Calcineurin inhibitors (ciclosporin and tacrolimus) can cause acute and chronic nephrotoxicity. The serum levels of these drugs do not correlate well with the extent of renal damage caused, and the clinical manifestation is nonspecific. Renal biopsy is a reliable tool with which to diagnose calcineurin-inhibitor-induced nephrotoxicity. Ciclosporin and tacrolimus produce identical lesions, which are focal in nature and can be overlooked, necessitating the evaluation of serial tissue sections. Acute toxicity is characterized histologically by necrosis and early hyalinosis of individual smooth muscle cells in the afferent arterioles, and/or isometric vacuolation of the proximal straight tubules; thrombotic microangiopathy is a rare manifestation. In chronic toxicity, the damaged media smooth muscle cells in afferent arterioles are replaced by beaded medial hyaline deposits that bulge into the adventitia; the interstitium displays striped fibrosis and tubular atrophy. As maintenance doses of calcineurin inhibitors in renal transplant recipients have been lowered during the past decade, the incidence of acute toxicity has decreased markedly. Chronic toxicity, however, is still prevalent, and causes chronic allograft damage.
The BK polyomavirus exhibits tropism for the renal tubular epithelium, where it establishes latent infection. Vigorous immunosuppression of renal allograft recipients can lead to reactivation of the infection and the development of polyomavirus-associated nephropathy (PVAN). Clinically, gradually decreasing renal function, viremia and viruria are observed several months after transplantation; allograft failure occurs in 1-10% of patients. Definitive diagnosis requires an allograft biopsy. Histologically, viral replication results in tubular epithelial cell enlargement, karyomegaly and nuclear inclusion bodies. The cytopathic changes are often associated with lysis of tubular epithelial cells, denudation of the basement membrane and an interstitial inflammatory response. The involvement is multifocal; distal nephron segments are more severely affected than proximal segments. Changes observed during light microscopy are suggestive but not pathognomonic for PVAN, and the diagnosis must be confirmed by adjunct studies. Adjunct studies consist of immunohistochemistry on paraffin sections using an antibody to the SV40 large T antigen, or electron microscopy of infected tubular epithelial cells (virions 40 nm in diameter). PVAN manifests in three histologic patterns: pattern A, viral cytopathic changes with no or only minimal inflammation; pattern B, cytopathic and cytolytic lesions with interstitial inflammation; or pattern C, predominantly interstitial fibrosis and tubular atrophy, with variable cytopathic and inflammatory changes. These patterns correlate with clinical outcomes.
Several relatively recently published studies have shown changes in plasma metabolites in various viral diseases such as Zika, Dengue, RSV or SARS-CoV-1. The aim of this study was to analyze the metabolome profile of patients during acute COVID-19 approximately one month after the acute infection and to compare these results with healthy (SARS-CoV-2-negative) controls. The metabolome analysis was performed by NMR spectroscopy from the peripheral blood of patients and controls. The blood samples were collected on 3 different occasions (at admission, during hospitalization and on control visit after discharge from the hospital). When comparing sample groups (based on the date of acquisition) to controls, there is an indicative shift in metabolomics features based on the time passed after the first sample was taken towards controls. Based on the random forest algorithm, there is a strong discriminatory predictive value between controls and different sample groups (AUC equals 1 for controls versus samples taken at admission, Mathew correlation coefficient equals 1). Significant metabolomic changes persist in patients more than a month after acute SARS-CoV-2 infection. The random forest algorithm shows very strong discrimination (almost ideal) when comparing metabolite levels of patients in two various stages of disease and during the recovery period compared to SARS-CoV-2-negative controls.
Background: The blood pressure-independent renoprotective actions of the blockade of the renin-angiotensin and the sympathetic nervous system are well documented, but monotherapies fail to completely abrogate progression. We investigated whether combined inhibition of the two systems provides additive renoprotection. Methods: After subtotal nephrectomy (SNX) or sham operation, rats underwent resection of dorsal roots, i.e. rhizotomy or sham rhizotomy. Subsequently, they received tap water or quinapril in drinking water for 16 weeks (n = 18/group). Albuminuria, blood pressure and kidneys were assessed (morphometry, immunohistochemistry). Results: At the end of the study telemetric blood pressure in SNX was 118 ± 16 mm Hg, in SNX + rhizotomy 110 ± 10 mm Hg, in SNX + quinapril 103 ± 9 mm Hg and in SNX + quinapril + rhizotomy 95 ± 7 mm Hg. Albuminuria in the respective groups was 169 ± 75, 86 ± 45, 15 ± 23 and 5 ± 4 mg/24 h. The glomerulosclerosis index was 1.40 ± 0.6, 0.80 ± 0.23, 0.37 ± 0.16 and 0.31 ± 0.15 (p < 0.001). Only combined intervention caused significant reduction of the glomerular volume and podocyte hypertrophy. The lowest indices for nitrotyrosine, NOS-1 (nNOS), TGF-β and interstitial collagen were seen with combined interventions (p < 0.05). Conclusion: In angiotensin-converting enzyme inhibitor-treated SNX animals, abrogation of sympathetic overactivity provides additional renoprotection and less nitro-oxidative stress of podocytes than single interventions. The added benefits were partially blood pressure independent.
