Oral and injected tamoxifen alter adult hippocampal neurogenesis in female and male mice
Autor: | Patricia Sarchet, Bryon M. Smith, Nidhi Devasthali, Angela I. Saulsbery, Elizabeth D. Kirby, Dalia Einstein |
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Rok vydání: | 2021 |
Předmět: |
medicine.medical_specialty
education.field_of_study medicine.medical_treatment Dentate gyrus Neurogenesis Population Intraperitoneal injection Cre recombinase Biology Endocrinology stomatognathic system Internal medicine Genetic model medicine Progenitor cell skin and connective tissue diseases education hormones hormone substitutes and hormone antagonists Tamoxifen medicine.drug |
DOI: | 10.1101/2021.09.30.462662 |
Popis: | Inducible Cre recombinase facilitates temporal control of genetic recombination in numerous transgenic model systems, a feature which has made it a popular tool for studies of adult neurogenesis. One of the most common forms of inducible Cre, CreERT2, requires activation by the synthetic estrogen tamoxifen (TAM) to initiate recombination of LoxP-flanked sequences. To date, most studies deliver TAM via intraperitoneal injection. But the introduction of TAM-infused commercial chows has recently expanded the possible modes of TAM delivery. Despite the widespread use of TAM-inducible genetic models in adult neurogenesis research, the comparative efficiency and off-target effects of TAM administration protocols is surprisingly infrequently studied. Here we compare a standard, 5 day TAM injection regimen with voluntary consumption of TAM-infused chow. First, we used adult NestinCreERT2;Rosa-LoxP-STOP-LoxP-EYFP reporter mice to show that 2 weeks of TAM chow and 5 days of injections led to LoxP recombination in a similar phenotypic population of neural stem and progenitor cells in the adult dentate gyrus. However, TAM chow resulted in substantially less overall recombination than injections. TAM administration also altered adult neurogenesis, but in different ways depending on administration route: TAM injection disrupted neural progenitor cell proliferation 3 weeks after TAM, whereas TAM chow increased neuronal differentiation of cells generated during the diet period. These findings provide guidance for selection of TAM administration route and appropriate controls in adult neurogenesis studies using TAM-inducible Cre mice. They also highlight the need for better understanding of off-target effects of TAM in other neurological processes and organ systems. |
Databáze: | OpenAIRE |
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