Laboratory of Mitochondrial Biogenesis

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Title	Project Leader	Project period	Project funding
Effects of proteasome inhibition on mitochondrial homeostasis		2020 - 2023	OPUS 17, NCN
Cross-talk between the transport of mitochondrial proteins and cellular protein homeostasis		2016 - 2021	MAESTRO 7, NCN
Cellular mechanisms handling failed mitochondrial protein translocation events		2017 - 2020	First TEAM, FNP
The interplay between the translation machinery and the mitochondrial dysfunction under cellular stress.		2017 - 2019	HOMING, FNP
Analysis of the alternative import pathways of mitochondrial proteins.	Aleksandra Gosk	2017 - 2019	DIAMENTOWY GRANT, MNiSW
Analysis of the mitochondrial proteins translocase TIM22 in human cells	Katarzyna Chojnacka	2016 - 2019	FUGA, NCN
Mechanisms protecting from oxidative damage during aging		2016 - 2019	OPUS, NCN
Characterization of the TIM23 pathway of protein import into mitochondria in mammalian cells		2016 - 2019	OPUS, NCN
The link between mitochondria and the protein quality control system		2017 - 2019	POLONEZ, NCN
Principles of mitochondrial protein compartmentalization in vertebrates		2017 - 2019	POLONEZ, NCN
Mitochondrial translocation of the DNA repair protein APE1		2017 - 2019	POLONEZ, NCN
Cytosolic chaperone systems for mitochondrial precursor proteins.		2014 - 2018	Ideas Plus, MNiSW
Coupling of synthesis and transport for proteins targeted to the mitochondria.		2014 - 2018	OPUS, NCN
Extramitochondrial factors regulating turnover of mitochondrial intermembrane space proteins.		2014 - 2017	SONATA6, NCN

Title	Deadline for applications
PhD student in “ReMedy” International Research Agenda Unit	08/12/2019
Project Administrative Assistant	10/08/2019
Public Procurement and Financial Specialist	30/07/2019
Grant Office Specialist	30/07/2019
Postdoctoral researcher	10/01/2019
Bioinformatician / Computational Biologist	16/12/2018

 

Project number: 2015/18/A/NZ1/00025

Project title: Cross-talk between the transport of mitochondrial proteins and cellular protein homeostasis

Project leader:

Agnieszka Chacinska, PhD, Professor
E: a.chacinska@cent.uw.edu.pl

Post-doctoral researchers:

Michal Turek, PhD
E: m.turek@cent.uw.edu.pl

Anna Antosiewicz, PhD
E: a.antosiewicz@cent.uw.edu.pl

PhD students:

Maria Śladowska, MSc

E: m.sladowska@cent.uw.edu.pl

Martyna Pietrzyk, MSc

E: m.pietrzyk@cent.uw.edu.pl

Source of funding: National Science Centre, Poland

Budget: 4 271 581 PLN

Project duration: 21.04.2016 – 20.04.2021

About the project:

Mitochondrion is a cellular compartment commonly known as “the power plant” of cells. To fulfill its various functions, this organelle needs more than one thousand cellular proteins. Yet, the majority of mitochondrial proteins are synthesized outside mitochondria in the cytosol and thus must be transported into mitochondria with the help of other proteins forming import machines. Dysfunctional mitochondrial protein import machines cause mitochondrial malfunctions, but also accumulation of precursor proteins in the cytosol. The Chacinska group discovered the role of the cytosolic degradation machinery in precursors’ clearance and the mechanism called the unfolded protein response activated by mistargeted proteins (UPRam) that protects the cell from stress caused by mistargeted mitochondrial precursor proteins accumulating in the cytosol. These processes pinpoint an important crosstalk between the state of mitochondria and regulatory mechanisms responsible for maintaining the cellular protein homeostasis. In the Maestro project, using simple model organisms, such as yeasts and worms, in addition to cultured mammalian cells, multidisciplinary approaches based on biochemistry, molecular cell biology and systems biology will be undertaken to identify and characterize the mechanisms of both, degradation of mistargeted mitochondrial proteins and the UPRam. We also aim to uncover biological consequences of these mechanisms, which are critical for homeostasis, survival and ageing at the cellular and organismal level.

