Your search keyword '"Andrea Cosolo"' showing total 4 results

1. Distinct signaling signatures drive compensatory proliferation via S-phase acceleration.

Author

Carlo Crucianelli, Janhvi Jaiswal, Ananthakrishnan Vijayakumar Maya, Liyne Nogay, Andrea Cosolo, Isabelle Grass, and Anne-Kathrin Classen

Subjects

Genetics, QH426-470

Abstract

Regeneration relies on cell proliferation to restore damaged tissues. Multiple signaling pathways activated by local or paracrine cues have been identified to promote regenerative proliferation. How different types of tissue damage may activate distinct signaling pathways and how these differences converge on regenerative proliferation is less well defined. To better understand how tissue damage and proliferative signals are integrated during regeneration, we investigate models of compensatory proliferation in Drosophila imaginal discs. We find that compensatory proliferation is associated with a unique cell cycle profile, which is characterized by short G1 and G2 phases and, surprisingly, by acceleration of the S-phase. S-phase acceleration can be induced by two distinct signaling signatures, aligning with inflammatory and non-inflammatory tissue damage. Specifically, non-autonomous activation of JAK/STAT and Myc in response to inflammatory damage, or local activation of Ras/ERK and Hippo/Yki in response to elevated cell death, promote accelerated nucleotide incorporation during S-phase. This previously unappreciated convergence of different damaging insults on the same regenerative cell cycle program reconciles previous conflicting observations on proliferative signaling in different tissue regeneration and tumor models.

Published

2022

2. DamID profiling of dynamic Polycomb-binding sites in Drosophila imaginal disc development and tumorigenesis

Author

Marco La Fortezza, Giovanna Grigolon, Andrea Cosolo, Alexey Pindyurin, Laura Breimann, Helmut Blum, Bas van Steensel, and Anne-Kathrin Classen

Subjects

DamID, Wing imaginal disc, Polycomb, Scrib, Genetics, QH426-470

Abstract

Abstract Background Tracking dynamic protein–chromatin interactions in vivo is key to unravel transcriptional and epigenetic transitions in development and disease. However, limited availability and heterogeneous tissue composition of in vivo source material impose challenges on many experimental approaches. Results Here we adapt cell-type-specific DamID-seq profiling for use in Drosophila imaginal discs and make FLP/FRT-based induction accessible to GAL driver-mediated targeting of specific cell lineages. In a proof-of-principle approach, we utilize ubiquitous DamID expression to describe dynamic transitions of Polycomb-binding sites during wing imaginal disc development and in a scrib tumorigenesis model. We identify Atf3 and Ets21C as novel Polycomb target genes involved in scrib tumorigenesis and suggest that target gene regulation by Atf3 and AP-1 transcription factors, as well as modulation of insulator function, plays crucial roles in dynamic Polycomb-binding at target sites. We establish these findings by DamID-seq analysis of wing imaginal disc samples derived from 10 larvae. Conclusions Our study opens avenues for robust profiling of small cell population in imaginal discs in vivo and provides insights into epigenetic changes underlying transcriptional responses to tumorigenic transformation.

Published

2018

3. Correction to: DamID profiling of dynamic Polycomb-binding sites in Drosophila imaginal disc development and tumorigenesis

Author

Marco La Fortezza, Giovanna Grigolon, Andrea Cosolo, Alexey Pindyurin, Laura Breimann, Helmut Blum, Bas van Steensel, and Anne-Kathrin Classen

Subjects

Genetics, QH426-470

Abstract

Unfortunately, the original version of this article contained a typographical error in one of the author names. The name of the author Alexey Pindyurin was incorrectly spelt as Alexey Pinduyrin. The correct spelling is included here and has been updated in the original article.

Published

2018

4. Correction to: DamID profiling of dynamic Polycomb-binding sites in Drosophila imaginal disc development and tumorigenesis

Author

Anne-Kathrin Classen, Laura Breimann, Marco La Fortezza, Alexey V. Pindyurin, Andrea Cosolo, Giovanna Grigolon, Helmut Blum, and Bas van Steensel

Subjects

0301 basic medicine, lcsh:Genetics, 03 medical and health sciences, Imaginal disc, 030104 developmental biology, lcsh:QH426-470, Genetics, Profiling (information science), Computational biology, Biology, Molecular Biology, Typographical error

Abstract

Unfortunately, the original version of this article contained a typographical error in one of the author names. The name of the author Alexey Pindyurin was incorrectly spelt as Alexey Pinduyrin. The correct spelling is included here and has been updated in the original article.

Published

2018