Renal drug dosage adjustments and adverse drug events in patients with chronic kidney disease admitted to the hospital: a cross-sectional study.

BACKGROUND: The study aimed to evaluate the agreement of prescribed drug dosages with renal dosing recommendations and describe adverse drug events (ADEs) contributing to hospital admissions of patients with chronic kidney disease (CKD). METHODS: This cross-sectional study focused on CKD patients admitted to University Hospital Hradec Králové, with an estimated glomerular filtration rate below 60 ml/min. The necessity for renal dosage adjustments was determined using the Summary of Product Characteristics (SmPC). For medications requiring renal dosage adjustment according to SmPC, agreement between the prescribed and recommended renal dosage was assessed. ADEs were adjudicated using the OPERAM drug-related hospital admissions adjudication guide. RESULTS: Of 375 CKD patients, 112 (30%, 95% CI 25-34) were prescribed drug dosages in disagreement with SmPC renal dosage recommendations. Perindopril, metformin, and ramipril were most frequently dosed in disagreement with SmPC. ADE-related hospital admissions occurred in 20% (95% CI 16-24) of CKD patients. CONCLUSION: CKD patients are often prescribed medication dosages in disagreement with SmPC renal dosing recommendations. Besides explicit factors, treatment goals, feasibility of monitoring and alternative treatment must be weighed when assessing drug and dosage appropriateness. Gastrointestinal bleeding was the most frequent ADE that contributed to hospital admissions of CKD patients.

Determining Thrombogenicity: Using a Modified Thrombin Generation Assay to Detect the Level of Thrombotic Event Risk in Lupus Anticoagulant-Positive Patients.

The aim of this study was to determine the thrombogenicity of lupus anticoagulant (LA) antibodies using a modified thrombin generation assay (TGA) with the addition of activated protein C (APC) in a group of 85 patients with LA-positive samples. Of these, 58 patients had clinical manifestations of antiphospholipid syndrome (APS) according to the Sydney criteria classification, i.e., each patient had thrombosis or foetal loss, and 27 patients did not show any clinical manifestations of APS. A comparison of the two groups' TGA results revealed statistically significant differences (Fisher's test p = 0.0016). The group of patients exhibiting clinical manifestations of APS showed higher thrombogenicity in 56.9% of patients, while the group of patients not yet exhibiting clinical manifestations of APS showed higher thrombogenicity in 25.9% of patients. There were no significant differences in the specificity of the TGA test between the groups of patients exhibiting similar clinical manifestations. Receiver operating characteristic curve analysis showed a more significant relationship (p = 0.0060) for TGA than for LA titre (p = 0.3387). These data suggest that the determination of LA thrombogenicity with the TGA assay leads to an increased prediction of the manifestation of a thromboembolic event. Our findings appear to be particularly relevant for the prediction of thrombotic events in patients with laboratory-expressed APS and no clinical manifestations.

Determination of Thrombogenicity Levels of Various Antiphospholipid Antibodies by a Modified Thrombin Generation Assay in Patients with Suspected Antiphospholipid Syndrome.

Antiphospholipid syndrome (APS) is a hypercoagulable state accompanied by the presence of heterogeneous antiphospholipid antibodies (aPL), which nonspecifically affect hemostasis by the presence of lupus anticoagulans (LA), anticardiolipin antibodies (aCL), antibodies against ß2-glycoprotein-I (anti-ß2GPI), but also non-criteria antibodies such as antibodies against ß2-glycoprotein-I domain I (anti-DI), anti-phosphatidylserine/prothrombin (anti-PS/PT), anti-annexin V, and many others. The main target of the antibodies is the activated protein C (APC) system, the elimination of which can manifest itself as a thrombotic complication. The aim of this study was to determine the thrombogenicity of antibodies using a modified protein C-activated thrombin generation assay (TGA) on a group of 175 samples suspected of APS. TGA was measured with/without APC and the ratio of both measurements was evaluated (as for APC resistance), where a cut-off was calculated ≤4.5 (90th percentile) using 21 patients with heterozygous factor V Leiden mutation (FV Leiden heterozygous). Our study demonstrates the well-known fact that multiple positivity of different aPLs is a more severe risk for thrombosis than single positivity. Of the single antibody positivity, LA antibodies are the most serious (p value < 0.01), followed by aCL and their subgroup anti-DI (p value < 0.05). Non-criteria antibodies anti-annexin V and anti-PT/PS has a similar frequency occurrence of thrombogenicity as LA antibodies but without statistical significance or anti-ß2GPI1 positivity. The modified TGA test can help us identify patients in all groups who are also at risk for recurrent thrombotic and pregnancy complications; thus, long-term prophylactic treatment is appropriate. For this reason, it is proving increasingly beneficial to include the determination antibodies in combination with modified TGA test.

