Dhr96[1] Mutation and Maternal Tudor[1] Mutation Increase Life Span and Reduce the Beneficial Effects of Mifepristone in Mated Female Drosophila

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2023 Dec 21

PMID 38127988

Authors

Gary N Landis

Hans S Bell

Oscar Peng

Brett Bognar

Andy Tong

Tomas D Manea

Hanmei Bao

Xianlin Han

John Tower

Affiliations

Soon will be listed here.

Abstract

Mating and receipt of male Sex Peptide hormone cause increased egg laying, increased midgut size and decreased life span in female Drosophila. Feeding mated females with the synthetic steroid mifepristone decreases egg production, reduces midgut size, and increases life span. Here, several gene mutations were assayed to investigate possible mechanisms for mifepristone action. Drosophila Dhr96 is a hormone receptor, and a key positive regulator of midgut lipid uptake and metabolism. Dhr96[1] null mutation increased female life span, and reduced the effects of mifepristone on life span, suggesting that Dhr96[1] mutation and mifepristone may act in part through the same mechanism. Consistent with this idea, lipidomics analysis revealed that mating increases whole-body levels of triglycerides and fatty-acids in triglycerides, and these changes are reversed by mifepristone. Maternal tudor[1] mutation results in females that lack the germ-line and produce no eggs. Maternal tudor[1] mutation increased mated female life span, and reduced but did not eliminate the effects of mating and mifepristone on life span. This indicates that decreased egg production may be related to the life span benefits of mifepristone, but is not essential. Mifepristone increases life span in w[1118] mutant mated females, but did not increase life span in w[1118] mutant virgin females. Mifepristone decreased egg production in w[1118] mutant virgin females, indicating that decreased egg production is not sufficient for mifepristone to increase life span. Mifepristone increases life span in virgin females of some, but not all, white[+] and mini-white[+] strains. Backcrossing of mini-white[+] transgenes into the w[1118] background was not sufficient to confer a life span response to mifepristone in virgin females. Taken together, the data support the hypothesis that mechanisms for mifepristone life span increase involve reduced lipid uptake and/or metabolism, and suggest that mifepristone may increase life span in mated females and virgin females through partly different mechanisms.

Citing Articles

Mifepristone and rapamycin have non-additive benefits for life span in mated female .

Landis G, Baybutt B, Das S, Fan Y, Olsen K, Yan K Fly (Austin). 2024; 18(1):2419151.

PMID: 39440794 PMC: 11514543. DOI: 10.1080/19336934.2024.2419151.

Conditional Inhibition of Eip75B Eliminates the Effects of Mating and Mifepristone on Lifespan in Female .

Landis G, Bell H, Peng O, Fan Y, Yan K, Baybutt B Cells. 2024; 13(13.

PMID: 38994975 PMC: 11240670. DOI: 10.3390/cells13131123.

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