Your search keyword '"Pirona, Anna Chiara"' showing total 10 results

1. Cross-talk between mutant p53 and p62/SQSTM1 augments cancer cell migration by promoting the degradation of cell adhesion proteins

Author

Mukherjee, Saptaparna, Maddalena, Martino, Lü, YiQing, Martinez, Sebastien, Nataraj, Nishanth Belugali, Noronha, Ashish, Sinha, Sansrity, Teng, Katie, Cohen-Kaplan, Victoria, Ziv, Tamar, Arandkar, Sharathchandra, Hassin, Ori, Chatterjee, Rishita, Pirona, Anna-Chiara, Shreberk-Shaked, Michal, Gershoni, Anat, Aylon, Yael, Elazar, Zvulun, Yarden, Yosef, Schramek, Daniel, and Oren, Moshe

Published

2022

2. Genome-Wide CRISPR Screen Identifies Genes Involved in Metastasis of Pancreatic Ductal Adenocarcinoma.

Author

Oktriani, Risky, Pirona, Anna Chiara, Kalmár, Lili, Rahadian, Ariani S., Miao, Beiping, Bauer, Andrea S., Hoheisel, Jörg D., Boettcher, Michael, and Du, Haoqi

Subjects

*ADENOCARCINOMA, *IN vitro studies, *GENOME-wide association studies, *CANCER invasiveness, *RESEARCH funding, *EARLY detection of cancer, *CELL proliferation, *TRANSCRIPTION factors, *METASTASIS, *PANCREATIC tumors, *CELL lines, *MICE, *DUCTAL carcinoma, *CRISPRS, *ANIMAL experimentation, *CELL survival, *CELL differentiation

Abstract

Simple Summary: A CRISPR knockout screen was performed targeting all genes of the human genome with about 12 knockout sgRNAs each. By comparing pancreatic cancer cells with high or low metastatic capacity, genes were identified that affect the viability of metastatic cells while not affecting cell viability of non-metastatic cells. Further functional studies looked at some of the identified candidate genes. For one of the metastasis-related genes—MYBL2—a change in its interaction with another regulator gene was found to be implicated in metastasis. Background/Objectives: Early and aggressive metastasis is a major feature of pancreatic ductal adenocarcinoma. Understanding the processes underlying metastasis is crucial for making a difference to disease outcome. Towards these ends, we looked in a comprehensive manner for genes that are metastasis-specific. Methods: A genome-wide CRISPR-Cas9 gene knockout screen with 259,900 single guide RNA constructs was performed on pancreatic cancer cell lines with very high or very low metastatic capacity, respectively. Functional aspects of some of the identified genes were analysed in vitro. The injection of tumour cells with or without a gene knockout into mice was used to confirm the effect on metastasis. Results: The knockout of 590 genes—and, with higher analysis stringency, 67 genes—affected the viability of metastatic cells substantially, while these genes were not vital to non-metastasizing cells. Further evaluations identified different molecular processes related to this observation. One of the genes was MYBL2, encoding for a well-known transcription factor involved in the regulation of cell survival, proliferation, and differentiation in cancer tissues. In our metastasis-focussed study, no novel functional activity was detected for MYBL2, however. Instead, a metastasis-specific transformation of its genetic interaction with FOXM1 was observed. The interaction was synergistic in cells of low metastatic capacity, while there was a strong switch to a buffering mode in metastatic cells. In vivo analyses confirmed the strong effect of MYBL2 on metastasis. Conclusions: The genes found to be critical for the viability of metastatic cells form a basis for further investigations of the processes responsible for triggering and driving metastasis. As shown for MYBL2, unexpected processes of regulating metastasis might also be involved. [ABSTRACT FROM AUTHOR]

Published

2024

3. Detailed Functional Characterization of a Waist-Hip Ratio Locus in 7p15.2 Defines an Enhancer Controlling Adipocyte Differentiation

Author

Castillejo-Lopez, Casimiro, Pjanic, Milos, Pirona, Anna Chiara, Hetty, Susanne, Wabitsch, Martin, Wadelius, Claes, Quertermous, Thomas, Arner, Erik, and Ingelsson, Erik

Published

2019

4. Refinement of breast cancer molecular classification by miRNA expression profiles

Author

Søkilde, Rolf, Persson, Helena, Ehinger, Anna, Pirona, Anna Chiara, Fernö, Mårten, Hegardt, Cecilia, Larsson, Christer, Loman, Niklas, Malmberg, Martin, Rydén, Lisa, Saal, Lao, Borg, Åke, Vallon-Christerson, Johan, and Rovira, Carlos

Published

2019

5. p53 deficient breast cancer cells reprogram preadipocytes toward tumor-protective immunomodulatory cells.