Detection of Unknown and Rare Pathogenic Variants in Antithrombin, Protein C and Protein S Deficiency Using High-Throughput Targeted Sequencing.

The deficiency of natural anticoagulants­antithrombin (AT), protein C (PC), and protein S (PS)­is a highly predisposing factor for thrombosis, which is still underdiagnosed at the genetic level. We aimed to establish and evaluate an optimal diagnostic approach based on a high-throughput sequencing platform suitable for testing a small number of genes. A fast, flexible, and efficient method involving automated amplicon library preparation and target sequencing on the Ion Torrent platform was optimized. The cohort consisted of a group of 31 unrelated patients selected for sequencing due to repeatedly low levels of one of the anticoagulant proteins (11 AT-deficient, 13 PC-deficient, and 7 PS-deficient patients). The overall mutation detection rate was 67.7%, highest in PC deficiency (76.9%), and six variants were newly detected­SERPINC1 c.398A > T (p.Gln133Leu), PROC c.450C > A (p.Tyr150Ter), c.715G > C (p.Gly239Arg) and c.866C > G (p.Pro289Arg), and PROS1 c.1468delA (p.Ile490fs) and c.1931T > A (p.Ile644Asn). Our data are consistent with those of previous studies, which mostly used time-consuming Sanger sequencing for genotyping, and the indication criteria for molecular genetic testing were adapted to this process in the past. Our promising results allow for a wider application of the described methodology in clinical practice, which will enable a suitable expansion of the group of indicated patients to include individuals with severe clinical findings of thrombosis at a young age. Moreover, this approach is flexible and applicable to other oligogenic panels.

Evaluation of the Determination of Dabigatran, Rivaroxaban, and Apixaban in Lupus Anticoagulant-Positive Patients.

BACKGROUND: The effect of direct oral anticoagulants (DOAC) on laboratory tests dependent on the production of their targets, factor IIa and factor Xa, is a well-known problem and can cause both false positive and negative results. In particular, the situation in patients who develop lupus anticoagulant (LA) antibodies is highly complex. To evaluate the effectiveness of DOAC therapy in lupus-positive patients, 31 samples were enrolled in this retrospective study. All patient samples were spiked with three types of DOAC (dabigatran, DABI; rivaroxaban, RIVA; and apixaban, API) in a concentration that significantly influenced the screening test for LA and thus can mask the presence of LA. Subsequently, the DOAC was always unbound by the DOAC-Stop procedure. DOAC levels before and after binding were determined by functional assays, followed by liquid chromatography coupled with mass spectrometry (LC-MS) analysis. METHODS: The determination of DOAC levels was performed by direct thrombin assay and determination of anti-Xa activity with specific calibration as functional tests for DABI and xabans (API and RIVA). To determine concentration levels of API, DABI, and RIVA, our in-house LC-MS method was used. RESULTS: The results of LA-positive samples show significant differences between functional tests and the LC-MS method both before and after DOAC binding. CONCLUSIONS: The acute findings of the presence of LA-type antibodies fundamentally affects the determination of DOAC by functional tests, and in this case, it is necessary to use LC-MS analysis to determine the true value. If patients treated with DOAC develop LA of medium and higher titers, we do not recommend checking DOAC levels with functional tests.

Current Promising Biomarkers and Methods in the Diagnostics of Antiphospholipid Syndrome: A Review.

