TY - JOUR T1 - Paternal exposure to DDT programs breast cancer development in daughters via sperm miRNA in a mouse model JF - bioRxiv DO - 10.1101/2020.03.23.004135 SP - 2020.03.23.004135 AU - Raquel Santana da Cruz AU - Hong Cao AU - Camile C. Fontelles AU - Apsra Nasir AU - Alexandra Krebs AU - M. Idalia Cruz AU - Lu Jin AU - Sonia de Assis Y1 - 2020/01/01 UR - http://biorxiv.org/content/early/2020/03/25/2020.03.23.004135.abstract N2 - Background DNA sequence accounts for the majority of disease heritability, including cancer. However, it is becoming clear that environmentally-induced epigenetic inheritance can also occur. Epidemiological studies have shown that maternal exposure to the pesticide DDT in pregnancy is associated with increased breast cancer risk in women. Yet, the effects of paternal exposure to this pesticide on the progeny’s breast cancer development has not been investigated.Methods Male mice (c57bl/6) were exposed to DDT or to a control-vehicle (CO) solution and used for sperm collection or mating with unexposed females to produce the DDT or CO daughters. In another experiment, normal mouse embryos (zygote stage) were injected with miRNA-10b and implanted into surrogate mothers to produce miR-10b offspring. DDT daughters or miRNA-10b females were used to study breast cancer development and metabolic parameters. Paternal sperm was used for RNA-seq analysis and miRNA expression levels.Results Pre-conception paternal DDT exposure altered the sperm small non-coding RNA load, with a notable increase in miRNA-10b levels. DDT offspring weighed less at birth and at weaning, but became overweight and showed metabolic dysfunction in adulthood compared to CO. DDT daughters also showed increased mammary tumorigenesis, developing more aggressive tumors that grew faster than in CO. This tumor phenotype was linked to suppression of the AMPK energy sensing pathway and mTOR activation in mammary tissues. Remarkably, embryonic injection of miRNA-10b recapitulated the mammary gland and tumor phenotypes observed in DDT daughters.Conclusions To our knowledge, this is the first report of an association between paternal DDT exposure and breast cancer in offspring. Paternal DDT-induced programming of breast cancer development in daughters is mechanistically linked to sperm miRNA-10b. The impact of DDT and other endocrine disrupting chemicals on sperm and programming of breast and other cancers in offspring needs to be evaluated in humans. ER -