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Head of Science and Research Division
Tel:+420 221 977 305
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Tel:+420 221 977 648
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Tel:+420 221 977 144
Institute of Hematology and Blood Transfusion
View ongoing grants in the year: 2009, 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019, 2020, 2021, 2022, 2023, 2024, 2025, 2026, 2027, 2028.
AZV 17-31398A [2017 – 2020]
Ing. Michaela Dostálová Merkerová, Ph.D.
Doc. Ing. Jiří Kléma, Ph.D., FEL ČVUT Praha
Long non-coding RNAs (lncRNAs) regulate hematopoietic lineage differentiation at almost every stage and their abnormal expression may contribute to various hematopoietic disorders. They may become useful diagnostic and prognostic markers contributing to detection of the MDS progression and increase of the patients' survival, and even potential therapeutic targets in future. In the proposed project, genome-wide screening of lncRNA levels in MDS patients will be employed to compare expression profiles between various risk groups of patients with the aim to find lncRNAs with significantly different levels and relevance to MDS diagnostics. Because the knowledge about individual lncRNAs is often limited to the simple transcript annotation, the causes, roles and consequences of deregulated lncRNAs in the pathogenesis of MDS will be studied by experimental and computational approaches.
AZV 17-28055A [2017 – 2020]
RNDr. Ruth Tachezy, Ph.D., PřF UK Praha
RNDr. Eva Hamšíková
The aim is to identify the prognostic factors in patients with head and neck squamous cell carcinoma ( HNSCC) to improve the predictivity of the clinical response to the available therapeutic options. A comprehensive comparative analysis of infiltrating and circulating cells of the immune system will be done in patients with HPV-associated and non-associated tumors. A specific aim of this study is to consider the role of the immunosuppressive regulatory CD4+ T cells and PD-1+CD8+ T cells and their newly identified subtypes, and the importance of the expression of the pro-angiogenic VEGF. The predictive potential of the level of expression of specific molecules in epithelial tumor cells and tumor-associated plasmacytoid dendritic cells (pDCs) will be studied. One hundred retrospective paraffin-embedded biopsy specimens and cca 150 prospective fresh biopsy tissue specimens and blood samples from HNSCC patients will be investigated by multicolor immunohistochemistry, PCR, mass cytometry, and function tests. Peripheral blood parameters of immunity will also be monitored after therapy.
AZV NV18-03-00227 [2018 – 2021]
Myelodysplastic syndrome (MDS) is a heterogeneous group of clonal diseases with ineffective hematopoiesis and a higher risk of transformation to acute myeloid leukemia. The early stages of MDS can be considered a premalignant condition with relatively good prognosis. Despite this, some patients experience disease progression and shorten the overall survival time. In this project, we will focus on the identification of specific mutations at the time of diagnosis in patients with low risk MDS that would predict the disease progression. We will perform a mutational screening in retrospective paired samples of progressing patients and those without progression. We will carry out a prospective mutational study in patients with detected unfavorable mutations and monitor the dynamics of mutational burden using sensitive droplet digital PCR. To complete background of the progression process, we will perform a comparative analysis of mRNA expression profiles of patients' serial samples. Introduced methods will refine the patient's prognosis, allow progression prediction and optimize treatment
18-18407S [2018 – 2020]
doc. Mgr. Kateřina Machová Poláková, Ph.D.
The successful therapy of chronic myeloid leukemia (CML) is based on targeted inhibition of BCR-ABL1 kinase activity by specific inhibitors (TKI), preferentially by imatinib in the first line treatment. Mutations in the BCR-ABL1 kinase domain represent a quite frequent mechanism of acquired resistance to the TKI therapy. We hypothesize, that development of TKI resistance by acquisition of BCR-ABL1 mutations during imatinib treatment is not just passive process of selection of preexisting mutated clones. BCR-ABL1 mutations may be acquired de novo, requiring a sublethal concentration of imatinib in concert with intrinsic epigenetic, genetic and molecular factors enabling to escape of subclones in early apoptosis from cell cycle control and DNA reparation process. We expect that identified molecules and connected nodes of the networks required for resistant phenotype may be potentially druggable and useful for early prediction of predisposition of CML cells to acquire BCR-ABL1 mutations.
Merck & Dohme s.r.o. IIS ID 37651 [2011 – 2021]
RNDr. Ruth Tachezy, Ph.D.