Background Ginger has been used as an herbal medicine worldwide to relieve nausea/vomiting and gastrointestinal discomfort, but the cellular and molecular mechanisms of its neuronal action remain unclear. The present study aimed to determine the effects of ginger constituent 6‐shogaol on gastroesophageal vagal nodose C‐fibers. Methods Extracellular single‐unit recording and two‐photon nodose neuron imaging were performed, respectively, in ex vivo gastroesophageal‐vagal preparations from wild type and Pirt‐GCaMP6 transgenic mice. The action potential discharge or calcium influx evoked by mechanical distension and chemical perfusions applied to the gastroesophageal vagal afferent nerve endings were recorded, respectively, at their intact neuronal cell soma in vagal nodose ganglia. The effects of 6‐shogaol on nodose C‐fiber neurons were then compared and determined. Key Results Gastroesophageal application of 6‐shogaol‐elicited intensive calcium influxes in nodose neurons and evoked robust action potential discharges in most studied nodose C‐fibers. Such activation effects were followed by a desensitized response to the second application of 6‐shogaol. However, action potential discharges evoked by esophageal mechanical distension, after 6‐shogaol perfusion, did not significantly change. Pretreatment with TRPA1 selective blocker HC‐030031 inhibited 6‐shogaol‐induced action potential discharges in gastric and esophageal nodose C‐fiber neurons, suggesting that TRPA1 played a role in mediating 6‐shogaol‐induced activation response. Conclusion and Inferences This study provides evidence that ginger constituent 6‐shogaol directly activates vagal afferent C‐fiber peripheral gastrointestinal endings. This activation leads to desensitization to subsequent application of 6‐shogaol but not subsequent esophageal mechanical distension. Further investigation is required to establish a possible contribution in its anti‐emetic effects.
Summary Chronic allograft nephropathy (CAN) is the leading cause of graft loss following kidney transplantation. One factor contributing to CAN is chronic alloimmune injury. However, the involvement of alloantigen‐dependent and ‐independent factors in CAN is unclear. The pathomechanism of CAN has been extensively studied by utilizing the Fischer‐to‐Lewis (F344‐to‐LEW) rat model. Transplant capillaropathy (circumferential multiplication of the peritubular capillary basement membrane) and transplant glomerulopathy (reduplication of the glomerular basement membrane) have recently been validated clinicopathologically as ultrastructural indicators of chronic alloimmune injury. To investigate the presence of these markers, F344‐to‐LEW kidneys were examined by electron and light microscopy 32, 40 and 52 weeks after implantation. F344 rats with or without 30‐min ischemia of the left kidney following right nephrectomy served as controls. All transplanted rats displayed marked proteinuria. On electron microscopy, transplant capillaropathy, transplant glomerulopathy, and T‐cell cytotoxicity (indicator of ongoing cellular rejection) were absent. On light microscopy, the arteries were devoid of intimal fibrosis. Focal‐segmental glomerulopathy resembling hyperfiltration injury was encountered, with mild interstitial infiltration, fibrosis, and tubular atrophy. The proteinuria and kidney pathology were more severe in transplanted than in ischemic or uninephrectomized rats. Because chronic‐active rejection could not be detected between weeks 32 and 52, we propose that the alloantigen‐dependent initial graft injury subsides, but induces the late events: glomerular hyperfiltration, proteinuria, and glomerulosclerosis. Accordingly, the model – in the late phase – is suitable to investigate alloantigen‐independent factors of CAN and lacks markers of alloantigen‐dependent processes.
SUMMARY Recent studies in animal models have reported that some afferent fibers innervating the esophagus express the cold receptor TRPM8. In the somatosensory system the stimulation of TRPM8 leads to cold sensations and in certain circumstances alleviates pain. It is therefore hypothesized in this paper that the esophageal infusion of the TRPM8 activator menthol evokes cold sensations from the esophagus and alleviates heartburn in humans. The esophageal infusion of menthol (3 mM, 20 min) evoked cold sensations in 11 of 12 healthy subjects. In striking contrast, the esophageal infusion of menthol evoked heartburn in 10 of 10 patients with gastroesophageal reflux disease (GERD). In healthy subjects the cold sensation evoked by menthol was perceived only as a minor discomfort as evaluated by the visual analog scale (VAS score 1.9 ± 0.3 on the scale 1–10). However, in patients with GERD the menthol-induced heartburn was perceived as painful (VAS score 5.6 ± 0.6, P < 0.01 compared to healthy subjects). It is concluded that the sensations evoked by esophageal infusion of menthol change from relatively nonpainful cold sensations in healthy subjects to painful heartburn sensations in patients with GERD. These qualitative and quantitative changes indicate substantial alterations in afferent signaling mediating sensations from the esophagus in patients with GERD.
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