Author

Hassin, Ori, Sernik, Miriam, Seligman, Adi, Vogel, Felix C. E., Wellenstein, Max D., Smollich, Joachim, Halperin, Coral, Pirona, Anna Chiara, Toledano, Liron Nomi, Caballero, Carolina Dehesa, Schlicker, Lisa, Salame, Tomer-Meir, Portuguez, Avital Sarusi, Aylon, Yael, Scherz-Shouval, Ruth, Geiger, Tamar, de Visser, Karin E., Schulze, Almut, and Oren, Moshe

Subjects

BREAST cancer, CANCER cells, MYELOID cells, IMMUNE checkpoint proteins, ADIPOSE tissues, REMANUFACTURING

Abstract

The TP53 gene is mutated in approximately 30% of all breast cancer cases. Adipocytes and preadipocytes, which constitute a substantial fraction of the stroma of normal mammary tissue and breast tumors, undergo transcriptional, metabolic, and phenotypic reprogramming during breast cancer development and play an important role in tumor progression. We report here that p53 loss in breast cancer cells facilitates the reprogramming of preadipocytes, inducing them to acquire a unique transcriptional and metabolic program that combines impaired adipocytic differentiation with augmented cytokine expression. This, in turn, promotes the establishment of an inflammatory tumor microenvironment, including increased abundance of Ly6C+ and Ly6G+ myeloid cells and elevated expression of the immune checkpoint ligand PD-L1. We also describe a potential gain-of-function effect of common p53 missense mutations on the inflammatory reprogramming of preadipocytes. Altogether, our study implicates p53 deregulation in breast cancer cells as a driver of tumor-supportive adipose tissue reprogramming, expanding the network of non-cell autonomous mechanisms whereby p53 dysfunction may promote cancer. Further elucidation of the interplay between p53 and adipocytes within the tumor microenvironment may suggest effective therapeutic targets for the treatment of breast cancer patients. [ABSTRACT FROM AUTHOR]

Published

2023

6. TAZ facilitates breast tumor growth by promoting an immune‐suppressive tumor microenvironment.

Author

Gershoni, Anat, Hassin, Ori, Nataraj, Nishanth Belugali, Baruch, Sivan, Avioz‐Seligman, Adi, Pirona, Anna Chiara, Fellus‐Alyagor, Liat, Meir Salame, Tomer, Mukherjee, Saptaparna, Mallel, Giuseppe, Yarden, Yosef, Aylon, Yael, and Oren, Moshe

Abstract

The core Hippo pathway module consists of a tumour‐suppressive kinase cascade that inhibits the transcriptional coactivators Yes‐associated protein (YAP) and WW domain‐containing transcription regulator protein 1 (WWTR1; also known as TAZ). When the Hippo pathway is downregulated, as often occurs in breast cancer, YAP/TAZ activity is induced. To elaborate the roles of TAZ in triple‐negative breast cancer (TNBC), we depleted Taz in murine TNBC 4T1 cells, using either CRISPR/Cas9 or small hairpin RNA (shRNA). TAZ‐depleted cells and their controls, harbouring wild‐type levels of TAZ, were orthotopically injected into the mammary fat pads of syngeneic BALB/c female mice, and mice were monitored for tumour growth. TAZ depletion resulted in smaller tumours compared to the tumours generated by control cells, in line with the notion that TAZ functions as an oncogene in breast cancer. Tumours, as well as their corresponding in vitro cultured cells, were then subjected to gene expression profiling by RNA sequencing (RNA‐seq). Interestingly, pathway analysis of the RNA‐seq data indicated a TAZ‐dependent enrichment of 'Inflammatory Response', a pathway correlated with TAZ expression levels also in human breast cancer tumours. Specifically, the RNA‐seq analysis predicted a significant depletion of regulatory T cells (Tregs) in TAZ‐deficient tumours, which was experimentally validated by the staining of tumour sections and by quantitative cytometry by time of flight (CyTOF). Strikingly, the differences in tumour size were completely abolished in immune‐deficient mice, demonstrating that the immune‐modulatory capacity of TAZ is critical for its oncogenic activity in this setting. Cytokine array analysis of conditioned medium from cultured cells revealed that TAZ increased the abundance of a small group of cytokines, including plasminogen activator inhibitor 1 (Serpin E1; also known as PAI‐1), CCN family member 4 (CCN4; also known as WISP‐1) and interleukin‐23 (IL‐23), suggesting a potential mechanistic explanation for its in vivo immunomodulatory effect. Together, our results imply that TAZ functions in a non‐cell‐autonomous manner to modify the tumour immune microenvironment and dampen the anti‐tumour immune response, thereby facilitating tumour growth. [ABSTRACT FROM AUTHOR]