Antiphospholipid syndrome (APS) is a hypercoagulation condition associated with the incidence of heterogenic antiphospholipid antibodies (aPLs), which non-specifically affect hemostasis processes. APS is clinically manifested by recurrent arterial and venous thromboses and reproduction losses. The aPL antibodies, which may induce clinical manifestations of APS, include criteria antibodies anti-cardiolipin, anti-ß2-glycoprotein-I, and lupus anticoagulant, but also non-criteria antibodies, for example anti-ß2-glycoprotein-I domain I, anti-phosphatidylserine/prothrombin, anti-annexin V, and many others. APS occurs mostly in patients of younger and middle age, most frequently in females. Laboratory diagnostics of APS are quite difficult, as they include a wide spectrum of examining methods, which are based on various principles of detection and are performed using various laboratory techniques. The objective of the review is to describe the current state of potentially examined biomarkers and methods in APS diagnostics. The aforementioned biomarkers are lupus anticoagulant, anti-ß2-glycoprotein-I, anti-cardiolipin, anti-ß2-glycoprotein-I domain I, anti-phosphatidylserine/prothrombin, anti-ß2-glycoprotein-I IgA, anti-cardiolipin IgA, anti-annexin V and II, anti-prothrombin, anti-cardiolipin/vimentin, anti-protein S/protein C, and antibodies against phospholipid antigens for whose diagnostics we may use some of the methods established for a long time and some of the modern methods-the coagulation method for the determination of lupus anticoagulant (LA), enzyme-linked imunosorbent assay (ELISA), chemiluminescence analysis (CLIA), multiplex fluorescence flow immunoassay (MFFIA), fluorescence enzyme immunoassay (EliA), line immunoassay (LIA), multiline dot assay (MLDA), and thin-layer chromatography (TLC). Conclusion: Antibodies against phosphatidylethanolamine, phosphatidic acid, phosphatidylserine, phosphatidylinositol, cardiolipin/vimentin complex, and annexin V are currently the most studied new markers. However, these assays have not been standardized until now, both from the laboratory and clinical point of view. In this review we summarize the evidence of the most studied aPL markers and their potential clinical significance in seronegative APS (SN-APS).

High activation of STAT5A drives peripheral T-cell lymphoma and leukemia.

Recurrent gain-of-function mutations in the transcription factors STAT5A and much more in STAT5B were found in hematopoietic malignancies with the highest proportion in mature T- and natural killer-cell neoplasms (peripheral T-cell lymphoma, PTCL). No targeted therapy exists for these heterogeneous and often aggressive diseases. Given the shortage of models for PTCL, we mimicked graded STAT5A or STAT5B activity by expressing hyperactive Stat5a or STAT5B variants at low or high levels in the hematopoietic system of transgenic mice. Only mice with high activity levels developed a lethal disease resembling human PTCL. Neoplasia displayed massive expansion of CD8+ T cells and destructive organ infiltration. T cells were cytokine-hypersensitive with activated memory CD8+ T-lymphocyte characteristics. Histopathology and mRNA expression profiles revealed close correlation with distinct subtypes of PTCL. Pronounced STAT5 expression and activity in samples from patients with different subsets underline the relevance of JAK/STAT as a therapeutic target. JAK inhibitors or a selective STAT5 SH2 domain inhibitor induced cell death and ruxolitinib blocked T-cell neoplasia in vivo We conclude that enhanced STAT5A or STAT5B action both drive PTCL development, defining both STAT5 molecules as targets for therapeutic intervention.

DSS1 interacts with and stimulates RAD52 to promote the repair of DSBs.

The proper repair of deleterious DNA lesions such as double strand breaks prevents genomic instability and carcinogenesis. In yeast, the Rad52 protein mediates DSB repair via homologous recombination. In mammalian cells, despite the presence of the RAD52 protein, the tumour suppressor protein BRCA2 acts as the predominant mediator during homologous recombination. For decades, it has been believed that the RAD52 protein played only a back-up role in the repair of DSBs performing an error-prone single strand annealing (SSA). Recent studies have identified several new functions of the RAD52 protein and have drawn attention to its important role in genome maintenance. Here, we show that RAD52 activities are enhanced by interacting with a small and highly acidic protein called DSS1. Binding of DSS1 to RAD52 changes the RAD52 oligomeric conformation, modulates its DNA binding properties, stimulates SSA activity and promotes strand invasion. Our work introduces for the first time RAD52 as another interacting partner of DSS1 and shows that both proteins are important players in the SSA and BIR pathways of DSB repair.

