconditioning (IP) in experimental and clinical setting, and the mechanisms that mediate the complex processes involved as a tool to protect against ischemia and reperfusion (I/R) injury, but is not intended as a complete literature review of preconditioning. IP has been mainly elucidated in cardiac ischemia. Recent reports confirm the efficacy of pre- and postconditioning in cardiac surgery and percutaneous coronary interventions in humans. IP utilizes endogenous as well as distant mechanisms in skeletal muscle, liver, lung, kidney, intestine and brain in animal models to convey varying degrees of protection from I/R injury. Specifically, preconditioned tissues exhibit altered energy metabolism, better electrolyte homeostasis and genetic reorganization, as well as less oxygen-free radicals and activated neutrophils release, reduced apoptosis and better microcirculatory perfusion. To date, there are few human studies, but recent trials suggest that human liver, lung and skeletal muscle acquire protection after IP. Present data address the potential therapeutic application of IP in the prevention of I/R damage specially aimed at clinical transplantation. IP is ubiquitous but more research is required to fully translate these findings to the clinical arena.

The quail mesonephros: a new model for renal senescence?

BACKGROUND/AIMS: Renal senescence during normal aging is associated with specific vascular alterations and tissue degeneration. Although the degenerative program executed during embryonic kidney development is known to include vascular alterations, studies yet have to examine whether it involves replicative senescence. In this study, we assessed the potential of the quail mesonephros, a transitory embryonic kidney, as a model of human renal senescence. METHODS: Quail embryos with developing or degenerating mesonephros were studied on day 6 or day 11 of incubation, respectively. Senescence-associated beta-galactosidase activity, a marker of replicative senescence, was examined on whole mounts and sections. Senescent vascular characterization was performed by the scanning electron-microscopic analysis of vascular corrosion casts. RESULTS: Senescence-associated beta-galactosidase activity was found only in old mesonephros. Moreover, at 11 days of incubation glomerular capillaries showed discontinuities and were thinner and more tortuous than those observed at 6 days, characteristics also reported for the aging human kidney. CONCLUSION: The degenerating quail mesonephros is a potential model of renal senescence, showing biochemical and morphological characteristics of the aging human kidney.

Mammalian target of rapamycin pathway blockade slows progression of diabetic kidney disease in rats.

Recent data suggest that the phosphatidylinositol 3-kinase (PI3-K)/Akt/mammalian target of rapamycin (mTOR) pathway is important in diabetic nephropathy. The effect of mTOR blockade by sirolimus (SRL) in diabetic kidney disease in rats was investigated. Diabetes was induced by streptozotocin in male Sprague-Dawley rats. Sixteen weeks later, diabetic animals were divided into the following groups: diabetes (D; n = 8), diabetes + SRL at 1 mg/kg per d, SRL trough level 2.3 +/- 0.25 ng/ml (D+SRL; n = 7); and diabetes + normoglycemia maintained by insulin implants (D+NG; n = 5). There was an age-matched nondiabetic group (ND; n = 6). All animals were followed for 4 wk. The D group showed glomerular hypertrophy (mean glomerular volume 5.0 +/- 0.4 in D versus 3.3 +/- 0.2 10(6) mu(3) in ND; P < 0.05) without renal hyperplasia (calculated by reverse transcription-PCR of proliferative cell nuclear antigen) and albuminuria (29 +/- 4 in D versus 1.4 +/- 1.5 mg/24 h in ND; P < 0.05). Both D+NG and D+SRL groups had a significant reduction of albuminuria, although glomerular hypertrophy was still present. SRL treatment did not modify the number of infiltrating renal ED1(+) cells. Diabetic animals had greater expression of p-Akt and mTOR, unlike ND rats. NG and SRL treatment reduced p-Akt and normalized mTOR. It is interesting that D+SRL was associated with a significant reduction of renal TGF-beta1 and glomerular connective tissue growth factor. SRL treatment reduced glomerular alpha-smooth muscle actin overexpression and reduced significantly the mesangial matrix accumulation that is characteristic of diabetic nephropathy. In conclusion, mTOR blockade by low-dose SRL has a beneficial effect in diabetic kidney disease, suggesting that the mTOR pathway has an important pathogenic role in diabetic nephropathy.

