[Retrospectively analysis of characteristics and risk factors of immune treatment-related hepatic adverse events in malignant tumor].

Objective: To explore the clinical features and risk factors of hepatic injury due to immune checkpoint inhibitors (CPI) therapy in malignant tumor. Methods: Data of 112 patients (64 men and 48 women) who received CPI between January 2016 and March 2019 in Chinese Academy of Medical Sciences and Peking Union Medical College Shenzhen Hospital, and Huazhong University of Science and Techology Union Shenzhen Hospital were retrospectively collected. The median age of these patients was 60 years. Results: Hepatic adverse events were observed in 30 patients out of 112 patients (26.8%). Among them, the incidence of grade 3-5 hepatic adverse events were 7.14% (8/112). The median time of hepatic adverse event occurrence was 3 weeks (2-30) after undergoing therapy. The results of univariate and multivariate analyses showed that liver cancer was attributed to the CPI induced hepatitis (P<0.05). Patients with severe hepatic injury got almost complete resolution after receiving methlprednisolone for 4 to 6 weeks. Conclusion: Live cancer is the risk factor of CPI-related hepatic adverse events.

Investigation of modified platelet-rich plasma (mPRP) in promoting the proliferation and differentiation of dental pulp stem cells from deciduous teeth.

Stem cells from human exfoliated deciduous teeth (SHEDs) have great potential to treat various dental-related diseases in regenerative medicine. They are usually maintained with 10% fetal bovine serum (FBS) in vitro. Modified platelet-rich plasma (mPRP) would be a safe alternative to 10% FBS during SHEDs culture. Therefore, our study aimed to compare the proliferation and differentiation of SHEDs cultured in mPRP and FBS medium to explore an optimal concentration of mPRP for SHEDs maintenance. Platelets were harvested by automatic blood cell analyzer and activated by repeated liquid nitrogen freezing and thawing. The platelet-related cytokines were examined and analyzed by ELISA. SHEDs were extracted and cultured with different concentrations of mPRP or 10% FBS medium. Alkaline phosphatase (ALP) activity was measured. Mineralization factors, RUNX2 and OCN, were measured by real-time PCR. SHEDs were characterized with mesenchymal stem cells (MSCs) markers including vimentin, CD44, and CD105. mPRP at different concentrations (2, 5, 10, and 20%) enhanced the growth of SHEDs. Moreover, mPRP significantly stimulated ALP activity and promoted expression of RUNX2 and OCN compared with 10% FBS. mPRP could efficiently facilitate proliferation and differentiation of SHEDs, and 2% mPRP would be an optimal substitute for 10% FBS during SHEDs expansion and differentiation in clinical scale manufacturing.

Microsatellite markers in Paulownia kawakamii (Scrophulariaceae) and cross-amplification in other Paulownia species.

Paulownia kawakamii is a fast-growing timber tree. In this study, 21 primer sets were developed using an enriched genomic library. The genetic diversity was measured in one P. kawakamii population. The number of alleles per locus ranged from 2 to 19. The observed and expected heterozygosities varied from 0.158 to 0.842 (mean = 0.421) and from 0.376 to 0.952 (mean = 0.771), respectively. All 21 loci were also polymorphic in closely related species (P. tomentosa, P. elongata, and P. fortunei). The described markers will be useful in future population genetic studies and molecular breeding of these Paulownia species.

Plasma exchange and tacrolimus-mycophenolate rescue for acute humoral rejection in kidney transplantation.

BACKGROUND: Acute renal allograft rejection associated with the development of donor-specific alloantibody (acute humoral rejection, AHR) typically carries a poor prognosis. The best treatment of this condition remains undefined. METHODS: During a 14-month period, 73 renal transplants were performed. During the first postoperative month, five recipients (6.8%) with AHR were identified. The diagnosis was based on: (1) evidence of severe rejection, resistant to steroid and antilymphocyte therapy; (2) typical pathologic features; and (3) demonstration of donor-specific alloantibody (DSA) in recipient's serum at the time of rejection. Pretransplant donor-specific T- and B-cell cross-matches were negative. RESULTS: Plasma exchange (PE, four to seven treatments per patient) significantly decreased circulating DSA to almost pretransplant levels in four of five patients, and improvement in renal function occurred in all patients. One patient had recurrent renal dysfunction in the setting of an increase in circulating DSA. A second series of five PE treatments decreased DSA and reversed the rejection episode. Rescue therapy with tacrolimus (initial mean dose: 0.14+/-0.32 mg/kg/day) and mycophenolate mofetil (2 g/day) was used in five of five and four of five patients, respectively. With a mean follow-up of 19.6+/-5.6 months, patient and allograft survival are 100%. Renal function remains excellent with a mean current serum creatinine of 1.2+/-0.3 mg/dl. (range: 0.9-1.8 mg/dl). CONCLUSIONS: Our findings suggest that a therapeutic approach combining PE and tacrolimus-mycophenolate mofetil rescue has the potential to improve the outcome of AHR.