Searching for genetic variants associated with thrombophilia.

Thrombotic states are inherited or acquired predisposition for thrombosis in the human vascular system. Nowadays Leiden mutation and mutation in prothrombin G20210A contributing to congenital thrombophilia are routinely tested. These mutations have a high prevalence in the population. Congenital deficiencies of protein S, protein C and antithrombin III are rare thrombophilia with lower population frequency, but higher risk of thromboembolic event. The genetic causes are mutations in the genes, which encode these proteins. The choice of proper molecular genetic testing depends on the difference in the detection of well-known single nucleotide polymorphism or unknown/rare variant. For the detection of causative variant FV Leiden and prothrombin G20210A are mostly used PCR-RFLP, reverse Strip Assay®, allele-specific PCR, TaqMan real-time PCR and SNaPshot®. Precise patient selection should precede the genetic testing of rare variants in anticoagulant proteins. It is appropriate to use methodology of massive parallel sequencing supplemented by a methodology for the detection of larger gene rearrangements - MLPA. We are successfully employing this approach in our institute. This methodology is faster with larger analytic capacity compared to commonly used direct sequencing by Sanger method.

Multianalyte Determination of NOACs Using LC-MS/MS and Comparison with Functional Coagulation Assays.

BACKGROUND: Detection of new oral anticoagulant (NOAC) levels by screening, special and global tests, and liquid chromatography-coupled tandem mass spectrometry (LC-MS/MS) is important in clinical situations when the cause of bleeding needs to be determined. METHODS: We compared a routine coagulation test, special function test for NOACs, global coagulation test, and an LC-MS/MS method that enables simultaneous determination of apixaban, dabigatran and rivaroxaban in human plasma within one analysis to determine the optimal indication of the comparison methods, including their limitations and interferences. RESULTS: This study was conducted on a set of blood samples from 116 patients treated with NOACs. The results of both specific dilute thrombin time (dTT) tests for dabigatran provided the same results as the activated partial thromboplastin time (aPTT) screening test in comparison with LC-MS/MS as a reference. The dTT assay HemosIL® showed better results for low concentrations when compared to LC-MS/MS than dTT HYPHEN® as HemosIL® uses a non-linear calibration curve. Results of the specific anti-Xa assay yielded better results than the prothrombin time test in comparison with LC-MS/MS as a reference, especially for apixaban, but also for rivaroxaban. Our LC MS/MS method is simply feasible, but only in a specialized laboratory. The method is easy-to-use for the simultaneous determination of all dabigatran, apixaban and rivaroxaban by LC-MS/MS within three minutes with a concentration range of 1 to 500 µg/L without dilution. CONCLUSIONS: In the normal practice of the coagulation laboratory, it is advisable to use specific tests for NOAC determination as screening and global assays are not sufficiently specific. The dTT test is the optimal choice for dabigatran determination and for xabans to determine anti-Xa activity. The LC-MS/MS method is suitable as an arbitration method for serious conditions.

A Comprehensive Analysis of the Dynamic Response to Aphidicolin-Mediated Replication Stress Uncovers Targets for ATM and ATMIN.

The cellular response to replication stress requires the DNA-damage-responsive kinase ATM and its cofactor ATMIN; however, the roles of this signaling pathway following replication stress are unclear. To identify the functions of ATM and ATMIN in response to replication stress, we utilized both transcriptomics and quantitative mass-spectrometry-based phosphoproteomics. We found that replication stress induced by aphidicolin triggered widespread changes in both gene expression and protein phosphorylation patterns. These changes gave rise to distinct early and late replication stress responses. Furthermore, our analysis revealed previously unknown targets of ATM and ATMIN downstream of replication stress. We demonstrate ATMIN-dependent phosphorylation of H2AX and of CRMP2, a protein previously implicated in Alzheimer's disease but not in the DNA damage response. Overall, our dataset provides a comprehensive resource for discovering the cellular responses to replication stress and, potentially, associated pathologies.

Possibility of Coagulation System Activation Determination with Tissue Factor in Pregnancy Complications.

