Your search keyword '"Losick, Vicki P."' showing total 3 results

1. A Drosophila Model to Study Wound-induced Polyploidization.

Author

Bailey EC, Dehn AS, Gjelsvik KJ, Besen-McNally R, and Losick VP

Subjects

Animals, Drosophila Proteins genetics, Drosophila melanogaster genetics, Polyploidy

Abstract

Polyploidy is a frequent phenomenon whose impact on organismal health and disease is still poorly understood. A cell is defined as polyploid if it contains more than the diploid copy of its chromosomes, which is a result of endoreplication or cell fusion. In tissue repair, wound-induced polyploidization (WIP) has been found to be a conserved healing strategy from fruit flies to vertebrates. WIP has several advantages over cell proliferation, including resistance to oncogenic growth and genotoxic stress. The challenge has been to identify why polyploid cells arise and how these unique cells function. Provided is a detailed protocol to study WIP in the adult fruit fly epithelium where polyploid cells are generated within 2 days after a puncture wound. Taking advantage of D. melanogaster's extensive genetic tool kit, the genes required to initiate and regulate WIP, including Myc, have begun to be identified. Continued studies using this method can reveal how other genetic and physiological variables including sex, diet, and age regulate and influence WIP's function.

Published

2020

2. Drosophila as a model to study wound-induced polyploidization

Author

Bailey, Erin C., Dehn, Ari S., Gjelsvik, Kayla J., Besen-McNally, Rose, and Losick, Vicki P.

Subjects

Polyploidy, Drosophila melanogaster, fungi, food and beverages, Animals, Drosophila Proteins, Article

Abstract

Polyploidy is a frequently occurring phenomenon whose impact on organismal health and disease is still poorly understood. A cell is defined as polyploid if it contains more than the diploid copy of its chromosomes, which occurs by endoreplication or cell fusion. In tissue repair, wound-induced polyploidization (WIP) has been found to be a conserved healing strategy from fruit flies to vertebrates. WIP has several advantages over cell proliferation including resistance to oncogenic growth and genotoxic stress. The challenge has been to faithfully identify whether polyploid cells arise and how these unique cells function. Here we provide a detailed protocol to study WIP in the adult fruit fly epithelium where polyploid cells are generated within two days after a puncture wound. Taking advantage of D. melanogaster’s extensive genetic tool kit, the genes required to initiate and regulate WIP, including Myc, have begun to be identified. Continued studies using this method with reveal how other genetic and physiological cues including sex, diet, and age regulate and influence WIP’s function.

Published

2020

3. Wound-Induced Polyploidization: Regulation by Hippo and JNK Signaling and Conservation in Mammals.

Author

Losick, Vicki P., Jun, Albert S., and Spradling, Allan C.

Subjects

*JNK mitogen-activated protein kinases, *CELLULAR signal transduction, *CELL differentiation, *TISSUE engineering, *SINGLE cell proteins

Abstract

Tissue integrity and homeostasis often rely on the proliferation of stem cells or differentiated cells to replace lost, aged, or damaged cells. Recently, we described an alternative source of cell replacement- the expansion of resident, non-dividing diploid cells by ound-nduced olyploidization (WIP). Here we show that the magnitude of WIP is proportional to the extent of cell loss using a new semi-automated assay with single cell resolution. Hippo and JNK signaling regulate WIP; unexpectedly however, JNK signaling through AP-1 limits rather than stimulates the level of Yki activation and polyploidization in the Drosophila epidermis. We found that polyploidization also quantitatively compensates for cell loss in a mammalian tissue, mouse corneal endothelium, where increased cell death occurs with age in a mouse model of Fuchs Endothelial Corneal Dystrophy (FECD). Our results suggest that WIP is an evolutionarily conserved homeostatic mechanism that maintains the size and synthetic capacity of adult tissues. [ABSTRACT FROM AUTHOR]

Published

2016