Abnormal signal transduction through CD4 leads to altered tyrosine phosphorylation in T cells derived from MRL-lpr/lpr mice.

CD4+ T cells play a crucial role in the development of lupus in MRL-lpr/lpr mice: incomplete deletion/silencing of self-reactive CD4+ T cells leads to T cell activation, which causes both polyclonal B cell activation and T cell infiltration of multiple organs. Furthermore, anti-CD4 antibody therapy ameliorates disease and prolongs survival. Because CD4 is normally involved in both tolerance induction and T cell activation, we questioned whether signaling through CD4 was normal among T cells in this strain. For this purpose, signal transduction in CD4+ T cells derived from MRL-lpr/lpr and normal mice were compared, using an autoreactive CD4+ T cell clone and freshly isolated CD4+ T cells derived from mice of varying ages. Tyrosine phosphorylation was similar among MRL and normal CD4+ T cells after cross-linking with either anti-TCR antibody or anti-CD3 antibody, and following co-culture with Con A. In constrast, cross-linking of surface CD4 resulted in deficient tyrosine phosphorylation of cellular proteins in MRL T cells. By comparison, lck protein expression in MRL CD4+ T cells was found to be lower than normal. However, following stimulation with Con A, lck enzyme activity, as detected by autophosphorylation of lck, was comparable in MRL and normal T cells. The observed differences were present in the autoreactive T cell clone as well as in T cells isolated from both pre-diseased and diseased mice, and they could not be explained by variation in surface density of CD4. These results raise the possibility that abnormal signaling through CD4 may contribute to impaired tolerance and expansion of autoreactive T cells exhibited in MRL-lpr/lpr mice.

Protective effects of phosphatidylcholine against mechanisms of ischemia and reperfusion-induced arrhythmias in isolated guinea pig ventricular tissues.

The effects of exogenous phosphatidylcholine (PC) on some potential mechanisms of ischemia and reperfusion-induced arrhythmias were tested using the superfused right ventricular free wall of the guinea pig. Exposure of the preparation to simulated "ischemia" (hypoxia, acidosis, glucose deprivation and hyperkalemia) resulted in several electrophysiological derangements, including a marked depolarization of the maximum diastolic potential (MDP) in both endocardium and epicardium, shortening of the action potential duration (APD), and prolongation of the transmural conduction time followed by transmural conduction block. In a few preparations, coupled beats were also observed. Reperfusion was associated with arrhythmic activity in all preparations. Both the characteristics and the severity of reperfusion-associated arrhythmias were dependent upon the duration of the preceding "ischemia". In hearts exposed to ischemic conditions for 40 min, transmural conduction block persisted until 45 min of reperfusion and no electrical activity was present in the epicardium during this time. However, both coupled beats as well as abnormal automaticity were observed in the endocardium. When the period of "ischemia" was reduced to 20 min, recovery from transmural conduction block occurred sooner and coupled beats and abnormal automaticity were detected in both epicardial and endocardial layers. Superfusion with PC during both "ischemia" and reperfusion (PC1 group), or during reperfusion only (PC2 group), significantly altered the response of the preparations to reperfusion. Following 40 min "ischemia", preparations treated with PC recovered from transmural conduction block more rapidly (PC1 group, 4 min, P less than 0.05; PC2 group, 23 min, ns), compared to control.(ABSTRACT TRUNCATED AT 250 WORDS)

Reduction of phosphate-induced dysfunction in rat heart mitochondria by carnitine.

The direct effects of varying concentrations (5-40 mM) of D,L-carnitine were studied in two populations, subsarcolemmal and interfibrillar, of cardiac mitochondria exposed to inorganic phosphate (Pi). After 5 min preincubation 20 mM Pi significantly depressed oxidative phosphorylation rate and ADP/ATP translocase activity, in both populations. Inclusion of D,L-carnitine during preincubation significantly prevented the Pi-induced depression in oxidative phosphorylation without affecting the ADP/ATP translocate system. The Pi-induced inhibition in mitochondrial oxygen consumption rate was seen with either pyruvate-malate, glutamate-malate or succinate as respiratory substrates and was also observed in uncoupled mitochondria treated with 2,4-dinitrophenol. Mitochondrial swelling and shrinkage studies revealed Pi-induced inner membrane instability, a phenomenon prevented by D,L-carnitine in a dose-dependent manner. The effect of Pi was also observed at a concentration of 5 mM which was also prevented by carnitine. Mepacrine, a phospholipase A2 inhibitor, failed to prevent any of the effects of Pi. The results therefore suggest that Pi can produce a depression in mitochondrial oxidative phosphorylation through a mechanism possibly associated with disturbed inner membrane structure and function but apparently unrelated to phospholipase A2 activation. The salutary actions of carnitine may partly explain its protective effects in the ischemic and reperfused heart, a phenomenon associated with enhanced intracellular Pi accumulation.