BACKGROUND: In this part of the study, where we determined the causes of preeclampsia and other obstetric complications, we focused on the role of tissue factor (TF) in the activation of these pathophysiological processes. Recent findings attribute a significant part of the activation of coagulation creation of autoantibodies. Once this mechanism is activated, the antibodies induce expression of tissue factor (TF, CD142) on monocytes and vascular endothelial cells. METHODS: We have proposed a monitor activation model of the coagulation system in preeclampsia and other pregnancy complications using TF expression on monocytes by flow cytometry and simultaneous determination the TF-induced thrombin generation in plasma. To determine expression of tissue factor (CD142) on monocytes, we proposed a method of multicolor flow cytometry using anti CD45 PerCP, anti CD14 APC, anti CD16b FITC, and anti CD142 PE antibodies and the corresponding isotype controls. RESULTS: We verified the model on patients with severe antiphospholipid syndrome, which is a high expression of antibodies, in particular against beta-2GPI. CONCLUSIONS: We demonstrated complete inhibition of TF expression on monocytes and a significant reduction of thrombin generation in plasma.

Programmed DNA breaks in lymphoid cells: repair mechanisms and consequences in human disease.

In recent years, several novel congenital human disorders have been described with defects in lymphoid B-cell and T-cell functions that arise due to mutations in known and/or novel components of DNA repair and damage response pathways. Examples include impaired DNA double-strand break repair, as well as compromised DNA damage-induced signal transduction, including phosphorylation and ubiquitination. These disorders reinforce the importance of genome stability pathways in the development of lymphoid cells in humans. Furthermore, these conditions inform our knowledge of the biology of the mechanisms of genome stability and in some cases may provide potential routes to help exploit these pathways therapeutically. Here we review the mechanisms that repair programmed DNA lesions that occur during B-cell and T-cell development, as well as human diseases that arise through defects in these pathways.

DNA Repair Cofactors ATMIN and NBS1 Are Required to Suppress T Cell Activation.

Proper development of the immune system is an intricate process dependent on many factors, including an intact DNA damage response. The DNA double-strand break signaling kinase ATM and its cofactor NBS1 are required during T cell development and for the maintenance of genomic stability. The role of a second ATM cofactor, ATMIN (also known as ASCIZ) in T cells is much less clear, and whether ATMIN and NBS1 function in synergy in T cells is unknown. Here, we investigate the roles of ATMIN and NBS1, either alone or in combination, using murine models. We show loss of NBS1 led to a developmental block at the double-positive stage of T cell development, as well as reduced TCRα recombination, that was unexpectedly neither exacerbated nor alleviated by concomitant loss of ATMIN. In contrast, loss of both ATMIN and NBS1 enhanced DNA damage that drove spontaneous peripheral T cell hyperactivation, proliferation as well as excessive production of proinflammatory cytokines and chemokines, leading to a highly inflammatory environment. Intriguingly, the disease causing T cells were largely proficient for both ATMIN and NBS1. In vivo this resulted in severe intestinal inflammation, colitis and premature death. Our findings reveal a novel model for an intestinal bowel disease phenotype that occurs upon combined loss of the DNA repair cofactors ATMIN and NBS1.

Polymorphism of the Fcγ Receptor II as a Possible Predisposing Factor for Heparin-Induced Thrombocytopenia.

BACKGROUND: Heparin-induced thrombocytopenia (HIT) represents a serious complication of heparin treatment. IgG antibodies binding platelet factor 4 (PF4) and heparin trigger the clinical manifestations of HIT. However, only a portion of the antibodies have the ability to activate platelets, and these can be identified by a platelet aggregation test (functional testing). However, this expression has been detected to have a molecular cause, which is a mutation of FcγRIIa. The FcγRIIa receptor is responsible for the activation of platelets by antibodies in HIT. METHODS: To determine HIT, impedance aggregometry using the Multiplate analyzer (MEA) as heparin-induced aggregation technique and the Technozym HIT IgG ELISA test were used. The MEA method uses sensitization of donor platelets with patient plasma in the presence of heparin at a concentration of 0.5 IU/mL. The results were compared with the ELISA test. Mutation of FcγRHa was assessed using the asymmetric real-time PCR method that is based on the reaction with two hybridization probes and melting curve analysis. RESULTS: Examined were 100 patients at a clinically intermediate and higher risk of HIT according to the 4T's score. All samples were examined by the ELISA test and MEA, with positive samples being further confirmed by high-concentration heparin. In the group of patients, 10.0% were positive by MEA as compared with 4% determined by ELISA. The results of genetic analysis of FcγRIIa did not provide statistically significant differences between positive patients found by the functional test as well as the ELISA test and seronegative patients. CONCLUSIONS: The genetic mutation FcγRIIa is a predisposing factor for manifestation of HIT in the form of thrombocytopenia, but the process of seroconversion apparently needs another inducing factor. Therefore, the examination of mutations can be classified as predisposing factors rather than to confirm the diagnosis of HIT.