MUDr. Jitka Vydrová – Medical Healthcom., s.r.o.,, Hlasové centrum, Praha
Klinická studie fáze III b. Hlavním cílem studie bude ověřit vliv očkování tetravalentní HPV vakcínou na vznik rekurentních papillomatozních lézi a interval remisí u pacientů s RRP. Vedlejšími cíli bude zjištění typu HPV v lézi RRP, sledování hladin protilátek proti HPV antigenům obsaženým ve vakcíně, případně složkám imunitního systému v odebraném s
20-19162S [2020 – 2022]
Ing. Michaela Dostálová Merkerová, Ph.D.
Doc. Ing. Jiří Kléma, Ph.D., FEL ČVUT Praha
Mutations in RNA splicing factors represent the most common molecular alterations in myelodysplastic syndromes (MDS). Despite some advances in the understanding of their roles in MDS pathogenesis, the impact of mutated splicing factors on circular RNAs (circRNAs) has not been studied. CircRNAs constitute a class of RNAs with a covalently closed continuous loop that has recently been discovered to be widespread and abundant. Because most circRNAs are produced by backsplicing, we hypothesize that the aberrant splicing seen in MDS also affects circRNA formation. With respect to the various regulatory functions of circRNAs, their deregulation likely contributes to MDS pathogenesis. Moreover, altered levels of particular circRNAs might serve as new molecular biomarkers for the prognosis and therapeutic response in MDS management. Moreover, circRNAs might form a new class of molecular targets for MDS treatment. In this project, we will use next generation sequencing and perform integrative data analyses and functional studies to identify and characterize circRNA roles in MDS pathogenesis.
AZV 17-31593A [2017 – 2021]
The aim of the proposed project is to analyse risk factors contributing to recently recorded elevation in number of cases of haemorrhagic cystitis (HC) in oncohematological patients after allogeneic hematopoietic stem cell transplantation (HSCT) what could help to find subjects at high risk of this type of morbidity. The main analysed factor will include the type of used posttransplant immunosuppressive prevention of GvHD, connection with haploidentical HSCT and association with BKV and AdV infection and the state of antiviral cellular immune response. Analysis of anti-viral effector T cells in HC patients with BK or AdV infection will result in determination of protective levels of anti-viral effector T cells and in characterisation of phenotype, functional activity and antigenic specificity of T cells responsible for virological and clinical response. The results of the study are essential for adoption and optimization of protocols for expansion of T cells for immunotherapy of opportunistic viral infections that endanger adult and children HSCT patients.
AZV 17-28055A [2017 – 2021]
RNDr. Ruth Tachezy Ph.D., PřF UK Praha
RNDr. Eva Hamšíková
The aim is to identify the prognostic factors in patients with head and neck squamous cell carcinoma ( HNSCC) to improve the predictivity of the clinical response to the available therapeutic options. A comprehensive comparative analysis of infiltrating and circulating cells of the immune system will be done in patients with HPV-associated and non-associated tumors. A specific aim of this study is to consider the role of the immunosuppressive regulatory CD4+ T cells and PD-1+CD8+ T cells and their newly identified subtypes, and the importance of the expression of the pro-angiogenic VEGF. The predictive potential of the level of expression of specific molecules in epithelial tumor cells and tumor-associated plasmacytoid dendritic cells (pDCs) will be studied. One hundred retrospective paraffin-embedded biopsy specimens and cca 150 prospective fresh biopsy tissue specimens and blood samples from HNSCC patients will be investigated by multicolor immunohistochemistry, PCR, mass cytometry, and function tests. Peripheral blood parameters of immunity will also be monitored after therapy.
AZV 17-29992A [2017 – 2021]
RNDr. Martina Saláková Ph.D., PřF UK Praha
MUDr. Mariana Wohlfahrtová Ph.D., IKEM Praha, RNDr. Viera Ludvíková, MUDr. Miroslav Fajtr, FN Hradec Králové
Eighty percent of adult population is infected with BK polyomavirus (BKV). After primary infection which usually occurs in childhood, virus establish lifelong persistency in kidney with occasional reactivation. While in immunocompetent subject the infection or reactivation is clinically inapparent, in immunocompromised patients may cause severe complications. Reactivation BKV is observed in about 30% kidney transplant recipients, uncontrolled infection may lead to polyomavirus nephropathy (PVAN) and loss of graft. The factors affecting progression of infection are not yet well understood. The aim of this study is evaluate the genetic variation of BKV, as well as prevalence of various BKV genotypes and the type-specific antibodies in kidney donors and recipients and clarify risk factors for the progression of BKV infection and for the development of PVAN.