Protection of the reperfused ischemic isolated rat heart by phosphatidylcholine.

We examined phosphatidylcholine (PC) effects on the isolated rat heart subjected to low- or zero-flow ischemia followed by reperfusion. Untreated hearts subjected to 30 min of low-flow ischemia recovered 15% contractility following reperfusion compared to time-control hearts. Phosphatidylcholine (0.005%) addition either 10 or 20 min before ischemia significantly enhanced recovery to approximately 61% and reduced the incidence of arrhythmias during ischemia and reperfusion. Contracture during ischemia and reperfusion was significantly reduced when PC was added 20 min before ischemia. Phosphatidylcholine was ineffective when administered at the time of reperfusion except for a moderate reduction in arrhythmia development. Phosphatidylcholine also produced a salutary effect when added 20 min prior to zero-flow ischemia. Subsarcolemmal mitochondria (SLM) and, to a much lesser degree, interfibrillar mitochondria (IFM) of untreated hearts subjected to low-flow ischemia and reperfusion exhibited depressed oxidative phosphorylation which was prevented by PC. Both mitochondrial populations exhibited a marked depression in ADP/ATP translocase activity; however, this was generally unaffected by PC. Subsarcolemmal mitochondria but not IFM of zero-flow ischemic reperfused hearts also exhibited significantly depressed oxidative phosphorylation, which was unaffected by PC. Zero-flow ischemia produced a rapid and total cessation of contractility. Both populations exhibited a substantial PC-insensitive reduction in translocase activity. Our results demonstrate, for the first time, a protection by PC on the reperfused ischemic heart. The PC-induced protection following low-flow but not zero-flow ischemia is associated with improved SLM oxidative phosphorylation suggesting dissimilar contribution of mitochondria to reperfusion-associated myocardial injury.

Effect of D,L-carnitine on the response of the isolated heart of the rat to ischaemia and reperfusion: relation to mitochondrial function.

1. The effect of 100 microM (20 micrograms ml-1) of D,L-carnitine was studied on the isolated heart of the rat subjected to 30 min of low flow ischaemia followed by reperfusion. 2. In untreated hearts (n = 30) ischaemia produced an almost total loss of contractility (P less than 0.05 compared with non-ischaemic time control) which was accompanied by an increase in resting tension of approximately 235% (P less than 0.05). Ventricular arrhythmias developed during ischaemia in 100% (P less than 0.05) of untreated hearts studied. Following reperfusion, untreated hearts recovered 16.3% of contractile function and demonstrated a 60% elevation in resting tension. The incidence of reperfusion-associated ventricular fibrillation was 60%. 3. Carnitine treatment produced no effect on either the contractile depression or the elevation in resting tension during ischaemia but did significantly decrease the incidence of arrythmias at the termination of ischaemia to 63.3% (n = 30, P less than 0.05). In the presence of carnitine, contractile recovery at the end of reperfusion was significantly increased to 30.2% (n = 10, P less than 0.05) and the elevation in resting tension was decreased to 30% (n = 10, P greater than 0.05). The incidence of ventricular arrhythmias during reperfusion was significantly reduced by carnitine. 4. Two populations of mitochondria, subsarcolemmal (SLM) and interfibrillar (IFM) isolated at the end of the ischaemic period exhibited an overall increase in oxidative phosphorylation rates as well as uncoupled oxygen consumption; both phenomena were more pronounced with IFM. Carnitine generally potentiated this response. A 29% and 38% inhibition in atractyloside-sensitive ADP uptake was observed in SLM and IFM, respectively, following ischaemia, which was partially prevented by carnitine. 5. After 10min of reperfusion, adenosine diphosphate (ADP) uptake in SLM was further reduced to 55% of control whereas with IFM, uptake was not different from that seen at the end of ischaemia. Mitochondria isolated from hearts after 30 min of reperfusion revealed a significantly depressed oxidative phosphorylation as well as ADP/ATP translocase activity. These defects were partially reversed in hearts perfused with carnitine. 6. Our study demonstrates that D,L-carnitine protects the rat isolated heart against injury associated with ischaemia and reperfusion through a mechanism associated with improved mitochondrial function.

Effect of verapamil on phosphate-induced changes in oxidative phosphorylation and atractyloside-sensitive adenine nucleotide translocase activity in two populations of rat heart mitochondria.