Publications:

Sokol. A.M, Uszczynska-Ratajczak B.,Collins M.M., Bazala M., Topf U., Lundegaard, P.R., Sugunan S., Guenther S., Kuenne C., Graumann J., Chan S.S.L., Stainier D.Y.R., Chacinska A. (2018). Loss of the Mia40a oxidoreductase leads to hepato-pancreatic insufficiency in zebrafish. PLoS Genet 14(11): e1007743. https://doi.org/10.1371/journal.pgen.1007743

Samluk L., Chroscicki P., Chacinska A. (2018). Mitochondrial protein import stress and signaling. Curr. Opin. Physiol. 03, 41–48. DOI: 10.1016/j.cophys.2018.02.010

Bragoszewski, P., Turek, M., Chacinska, A. (2017). Control of mitochondrial biogenesis and function by the ubiquitin–proteasome system. Open Biol., 7 (4) 170007, DOI: 10.1098/rsob.170007.

Wasilewski M., Chojnacka K., Chacinska A.  (2017) Protein trafficking at the crossroads to mitochondria. Biochim Biophys Acta, 1864(1):125-137. https://doi.org/10.1016/j.bbamcr.2016.10.019

Lectures at the international conferences:

10.2018

Chacinska A.– Invited Speaker, CRC 1218 International Syposium: Mitochondrial Plasticity in Metabolism and Signalling, Max Planck Institute for Biologie of Ageing, “Guided Tour of proteins into mitochondria”, Cologne, Germany

07.2018

Chacinska A.– Invited Speaker, FASEB Conference, Protein Folding in the Cell, “Cellular protein homeostasis responses driven by mitochondria”, Buffalo, USA

Chacinska A. – Invited Speaker, The 43rd FEBS Congress, Theodor Bücher Plenary Lecture, „Mitochondria in cellular protein homeostasis”, Prague, Czech Republic

Pietrzyk M., et al. – The 43rd FEBS Congress, Poster: “Ribosome – associated quality control (RQC) in Saccharomyces cerevisiae upon oxidative stress”.

Śladowska M., et al. – Mitochondrial and Chloroplast Gordon Research Conference, Poster: “Mitochondrial protein import stress can prolong life of Caenorhabditis elegans“.

06.2018

Chacinska A. – Invited Speaker, Cell Symposia: Multifaceted Mitochondria, “The guided tour of proteins to mitochondria”, San Diego, USA

05.2018

Chacinska A. – Invited Speaker, EMBO Workshop: Molecular Biology of Mitochondria, “Mitochondria and cellular protein homeostasis mechanisms”, Stockholm, Sweden

09.2017

Chacinska A. – Invited Speaker, FEBS Congress: Protein Trafficking at the Crossroads to Mitochondria, Jerusalem, Israel

07.2017

Chacinska A. – Invited Speaker, EMBO Workshop: Mitochondrial quality control, “UPS-dependent degradation of mitochondrial precursor”, Xi’an, China

11.2016

Chacinska A. – Invited Speaker, International Conference of the Centre for Misfolding
Diseases 2016, “Protein homeostasis at the crossroads to mitochondria”,
Sevilla, Spain

11.2016

Chacinska A. – Invited Speaker, Protein Biogenesis & Mitochondrial Dynamics, “Protein
trafficking at the crossroads to mitochondria”, Baiersbronn-Obertal, Germany

09.2016

Turek M., et al. – The 2nd Congress BIO 2016: “Expanding beyond the limits”, Wroclaw, Poland

Posters at the international conferences:

09.2016

Śladowska M., Topf U., Chacinska A., Poster Session at the 7th EMBO meeting, “Effects of mitochondrial dysfunction in Caenorhabditis elegans”, Mannheim, Germany

The „Regenerative Mechanisms for Health” International Research Agenda Unit (“ReMedy”) is a joint unit of the University of Warsaw and University Medical Center Göttingen at Georg-August-University Göttingen, funded by a grant by the Foundation for Polish Science. The goal of ReMedy is to understand and to harness stress‐evoked adaptability of cells at the molecular and biochemical level, in order to combat human diseases and pathologies.