AZV 17-31777A [2017 – 2021]
RNDr Jana Kašpírková PhD., LF Plzeň, UK Praha
1. Spoluřešitel: RNDr. Jana Šmahelová, 2. Spoluřešitel: Prof. MUDr. Jana Hercogová, CSc., Nemocnice Na Bulovce, Praha
Anal cancer is one of the malignancies with the rising incidence, especially at specific populations of men who have sex with men (MSM) and HIV positive patients. In these groups incidence reaches up 131 cases per 100 thousand inhabitants. Due to steeply increasing number of HIV positive patients in the Czech Republic (CR), whose vast majority belongs to MSM, early diagnosis of precancerous lesions is an essential prerequisite in the fight against this disease. Anal cancer is in its etiology and biological behavior very similar to cervical cancer, therefore the investigative and screening procedures are virtually identical. Currently used cytology in the anal area is not among the highly sensitive nor specific methods of investigation. DNA methylation appears to be a new method having already confirmed efficiency in screening of cervical cancer. This research should therefore validate DNA methylation as a potential new diagnostic and screening method for anal cancer and compare its sensitivity and specificity with established screening methods in immunocompetent and immunosuppress...
AZV 18-08-00149 [2018 – 2021]
Do. MUDr. Martin Malý, Ph.D.. ÚVN Praha
prof. Ing. Jana Hajšlová, CSc., VŠCHT Praha, Ing. Jiří Suttnar, CSc.
Atherosclerosis and thrombosis are underlying causes of acute coronary syndrome and stroke. In clinical practice, several markers (such as LDL, HDL cholesterol, glycaemia, C-reactive protein etc.) of elevated risk are available, however, translation of the population risk to personal risk is rather questionable. For this reason, additional information to explain such condition is of a great interest. Advanced instrumental technique represented by high performance liquid chromatography coupled to high-resolution tandem mass spectrometry will enable, based on chemometric assessment fingerprints of metabolome components, to identify the differences between patients´ groups that are not evident when employing conventionally measured parameters. Blood samples will be obtained from patients with acute and subacute phase of acute coronary syndrome and stroke. The relationship between the generated data and the degree of oxidative stress will be searched. The possibly detected changes may represent the interface between the atherosclerosis and thrombosis.
AZV 19-08-00147 [2019 – 2022]
Doc. RNDr. Irena Krontorád Koutná, Ph..D., FNUSA Brno
doc.MUDr. Pavel Otáhal, Ph.D., Mgr. Pavel Šimara, Ph.D., MU Brno
Chimeric antigen receptor (CAR) T-cell is a cutting edge technology for targeted cell therapy of oncologic diseases. Promising clinical results were reported for hematological malignancies, but the results in solid tumors are not that encouranging yet. Here we propose to validate protocols for the production of CAR T-cells against solid tumor antigens under cGMP rules. We will focus mainly on target antigens GD2, PSMA, and PSCA. Standard operation protocols and analytical certificates will be presented to the State Institute for Drug Control for their approval. The consortium of three prominent research facilities will participate on this project: (i) International Clinical Research Center of St. Anne's University Hospital Brno (FNUSA-ICRC), (ii) Centre for Biomedical Image Analysis at Masaryk University Brno (MU-CBIA), and (iii) Institute of Hematology and Blood Transfusion in Prague (UHKT). Our main aim is to establish production of CAR T-cells for anti-solid tumor therapy which can be translated into clinical applications.
GA ČR 19-02739S [2019 – 2021]
doc. Ing. Jiří Homola, CSc., DSc., Ústav fotoniky a elektroniky AV ČR
Prof. Ing. Jan Dyr, DrSc., doc. Ing. Mgr. Bc. Roman Kotlín, Ph.D. MHA, Ing. Tomáš Riedel, Ph.D., Ústav makromolekulární chemie AV ČR
Life is associated with myriad of interactions that occur among a large variety of biomolecules. Hence, the understanding of biomolecular interactions and their roles in diseases represents a research goal of paramount importance. This project aims to develop a new plasmonic biosensor-based technology that will enable investigation of biomolecular interactions in complex real-world biological environments, which will advance the field of biomolecular interaction analysis beyond the current state of the art. This multidisciplinary project encompasses research efforts in multiple areas, including plasmonic (nano)structure-based biosensors, mass transport in microfluidic systems, immobilization of biomolecules, and methodologies for investigation of biomolecular interactions. The resulting biosensor technology will provide new insights into interaction of biomolecules involved in onco-hematological diseases, such as myelodysplastic syndrome and other frequently occurring hematological malignancies.
