Abstract
MicroRNAs are important regulators of developmental gene expression, but their contribution to fetal gonad development is not well understood. We have identified the evolutionarily conserved gonadal microRNAs miR-202-5p and miR-202-3p as having a potential role in regulating mouse embryonic gonad differentiation. These microRNAs are expressed in a sexually dimorphic pattern as the primordial XY gonad differentiates into a testis, with strong expression in Sertoli cells. In vivo, ectopic expression of pri-miR-202 in XX gonads did not result in molecular changes to the ovarian determination pathway. Expression of the primary transcript of miR-202-5p/3p remained low in XY gonads in a conditional Sox9-null mouse model, suggesting that pri-miR-202 transcription is downstream of SOX9, a transcription factor that is both necessary and sufficient for male sex determination. We identified the pri-miR-202 promoter that is sufficient to drive expression in XY but not XX fetal gonads ex vivo. Mutation of SOX9 and SF1 binding sites reduced ex vivo transactivation of the pri-miR-202 promoter, demonstrating that pri-miR-202 may be a direct transcriptional target of SOX9/SF1 during testis differentiation. Our findings indicate that expression of the conserved gonad microRNA, miR-202-5p/3p, is downstream of the testis-determining factor SOX9, suggesting an early role in testis development.
Original language | English |
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Article number | 34 |
Journal | Biology of Reproduction |
Volume | 89 |
Issue number | 2 |
Pages (from-to) | 1-12 |
ISSN | 0006-3363 |
DOIs | |
Publication status | Published - 2013 |
Externally published | Yes |
Keywords
- REPRODUCTIVE
- MAMMALIAN SEX DETERMINATION
- SRY-RELATED GENE
- CAMPOMELIC DYSPLASIA
- GONADAL DEVELOPMENT
- FUNCTIONAL-ANALYSIS
- MIRNA EXPRESSION
- SOMATIC-CELLS
- IN-VIVO
- MICE
- TRANSCRIPTION
- microRNAs
- mouse gonad development
- testis differentiation
- transcriptional regulation
- transgenic mice
- cell differentiation
- organogenesis
- sex determination
- Rodentia Mammalia Vertebrata Chordata Animalia (Animals, Chordates, Mammals, Nonhuman Vertebrates, Nonhuman Mammals, Rodents, Vertebrates) - Muridae [86375] mouse common embryo male transgenic, strain-C57BL/6, strain-CD1
- mouse miR-202-3p gene [Muridae] expression, transcript
- mouse miR-202-5p gene [Muridae] expression, transcript
- mouse pri-miR-202 gene [Muridae] promoter, transcription, expression
- mouse Sox9 gene [Muridae] expression
- miR-202-5p/3p expression
- SOX9 regulation
- 02506, Cytology - Animal
- 03502, Genetics - General
- 03506, Genetics - Animal
- 16504, Reproductive system - Physiology and biochemistry
- 17002, Endocrine - General
- 17006, Endocrine - Gonads and placenta
- 25502, Development and Embryology - General and descriptive
- Biochemistry and Molecular Biophysics
- Chemical Coordination and Homeostasis
- Reproduction
- gonad reproductive system, endocrine system
- Sertoli cell reproductive system
- testis reproductive system
- Endocrine System
- Molecular Genetics
- Reproductive System
- microRNA
- microRNA 202 3p
- microRNA 202 5p
- transcription factor
- transcription factor SF1
- transcription factor Sox9
- unclassified drug
- MIRN202 microRNA, mouse
- Sox9 protein, mouse
- animal experiment
- article
- binding site
- embryo
- ex vivo study
- gene mutation
- gonad development
- in vivo study
- karyotype 46,XX
- karyotype 46,XY
- knockout mouse
- male
- mouse
- nonhuman
- priority journal
- protein expression
- protein function
- regulatory mechanism
- Sertoli cell
- sex difference
- testis development
- animal
- cytology
- gene expression regulation
- genetic transcription
- genetics
- metabolism
- prenatal development
- promoter region
- sex differentiation
- testis
- transgenic mouse
- Animals
- Cell Differentiation
- Gene Expression Regulation, Developmental
- Male
- Mice
- Mice, Knockout
- MicroRNAs
- Organogenesis
- Promoter Regions, Genetic
- Sertoli Cells
- Sex Differentiation
- SOX9 Transcription Factor
- Testis
- Transcription, Genetic
- Mouse gonad development
- Testis differentiation
- Transcriptional regulation
- Transgenic mice