Director: prof. Agnieszka Chacińska

Deputy director: prof. Magda Konarska

Project coordinator: Michał Wrzesiński, PhD

Administration Manager: Marzena Niedźwiadek, MSc

Project and Lab Managers: Agnieszka Gajewska, PhD, Iwona Pilecka, PhD

Financial Administrative Specialist: Sebastian Pomirski – Ciura, MSc

ReMedy aims to: understand mechanisms of stress response discover short- and long‐term consequences of cellular responses and their crosstalk in physiology apply the gained knowledge about stress responses for the development of new medical treatments.

Prof. Chacińska will seek to identify global consequences of translational inhibition in human cells. Preliminary data show that although acute stress leads to rapid inhibition of protein synthesis, this stress is not lethal and frequently cells become even more resistant to further insults. Unknown adaptive mechanisms lead to re-initiation of protein translation. Prof. Chacińska’s group will undertake a system analysis of gene expression changes that accompany dysfunctional mitochondria, aiming to identify changes in transcription various steps of mRNA biogenesis and stability, including splicing – in collaboration with the Konarska lab – as well as translation activity/recruitment of mRNA during translation initiation. Studies of the group will deliver a comprehensive gene expression profiling under mitochondrial dysfunction and will lead to a discovery of yet unknown responses and adaptive pathways that have a potential to rescue cells and organisms from organellar stress and may in general benefit cellular and organismal fitness. Prof. Konarska group will study the mechanisms by which aging or environmental signals influence the function of the splicing machinery and affect splicing outcomes. Changes in patterns of alternative splicing in higher eukaryotes are characteristic signatures of stress and disease, but little is known about the underlying mechanisms. These studies will help to understand how environmental changes or ageing affect regulation of gene expression at the splicing level. They will also help to understand the function of the spliceosome and suggest new ways to modulate it. Ultimately, the mechanisms utilized by yeast to regulate pre-mRNA splicing will also be validated in mammalian cells, and the way how they affect more complex regulation of alternative splicing will be studied in collaboration with the Chacińska group.

 

ReMedy is funded by Foundation for Polish Science International Research Agendas Programme (project MAB/2017/2) under measure 4.3 “International Research Agendas“, Smart Growth Operational Programme 2014-2020.

 

 

Michał Bazała, MSc
Veronica Bazzani, MSc
Anita Brewińska, MSc
Magdalena Chojnacka, MSc
Piotr Chrościcki, PhD
Tomasz Czerwik, MSc
Magdalena Długołęcka, MSc
Jakub Dominowski, MSc
Beata Drabarek, PhD
Aleksandra Fergin, MSc
Edyta Głów, MSc
Agnieszka Górnicka, PhD
Elżbieta Januszewicz, PhD
Inés Juaristi Santos, MSc
Magdalena Kaus-Drobek, PhD
Adrianna Łoniewska-Lwowska, PhD
Aleksandra Matusiak, MSc
Inmaculada Mora Espi, MSc
Kamila Ornoch, MSc
Sabine Poerschke, MSc
Paulina Sakowska, PhD
Anna Sokół, PhD
Małgorzata Sztolsztener, PhD
Krzysztof Tarasiuk, MSc
Vanessa Tolotto, MSc
Agata Trojanowska, MSc
Aksana Varabyova, PhD
Lidia Wróbel, PhD