Markers of endothelial activation in preeclampsia.

BACKGROUND: The study aimed at finding a laboratory approach to detect endothelial damage in normal pregnancy as well as in pregnancy complicated by preeclampsia using selected markers of endothelial activation. MATERIALS: A total of 403 healthy pregnant women without a history of deep vein thrombosis and/or hypertension were prospectively studied. From all women, venous blood was collected before the end of the 1st trimester, between weeks 24 and 28 of gestation, and in the 3rd trimester (weeks 34-36). Assays of tissue plasminogen activator, plasminogen activator inhibitor-1, von Willebrand factor activity and antigen, thrombomodulin, endothelial protein C receptor, and endothelial microparticles activated by TF were performed. RESULTS: When comparing women who developed preeclampsia during pregnancy (the average levels were 23.41 µg/L, 34.33 µg/L, and 53.56 µg/L in the 1st, 2nd, and 3rd trimesters, respectively) with healthy pregnant women (the average levels were 19.05 µg/L, 28.47 µg/L, and 39.86 µg/L in the 1st, 2nd, and 3rd trimesters, respectively) significant differences in the levels of thrombomodulin were found in all three trimesters. By contrast, no statistically significant differences in the levels of vWF (both antigen and activity), t-PA, EPCR, EMPs, MMP-2, MMP-9, and TIMP-9 were found in any trimesters in the same group. CONCLUSIONS: Pregnancy and preeclampsia strongly influence the levels of studied markers. The findings of this work confirm the possible predictive potential of thrombomodulin and PA-1.

The role of tissue factor in normal pregnancy and in the development of preeclampsia: A review.

BACKGROUND: Tissue factor (TF) is a key element for normal gestation, especially in the first trimester. TF levels are hence raised in pregnancy, producing an adaptive hypercoagulable state. Potentiated hypercoagulability however, is associated with disorders of pregnancy such as pre-eclampsia but the results of TF and its inhibitor, tissue factor pathway inhibitor (TFPI), measurement, in pre eclampsic women are ambiguous and the data conflicting. This review covers the current knowledge status of the role of TF assessment in pregnancy with a focus on its diagnostic utility. METHODS: A review of the literature using the following key words: tissue factor, thrombosis, inflammation, pregnancy, preeclampsia. RESULTS: The published literature shows raised and unchanged TF levels in various studies of pre-eclampsia along with equally conflicting data for TFPI. The various study designs and methods used in these studies makes valid comparison difficult. Meta analysis of 34 randomized trials showed that low-dose aspirin in early phases of gravidity (starting from the 16th week or earlier) significantly reduces the incidence of preeclampsia. CONCLUSIONS: Overall, the results of the literature search together with knowledge of the structure and biological effects of TF, suggest that measuring the level of plasma TF/TFPI is not ideal for determining the actual levels of TF in the uteroplacental circulation. The current view that endothelial dysfunction is the trigger for preeclampsia, suggests that aspirin may be an effective prophylaxis. Further research will be necessary: measuring the expression of tissue factor on monocytes using flowcytometry and comparing the development of this expression during normal pregnancy and pregnancy complicated by preeclampsia, for example. Another possibility is immunohistochemical determination of the level of TF expression directly in placental tissue.

ATMIN is required for the ATM-mediated signaling and recruitment of 53BP1 to DNA damage sites upon replication stress.