Published

2023

7. Tumor Reliance on Cytosolic versus Mitochondrial One-Carbon Flux Depends on Folate Availability

Author

Lee, Won Dong, Pirona, Anna Chiara, Sarvin, Boris, Stern, Alon, Nevo-Dinur, Keren, Besser, Elazar, Sarvin, Nikita, Lagziel, Shoval, Mukha, Dzmitry, Raz, Shachar, Aizenshtein, Elina, and Shlomi, Tomer

Published

2021

8. Process for an efficient lentiviral cell transduction.

Author

Pirona, Anna Chiara, Oktriani, Risky, Boettcher, Michael, and Hoheisel, Jörg D

Subjects

*LENTIVIRUSES, *CELL lines, *CRISPRS, *SCIENTIFIC community, *SINGLE nucleotide polymorphisms

Abstract

The combination of lentiviruses with techniques such as CRISPR-Cas9 has resulted in efficient and precise processes for targeted genome modification. An often-limiting aspect, however, is the efficiency of cell transduction. Low efficiencies with particular cell types and/or the high complexity of lentiviral libraries can cause insufficient representation. Here, we present a protocol that yielded substantial increases in transduction efficiency in various cell lines in comparison to several other procedures. [ABSTRACT FROM AUTHOR]

Published

2020

9. Frequent miRNA-convergent fusion gene events in breast cancer.

Author

Persson, Helena, Søkilde, Rolf, Häkkinen, Jari, Pirona, Anna Chiara, Vallon-Christersson, Johan, Kvist, Anders, Mertens, Fredrik, Borg, Åke, Mitelman, Felix, Höglund, Mattias, and Rovira, Carlos

Subjects

GENE fusion, BRCA genes

Abstract

Studies of fusion genes have mainly focused on the formation of fusions that result in the production of hybrid proteins or, alternatively, on promoter-switching events that put a gene under the control of aberrant signals. However, gene fusions may also disrupt the transcriptional control of genes that are encoded in introns downstream of the breakpoint. By ignoring structural constraints of the transcribed fusions, we highlight the importance of a largely unexplored function of fusion genes. Here, we show, using breast cancer as an example, that miRNA host genes are specifically enriched in fusion genes and that many different, low-frequency, 5' partners may deregulate the same miRNA irrespective of the coding potential of the fusion transcript. These results indicate that the concept of recurrence, defined by the rate of functionally important aberrations, needs to be revised to encompass convergent fusions that affect a miRNA independently of transcript structure and protein-coding potential. [ABSTRACT FROM AUTHOR]

Published

2017

10. Preparation of highly multiplexed small RNA sequencing libraries.

Author

Persson H, Søkilde R, Pirona AC, and Rovira C

Subjects

Cell Line, Tumor, Gene Expression Profiling economics, Gene Library, High-Throughput Nucleotide Sequencing economics, High-Throughput Nucleotide Sequencing methods, Humans, Sequence Analysis, RNA economics, Transcriptome, Gene Expression Profiling methods, MicroRNAs genetics, Sequence Analysis, RNA methods

Abstract

MicroRNAs (miRNAs) are ~22-nucleotide-long small non-coding RNAs that regulate the expression of protein-coding genes by base pairing to partially complementary target sites, preferentially located in the 3´ untranslated region (UTR) of target mRNAs. The expression and function of miRNAs have been extensively studied in human disease, as well as the possibility of using these molecules as biomarkers for prognostication and treatment guidance. To identify and validate miRNAs as biomarkers, their expression must be screened in large collections of patient samples. Here, we develop a scalable protocol for the rapid and economical preparation of a large number of small RNA sequencing libraries using dual indexing for multiplexing. Combined with the use of off-the-shelf reagents, more samples can be sequenced simultaneously on large-scale sequencing platforms at a considerably lower cost per sample. Sample preparation is simplified by pooling libraries prior to gel purification, which allows for the selection of a narrow size range while minimizing sample variation. A comparison with publicly available data from benchmarking of miRNA analysis platforms showed that this method captures absolute and differential expression as effectively as commercially available alternatives.

Published

2017