Phosphate (Pi)-induced depression in cardiac mitochondrial function was studied using mitochondria isolated by two different procedures which purportedly yield two distinct populations. Subsarcolemmal mitochondria (SLM) exhibited an enhanced sensitivity to 20 mM Pi with respect to oxidative phosphorylation. Thus, a significant depression in oxidative phosphorylation in this population was seen following only 1-min treatment, whereas interfibrillar mitochondria (IFM) were unaffected. Both populations showed a similar response to 5-min treatment with Pi. The Pi-induced depression in respiration was partially, although significantly, reversed by a 50 microM concentration of the calcium antagonist verapamil, an observation which suggests a contribution of calcium to the Pi-induced defect in respiration. Pi also produced a potent inhibition of ADP uptake in both mitochondrial populations, which was in close agreement to Pi-induced modification of low amplitude shrinkage-swelling responses following ADP addition. Both of these parameters were unaffected by verapamil. Our results show an enhanced sensitivity of SLM to a verapamil-sensitive Pi-induced depression in oxidative phosphorylation. However, the potent, verapamil-insensitive decrease in adenine nucleotide translocase activity by Pi demonstrates that calcium is likely only partially involved in Pi-induced depression in oxidative phosphorylation and that a further partial contribution arises from a decrease in adenine nucleotide translocase activity.

Acute effects of hypoxia and phosphate on two populations of heart mitochondria.

Initial Polytron treatment with subsequent exposure to the bacterial proteinase Nagarse has been shown to result in the isolation of two distinct populations of cardiac mitochondria, subsarcolemmal and interfibrillar mitochondria, respectively. Although these populations have been shown to possess distinct biochemical properties, few studies have been reported which document the potential differences in their response to pathological insult. We therefore examined the effect of acute hypoxia with or without reoxygenation as well as treatment with phosphate on oxidative phosphorylation on both groups of mitochondria. Freshly-isolated interfibrillar mitochondria (IFM) exhibited significantly higher respiratory values, with the exception of the ADP:O ratios, than subsarcolemmal mitochondria (SLM). With pyruvate-malate as respiratory substrate, 40 minutes hypoxia alone produced no effect on SLM whereas a stimulation in respiration was seen in IFM. A 40-minute reoxygenation period depressed the oxidative phosphorylation rate in SLM whereas it was stimulated in IFM. These treatments did not produce any effect in either population when succinate was the substrate of choice. Because of the latter observation, the possibility that increased lability of complex I of the electron transport chain accounted for the differences associated with NAD-linked substrates was studied by assessing NADH oxidation of sonicated mitochondria following the treatments. SLM exhibited enhanced permeability to exogenous NADH as well as increased sensitivity to sonication following either hypoxia or hypoxia/reoxygenation compared to IFM. Compared to hypoxia/reoxygenation, increasing concentrations of phosphate (5-15 mM) produced a marked depression in oxidative phosphorylation of SLM whereas IFM were relatively resistant. The toxic effects of phosphate were much more evident with pyruvate-malate as substrates; with succinate, oxidative phosphorylation of IFM was not depressed by phosphate whereas only a slight depression was observed with SLM. The latter population similarly exhibited reduced NADH oxidation following phosphate treatment whereas IFM were unaffected. Our studies show a differential sensitivity of two mitochondrial populations to hypoxia/reoxygenation, and, more markedly to phosphate. Since these effects were much less pronounced with succinate-linked respiration and since they were associated with defective NADH oxidation in SLM, it is suggested that the differences between the two populations may be accounted for by the increased lability of complex I of SLM due to hypoxia/reoxygenation or phosphate.

Effect of interleukin 1 on the induction and maintenance of B cell tolerance in vitro.

The effects of interleukin 1 (IL-1) on induction and maintenance of immune tolerance in vitro have been studied by using splenocytes from C57BL/6 male mice. B cell tolerance to the hapten trinitrophenol (TNP) was induced with TNP-human gamma globulin (HGG) and the cells were challenged with TNP-Ficoll. To determine the tolerance (or immunity), antibody concentrations in the supernatant fluids were measured by using a TNP-specific ELISA assay. Partially purified murine IL-1 abrogated tolerance induction, and when it was added at challenge phase, it also abrogated tolerance. In addition, partially purified IL-1 converted TNP-HGG from a tolerogen into an immunogen without any additional exposure to antigen. Similar results were obtained when recombinant human IL-1 alpha was used in place of partially purified natural IL-1. IL-1 is most likely acting directly on B cells rather than through the agency of T cells because purified B cells failed to become tolerant in the presence of IL-1. Studies of IL-1 production by antigen- or tolerogen-stimulated splenocytes or purified B cells showed that only antigen could elicit IL-1 production in these cells. That tolerance abrogation is unique to IL-1 is suggested by studies which show that TNF, IL-2, and INF gamma, alone, in combination with each other, or in combination with subeffective concentrations of IL-1 failed to effect tolerance abrogation.