Reduction of postischemic immune inflammatory response: an effective strategy for attenuating chronic allograft nephropathy.

BACKGROUND: Ischemia added to the allogeneic background accelerates the cellular mechanisms involved in alloresponsiveness, supporting the influence of early nonspecific inflammatory injury on chronic allograft nephropathy (CAN). The authors hypothesize that reinforcing initial immunosuppressive regimens may prevent immunogenicity derived from postischemic inflammatory responses, attenuating CAN. METHODS: Lewis rats engrafted with Fischer kidneys received for 15 days overimmunosuppressive doses of rapamycin, a standard cyclosporine regimen, or both, and were followed functionally for 24 weeks. Animals were grouped according to the initial immunosuppressant or cold-ischemia period. Grafts were evaluated for acute inflammatory response at 1 week and for chronic histologic damage at 24 weeks. RESULTS: Rats under cyclosporine alone displayed the highest mortality, which was decreased in the long term by reducing cold ischemia or by strengthening immunosuppression. At 24 weeks, all rapamycin-treated groups displayed much less severe tubulointerstitial and vascular damage. The combination of both immunosuppressants offered better functional outcome and a global reduction in chronic histologic damage. After 1 week, ATN and profibrotic features appeared in all 5-hr ischemic animals, indicating that cyclosporine and rapamycin co-treatment did not induce further nephrotoxicity. Treatment with rapamycin, alone or combined with cyclosporine, greatly reduced the severe immune-inflammatory damage, including vessels, shown in cyclosporine-treated ischemic grafts. CONCLUSIONS: Strengthening initial immunosuppression attenuates the intensity and extent of the early postischemic immune-inflammatory response as well as later function and structure of renal allografts. Severe CAN may be prevented by reducing cold ischemia or strengthening immunosuppression. Because the former approach is not always possible, reinforcement of early immunosuppression constitutes an excellent alternative.

Regression of advanced diabetic nephropathy by hepatocyte growth factor gene therapy in rats.

Diabetic nephropathy is the main cause of end-stage renal disease requiring dialysis in developed countries. In this study, we demonstrated the therapeutic effect of hepatocyte growth factor (HGF) on advanced rather than early diabetic nephropathy using a rat model of streptozotocin-induced diabetes. Early diabetic nephropathy (16 weeks after induction of diabetes) was characterized by albuminuria, hyperfiltration, and glomerular hypertrophy, whereas advanced diabetic nephropathy showed prominent transforming growth factor (TGF)-beta1 upregulation, mesangial expansion, and glomerulosclerosis. An SP1017-formulated human HGF (hHGF) plasmid was administered by intramuscular injection combined with electroporation over a 30-day follow-up in rats with early and advanced diabetic nephropathy. hHGF gene therapy upregulated endogenous rat HGF in the diabetic kidney (rat HGF by RT-PCR was threefold higher than in diabetic rats without therapy). hHGF gene therapy did not improve functional or morphologic abnormalities in early diabetic nephropathy. hHGF gene therapy reduced albuminuria and induced strong regression of mesangial expansion and glomerulosclerosis in advanced diabetic nephropathy. These findings were associated with suppression of renal TGF-beta1 and mesangial connective tissue growth factor (CTGF) upregulation, inhibition of renal tissue inhibitor of metalloproteinase (TIMP)-1 expression, and reduction of renal interstitial myofibroblasts. In conclusion, our results suggest that hHGF gene therapy may be considered as an innovative therapeutic strategy to treat advanced diabetic nephropathy.

Do alloreactivity and prolonged cold ischemia cause different elementary lesions in chronic allograft nephropathy?

