Your search keyword '"Hänisch B"' showing total 2 results

1. Aberrant splicing in human cancer: An RNA structural code point of view.

Author

Apostolidi, Maria and Stamatopoulou, Vassiliki

Subjects

ALTERNATIVE RNA splicing, RNA, RNA regulation, QUADRUPLEX nucleic acids, TRANSCRIPTOMES, CARCINOGENESIS, NUCLEOPROTEINS

Abstract

Alternative splicing represents an essential process that occurs widely in eukaryotes. In humans, most genes undergo alternative splicing to ensure transcriptome and proteome diversity reflecting their functional complexity. Over the last decade, aberrantly spliced transcripts due to mutations in cis- or trans-acting splicing regulators have been tightly associated with cancer development, largely drawing scientific attention. Although a plethora of single proteins, ribonucleoproteins, complexed RNAs, and short RNA sequences have emerged as nodal contributors to the splicing cascade, the role of RNA secondary structures in warranting splicing fidelity has been underestimated. Recent studies have leveraged the establishment of novel high-throughput methodologies and bioinformatic tools to shed light on an additional layer of splicing regulation in the context of RNA structural elements. This short review focuses on the most recent available data on splicing mechanism regulation on the basis of RNA secondary structure, emphasizing the importance of the complex RNA G-quadruplex structures (rG4s), and other specific RNA motifs identified as splicing silencers or enhancers. Moreover, it intends to provide knowledge on newly established techniques that allow the identification of RNA structural elements and highlight the potential to develop new RNA-oriented therapeutic strategies against cancer. [ABSTRACT FROM AUTHOR]

Published

2023

2. Ceramide Metabolism Enzymes—Therapeutic Targets against Cancer.

Author

Gomez-Larrauri, Ana, Adhikari, Upasana Das, Aramburu-Nuñez, Marta, Custodia, Antía, and Ouro, Alberto

Subjects

CERAMIDES, LIPID metabolism, CELL physiology, CELL death, ANTINEOPLASTIC agents

Abstract

Sphingolipids are both structural molecules that are essential for cell architecture and second messengers that are involved in numerous cell functions. Ceramide is the central hub of sphingolipid metabolism. In addition to being the precursor of complex sphingolipids, ceramides induce cell cycle arrest and promote cell death and inflammation. At least some of the enzymes involved in the regulation of sphingolipid metabolism are altered in carcinogenesis, and some are targets for anticancer drugs. A number of scientific reports have shown how alterations in sphingolipid pools can affect cell proliferation, survival and migration. Determination of sphingolipid levels and the regulation of the enzymes that are implicated in their metabolism is a key factor for developing novel therapeutic strategies or improving conventional therapies. The present review highlights the importance of bioactive sphingolipids and their regulatory enzymes as targets for therapeutic interventions with especial emphasis in carcinogenesis and cancer dissemination. [ABSTRACT FROM AUTHOR]

Published

2021