Ines Papak scite author profile

RNA editing is one of the most prevalent and abundant forms of post-transcriptional RNA modification observed in normal physiological processes and often aberrant in diseases including cancer. RNA editing changes the sequences of mRNAs, making them different from the source DNA sequence. Edited mRNAs can produce editing-recoded protein isoforms that are functionally different from the corresponding genome-encoded protein isoforms. The major type of RNA editing in mammals occurs by enzymatic deamination of adenosine to inosine (A-to-I) within double-stranded RNAs (dsRNAs) or hairpins in pre-mRNA transcripts. Enzymes that catalyse these processes belong to the adenosine deaminase acting on RNA (ADAR) family. The vast majority of knowledge on the RNA editing landscape relevant to human disease has been acquired using in vitro cancer cell culture models. The limitation of such in vitro models, however, is that the physiological or disease relevance of results obtained is not necessarily obvious. In this review we focus on discussing in vivo occurring RNA editing events that have been identified in human cancer tissue using samples surgically resected or clinically retrieved from patients. We discuss how RNA editing events occurring in tumours in vivo can identify pathological signalling mechanisms relevant to human cancer physiology which is linked to the different stages of cancer progression including initiation, promotion, survival, proliferation, immune escape and metastasis.

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Autoimmunity and Cancer—Two Sides of the Same Coin

Sakowska

Arcimowicz

Jankowiak

et al. 2022

Front. Immunol.

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Autoimmune disease results from the immune response against self-antigens, while cancer develops when the immune system does not respond to malignant cells. Thus, for years, autoimmunity and cancer have been considered as two separate fields of research that do not have a lot in common. However, the discovery of immune checkpoints and the development of anti-cancer drugs targeting PD-1 (programmed cell death receptor 1) and CTLA-4 (cytotoxic T lymphocyte antigen 4) pathways proved that studying autoimmune diseases can be extremely helpful in the development of novel anti-cancer drugs. Therefore, autoimmunity and cancer seem to be just two sides of the same coin. In the current review, we broadly discuss how various regulatory cell populations, effector molecules, genetic predisposition, and environmental factors contribute to the loss of self-tolerance in autoimmunity or tolerance induction to cancer. With the current paper, we also aim to convince the readers that the pathways involved in cancer and autoimmune disease development consist of similar molecular players working in opposite directions. Therefore, a deep understanding of the two sides of immune tolerance is crucial for the proper designing of novel and selective immunotherapies.

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Successful Treatment of Persistent SARS-CoV-2 Infection in a B-Cell Depleted Patient with Activated Cytotoxic T and NK Cells: A Case Report

Jassem

Marek-Trzonkowska

Smiatacz

et al. 2021

IJMS

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We report a lymphoma patient with profound B-cell deficiency after chemotherapy combined with anti-CD20 antibody successfully treated with remdesivir and convalescent plasma for prolonged SARS-CoV-2 infection. Viral clearance was likely attributed to the robust expansion and activation of TCR Vβ2 CD8+ cytotoxic T cells and CD16 + CD56- NK cells. This is the first presentation of TCR-specific T cell oligoclonal response in COVID-19. Our study suggests that B-cell depleted patients may effectively respond to anti-SARS-CoV-2 treatment when NK and antigen-specific Tc cell response is induced.

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Keap1-resistant ΔN-Nrf2 isoform does not translocate to the nucleus upon electrophilic stress

Mikac

Dziadosz

Padariya

et al. 2022

Preprint

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The Nrf2 pathway is an essential defense pathway in a cell. It responds to oxidative and electrophilic stress via de-repression of Nrf2 from Keap1-Cul3-mediated degradation, accumulation of Nrf2 in the nucleus and transcriptional activation of a number of detoxifying and cell protective Nrf2 target genes. Here we report that normal and cancer cells also express the N-terminally truncated Nrf2 isoform (ΔN-Nrf2), which originates from an alternative promoter. Co-immunoprecipitation together with molecular dynamics simulation showed that the binding between ΔN-Nrf2 and Keap1 is impaired, resulting in the much higher stability of this form. ΔN-Nrf2 is retained in the cytoplasm in response to electrophilic stress, indicating that it does not regulate transcription under the same stress stimuli as the full-length Nrf2. Altogether this data suggests that Nrf2 has other functions in cells than transcriptional activation of genes, which most probably rely on the protein-protein interactions in the cytoplasm. The regulation between these functions takes place on the level of transcription.

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What Inhibits Natural Killers’ Performance in Tumour

Papak

Chruściel

Dziubek

et al. 2022

IJMS

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Natural killer cells are innate lymphocytes with the ability to lyse tumour cells depending on the balance of their activating and inhibiting receptors. Growing numbers of clinical trials show promising results of NK cell-based immunotherapies. Unlike T cells, NK cells can lyse tumour cells independent of antigen presentation, based simply on their activation and inhibition receptors. Various strategies to improve NK cell-based therapies are being developed, all with one goal: to shift the balance to activation. In this review, we discuss the current understanding of ways NK cells can lyse tumour cells and all the inhibitory signals stopping their cytotoxic potential.

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Ines Papak

The effects of RNA editing in cancer tissue at different stages in carcinogenesis

Autoimmunity and Cancer—Two Sides of the Same Coin

Successful Treatment of Persistent SARS-CoV-2 Infection in a B-Cell Depleted Patient with Activated Cytotoxic T and NK Cells: A Case Report

Keap1-resistant ΔN-Nrf2 isoform does not translocate to the nucleus upon electrophilic stress

What Inhibits Natural Killers’ Performance in Tumour

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