Laboratory of Developmental Cardiology

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About the Laboratory

Ischemic heart disease stands as a global leader in causing mortality. Our research delves into the tolerance of the heart against injuries stemming from acute oxygen deprivation, encompassing examinations from the molecular level to the entire organism using animal models. Our primary focus lies in investigating three fundamental aspects:

understanding the mechanisms that support robust cardiac tolerance during early ontogeny,
unveiling the enhanced cardiac tolerance achieved through adaptations to chronic hypoxia, regular exercise training, and other interventions, and
exploring the modifications in cardiac tolerance that manifest in association with various pathological conditions.

Furthermore, our research efforts include an investigation into the pathogenetic mechanisms at play in the initiation and progression of cardiomyopathy and heart failure, spanning various causes. We pay particular attention to sex differences and the influence of risk factors and comorbidities, aiming to pave the way for innovative therapeutic strategies. We collaborate on individual projects with clinical institutions, including the Children’s Heart Centre of 2nd Faculty of Medicine of the Charles University and University Hospital Motol, and the Institute for Clinical and Experimental Medicine.

New Frontiers in Basic Cardiovascular Research 2018

13th conference New Frontiers in Basic Cardiovascular Research in November 11 – 14, 2018 in Prague, Czech Republic.

Cardiovascular diseases are the leading causes of death and disability worldwide and the situation in new EU countries is particularly serious. There is, therefore, an urgent need to improve understanding of pathogenetic mechanisms underlying an initiation and progression of cardiovascular diseases as a prerequisite for developing novel therapeutic strategies and their translation to clinical settings. This goal cannot be achieved without sharing knowleddge and enhancing international cooperation and training. The planned meeting is a continuation of traditional series of meetings that started in Prague in 1994 and was followed every other year by meetings held in one of the V4 countries or in France (Smolenice 1996, Strasbourg 1998, Mariánské Lázně 2000, Smolenice 2002, Montpellier 2004, Debrecen 2006, Krakow 2008, Toulouse 2010, Hradec Králové 2012, Smolenice 2014 and Paris 2016). These meetings significantly improved scientific interaction and collaboration among researchers from these countries resulting in increasing success of joint grant applications and quality of joint publications.

The meeting will bring together researchers mainly from V4 countries, other new EU countries and France in order to strengthen communication and mutual collaboration, thereby accelerating scientific progress in cardiovascular research. Furthermore, it will provide an important opportunity for early stage researchers and pregraduate and postgraduate students to present and discuss their projects and results with established investigators in order to facilitate their involvement in scientific cooperation and exchange training in laboratories within new EU countries and France. The project coordinator and his team will be responsible for the organization of the meeting, selection of participants from the Czech Republic and coordination of participation of French distinguished cardiologists. Partners from other V4 countries will select participants from Slovakia, Hungary and Poland in cooperation with the project coordinator in order to create excellent and attractive scientific program and promote joint research activities. The meeting will be held in the project coordinator’s organization – the Institute of Physiology of the Czech Academy of Sciences.

Project partners:

Institute for Heart Research, Center of Experimental Medicine, Slovakia

University of Debrecen, Hungary

Jagiellonian University, Poland

Supported by:

Visegrad Fund

Projects

Molecular mechanisms of increased cardiac tolerance to oxygen deprivation.

Pathogenetic mechanisms and novel experimental therapy of heart failure of various etiology.

Epitranscriptomic regulations in heart development and disease.

Role of hypoxia-inducible factor-1α in the pathophysiology of cardiovascular diseases.

Development and maintenance of arrhythmogenic substrate in the failing heart.

Publications

Behuliak; Michal - Bencze; Michal - Boroš; Almoš - Vavřínová; Anna - Vodička; Martin - Ergang; Peter - Vaněčková; Ivana - Zicha; Josef Chronic inhibition of angiotensin converting enzyme lowers blood pressure in spontaneously hypertensive rats by attenuation of sympathetic tone: The role of enhanced baroreflex sensitivity. Biomedicine & Pharmacotherapy. 2024; 176(July); 116796.

IF = 6.9

Sedlář; Antonín - Vrbata; David - Pokorná; Kateřina - Holzerová; Kristýna - Červený; Jakub - Kočková; Olga - Hlaváčková; Markéta - Doubková; Martina - Musílková; Jana - Křen; Vladimír - Kolář; František - Bačáková; Lucie - Bojarová; Pavla Glycopolymer Inhibitors of Galectin-3 Suppress the Markers of Tissue Remodeling in Pulmonary Hypertension. Journal of Medicinal Chemistry. 2024; 67(11); 9214-9226.

IF = 6.8

Ošťádal; Bohuslav - Kolář; František Sixty Years of Heart Research in the Institute of Physiology of the Czech Academy of Sciences.. Physiological Research. 2024; 73(Suppl.1); S35-S48.

IF = 1.9

Hejnová; L. - Drastichová; Z. - Boroš; Almoš - Hrdlička; Jaroslav - Behuliak; Michal - Neckář; Jan - Zicha; Josef - Novotný; J. Modulation of left ventricular hypertrophy in spontaneously hypertensive rats by acetylcholinesterase and ACE inhibitors: physiological; biochemical; and proteomic studies. Frontiers in Cardiovascular Medicine. 2024; 11(16 September); 1390547.

IF = 2.8

Benák; Daniel - Kolář; František - Hlaváčková; Markéta Epitranscriptomic Regulations in the Heart. Physiological Research. 2024; 73(Suppl.1); S185-S198.

IF = 1.9

Alánová; Petra - Alán; Lukáš - Opletalová; Barbora - Bohuslavová; Romana - Abaffy; Pavel - Matějková; Kateřina - Holzerová; Kristýna - Benák; Daniel - Kaludercic; N. - Menabo; R. - Di Lisa; F. - Ošťádal; Bohuslav - Kolář; František - Pavlínková; Gabriela HIF-1α limits myocardial infarction by promoting mitophagy in mouse hearts adapted to chronic hypoxia. Acta Physiologica. 2024; 240(9); e14202.

IF = 5.6

Methodical approaches

28.1. 2014

Methodical approaches

28.1. 2014

In our research, we use mostly laboratory rats and mice including suitable transgenic models. Cardiac tolerance to injury caused by temporal coronary artery occlusion and reperfusion is studied in anesthetized open-chest animals, isolated perfused hearts are used to assess tolerance to injury due to global or regional ischemia/reperfusion, and isolated ventricular myocytes serve to analyze the effects of simulated anoxia/reoxygenation. As major manifestations of injury we evaluate the size of myocardial infarction, the incidence and severity of ventricular arrhythmias, the postischemic recovery of contractile function, and the viability of myocytes. Echocardiography and catheterization techniques are used to assess heart functions and hemodynamics. To study cardioprotective mechanisms we employ suitable pharmacological tools and biochemical analyses.