GA ČR 19-04099S [2019 – 2021]
Prof. RNDr. Petr Heřman, CSc., MFF UK Praha
Mgr. Barbora Brodská, Ph.D.
One third of acute myeloid leukemia (AML) occurrences exhibits characteristic nucleophosmin (NPM) mutation causing its aberrant cytoplasmic localization. Subsequently, multiple NPM-interaction partners, interacting also with mutated NPM or its complexes, become mislocalized from their site-of-action with functional and regulatory consequences. By combination of spectroscopic, microscopic, biochemical and immunochemical methods (e.g. FLIM, FRET, GFP-Trap) we will evaluate unknown/neglected relations between AML-related NPM mutations, oligomerization, and ability of wild-type and mutated NPM to interact with the tumor suppressor p53. Dynamics and cellular trafficking of NPM and p53 will be assessed in vivo and the role of NPM-interacting proteins regulated by p53 in the leukemogenesis will be elucidated. We will characterize cellular response of the NPM interaction network to anticancer drug treatment in relation to the NPM mutation and the drug used. Results will contribute to understanding of the role of NPM mutation in leukemogenesis and will open new strategies for AML treatment.
GA ČR 20-10845S [2020 – 2022]
Prof. Ing. Tomáš Riedel, Ph.D., Ústav makromolekulární chemie AV ČR
Ing. Pavel Májek, Ph.D.
Early biomarker detection improves treatment outcomes, survival and quality of life. In particular optical biosensors are promising technology for early diagnostics: minimally invasive procedures (plasma, saliva), rapid and sensitive detection, low sample consumption. The main pitfall of optical biosensors is the inability to differentiate a specific signal from an interfering signal caused by adsorption of particularly proteins during the contact of artificial surfaces with biological media (fouling). Fouling can result in complement or coagulation initiation, etc. It has prevented the advance of biosensors into clinical applications. In principle, fouling is influenced by individual biological variability and pathophysiology – with a few exceptions, these factors and their influence are unknown although they play a key role in clinical applicability. The aim of this project is to identify these factors and their effects, and to design sample pre-treatments to minimize or eliminate these factors.
OP VVV CZ.02.1.01/0.0/0.0/16_025/0007428 [2018 – 2022]
The development of diagnostic methods for determination of immunosuppressive escape mechanisms of leukemic cells, that should serve for the selection of a appropriate personalized immunotherapy of hemato- oncological patients, Development of procedures for the expansion of T-lymphocytes capable of recognizing antigens of leukemic cells in AML patients, Implementation of methods for monitoring the immune system reconstitution of patients after HSCT for identification of patients with insufficient immune system reconstitution. Identification of markers predicting the longterm in vivo persistence of transferred multi-virus specific T-lymphocytes and their tracking in treated patients, the construction of a new generation of CAR T-lymphocytes.
AZV NU20-03-00412 [2020 – 2024]
Ing. Michaela Dostálová Merkerová, Ph.D.
Doc. Ing. Jiří Kléma, Ph.D., FEL ČVUT Praha
Myelodysplastic syndrome (MDS) is a malignant hematopoietic disorder characterized by aberrant differentiation of hematopoietic stem cells (HSCs). Genome instability is one of the key features of MDS HSCs and mobilization of transposable elements (TEs) is a known destabilizing factor of the genome integrity. PIWI-interacting RNAs (piRNAs) inhibit TE mobilization, functioning as central players in stem cell mechanisms to preserve genome integrity. Despite recent advances in the understanding of MDS pathogenesis, the role of TEs and piRNAs in development and progression of the disease has not been studied yet. We will analyze transcription of TEs and piRNAs by next generation sequencing and examine their activity in MDS. Besides the implication in the MDS pathogenesis, utilization of TEs and piRNAs as potential molecular markers of the disease progression will be tested. Moreover, possible effect of azacitidine treatment on TE and piRNA transcriptions will be addressed to prove their applicability as novel predictive markers for the drug responsiveness and relapse prevention.
Head of Science and Research Division
Tel:+420 221 977 305
Deputy head of Science and Research Division
Tel:+420 221 977 648
Secretary
Tel:+420 221 977 144
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Ústav hematologie a krevní transfuze
(Institute of Hematology and Blood Transfusion)
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