Unresolved replication intermediates can block the progression of replication forks and become converted into DNA lesions, hence exacerbating genomic instability. The p53-binding protein 1 (53BP1) forms nuclear bodies at sites of unrepaired DNA lesions to shield these regions against erosion, in a manner dependent on the DNA damage kinase ATM. The molecular mechanism by which ATM is activated upon replicative stress to localize the 53BP1 protection complex is unknown. Here we show that the ATM-INteracting protein ATMIN (also known as ASCIZ) is partially required for 53BP1 localization upon replicative stress. Additionally, we demonstrate that ATM activation is impaired in cells lacking ATMIN and we define that ATMIN is required for initiating ATM signaling following replicative stress. Furthermore, loss of ATMIN leads to chromosomal segregation defects. Together these data reveal that chromatin integrity depends on ATMIN upon exposure to replication-induced stress.

IL-12 inhibits the TGF-ß-dependent T cell developmental programs and skews the TGF-ß-induced differentiation into a Th1-like direction.

The development and differentiation of T helper (Th) cell subsets is a highly plastic process which is strictly regulated by cytokines. Here we show that the transforming growth factor ß (TGF-ß)-dependent differentiation programs are negatively regulated by interleukin-12 (IL-12). The development of TGF-ß-induced regulatory T cells (iTregs) or TGF-ß/IL-6 activated Th17 cells from purified mouse CD4(+)CD25(-) T cells, stimulated with monoclonal antibody anti-CD3, was abrogated in the presence of IL-12 and a different developmental program was established. On the molecular level, IL-12 inhibited the expression of the lineage specific transcription factors Foxp3 and RORγt in developing Tregs and Th17 cells, respectively. Moreover, IL-12 was able to alter the development of iTregs and Th17 cells even when added to the differentiating cells after 48h of the culture. The cells activated in the presence of TGF-ß and IL-12 had an increased expression of the Th1 transcription factor T-bet, produced Th1 cytokines interferon γ and IL-2 and expressed IL-18 receptor and C-C chemokine receptor type 5 which are the phenotypic markers characteristic for Th1 cells. Furthermore, the cells activated in the presence of both TGF-ß and IL-12, and not of TGF-ß only, stimulated macrophages to produce nitric oxide. Altogether, these results indicate that IL-12 is a superior cytokine that has the ability to skew the already ongoing TGF-ß-dependent iTreg or Th17 developmental program into Th1-like direction.

The role of mouse mesenchymal stem cells in differentiation of naive T-cells into anti-inflammatory regulatory T-cell or proinflammatory helper T-cell 17 population.

Bone marrow-derived mesenchymal stem cells (MSCs) modulate immune response and can produce significant levels of transforming growth factor-ß (TGF-ß) and interleukin-6 (IL-6). These 2 cytokines represent the key factors that reciprocally regulate the development and polarization of naive T-cells into regulatory T-cell (Treg) population or proinflammatory T helper 17 (Th17) cells. In the present study we demonstrate that MSCs and their products effectively regulate expression of transcription factors Foxp3 and RORγt and control the development of Tregs and Th17 cells in a population of alloantigen-activated mouse spleen cells or purified CD4(+)CD25(-) T-cells. The immunomodulatory effects of MSCs were more pronounced when these cells were stimulated to secrete TGF-ß alone or TGF-ß together with IL-6. Unstimulated MSCs produce TGF-ß, but not IL-6, and the production of TGF-ß can be further enhanced by the anti-inflammatory cytokines IL-10 or TGF-ß. In the presence of proinflammatory cytokines, MSCs secrete significant levels of IL-6, in addition to a spontaneous production of TGF-ß. MSCs producing TGF-ß induced preferentially expression of Foxp3 and activation of Tregs, whereas MSC supernatants containing TGF-ß together with IL-6 supported RORγt expression and development of Th17 cells. The effects of MSC supernatants were blocked by the inclusion of neutralization monoclonal antibody anti-TGF-ß or anti-IL-6 into the culture system. The results showed that MSCs represent important players that reciprocally regulate the development and differentiation of uncommitted naive T-cells into anti-inflammatory Foxp3(+) Tregs or proinflammatory RORγt(+) Th17 cell population and thereby can modulate autoimmune, immunopathological, and transplantation reactions.