This study assesses the individual contributions of the nonalloreactive factor, cold ischemia (CI), and alloreactivity to late functional and structural renal graft changes, and examines the effect of the association of both factors on the progression of chronic allograft nephropathy. Lewis rats acted as receptors of kidneys from either Lewis or Fischer rats. For CI, kidneys were preserved for 5 hours. The rats were divided into four groups: Syn, syngeneic graft; SynI, syngeneic graft and CI; Allo, allogeneic graft; AlloI, allogeneic graft and CI. Renal function was assessed every 4 weeks for 24 weeks. Grafts were evaluated for acute inflammatory response at 1 week and for chronic histological damage at 24 weeks. Only when CI and allogenicity were combined did immediate posttransplant mortality occur, while survivors showed accelerated renal insufficiency that induced further mortality at 12 weeks after transplant. Solely ischemic rats developed renal insufficiency. Renal structural damage in ischemic rats was clearly tubulointerstitial, while significant vasculopathy and glomerulosclerosis appeared only in the allogeneic groups. There was increased infiltration of macrophages and expression of mRNA-transforming growth factor-beta1 in the ischemic groups, irrespective of the allogeneic background. The joint association of CI plus allogenicity significantly increased cellular infiltration at both early and late stages, aggravating tubulointerstitial and vascular damage considerably. In summary, CI is mainly responsible for tubulointerstitial damage, whereas allogenicity leads to vascular lesion. The association of both factors accelerates and aggravates the progression of experimental chronic allograft nephropathy.

Promising effects of ischemic preconditioning in renal transplantation.

BACKGROUND: Ischemic preconditioning, a phenomenon induced by brief ischemia and reperfusion periods, renders an organ tolerant to subsequent prolonged ischemia. This study evaluated different schedules of preconditioning the kidney to assess the role of nitric oxide (NO) and determine the effects of preconditioning on kidney transplantation. METHODS: In study design A, to determine the optimum procedure of preconditioning, one-cycle schedules were assayed by occluding/releasing renal pedicles according to various warm ischemic (5, 10, 15, 20 min) and reperfusion (10, 20, 40 min) windows in Sprague-Dawley rats. Thereafter, warm renal ischemia was induced by clamping both pedicles for 40 minutes. Design B used the most suitable schedule found from the first study to obtain several groups, using either a direct nitric oxide donor (spermine NONOate) or two nitric oxide synthase (NOS) blockers (L-NAME and aminoguanidine), to determine whether NO mediates in renal preconditioning. To establish whether preconditioning reduces cold preservation damage, in Design C the optimum preconditioning schedule was used in syngeneic Lewis rats where preconditioned and non-preconditioned kidneys were transplanted after five hours of cold storage in Euro-Collins solution. RESULTS: The best preconditioning schedule consisted of 15 minutes of warm ischemia and 10 minutes of reperfusion (Prec 15/10), since it was the only schedule that offered both functional and histological protection. The NO donor reproduced the ischemic preconditioning. Non-selective NOS blockade abolished the preconditioning and exacerbated ischemic damage, which was overcome by the addition of the NO donor. Selective blocking of inducible NOS also abolished the effects of preconditioning. Renal NO increased at the end of preconditioning in the Prec 15/10 group. Prolongation of the reperfusion window (20 or 40 min) abolished the preconditioning protection, although it was associated with a further increase in renal NO. As renal DNA oxidative injury paralleled NO, increasing with prolongation of reperfusion, it may account for the disappearance of preconditioning. Finally, the one-cycle preconditioning schedule offered an effective functional and histological protection against cold preservation damage in rat renal transplantation. CONCLUSIONS: Fifteen minutes of warm ischemia and 10 minutes of reperfusion in the kidney is the most suitable one-cycle schedule for preconditioning since it protects from both warm and cold ischemia. The beneficial effect of preconditioning is related to the local production of NO, and we believe it has promising therapeutic value in clinical renal transplantation.