Compensation Between Foxp Transcription Factors Maintains Proper Striatal Function

dc.contributor.advisorTsai, Peteren
dc.contributor.committeeMemberChahrour, Mariaen
dc.contributor.committeeMemberRoberts, Todden
dc.contributor.committeeMemberKonopka, Genevieveen
dc.creatorAhmed, Newaz Ibrahimen
dc.creator.orcid0000-0002-8932-5877
dc.date.accessioned2023-09-14T22:29:20Z
dc.date.available2023-09-14T22:29:20Z
dc.date.created2023-08
dc.date.issuedAugust 2023
dc.date.submittedAugust 2023
dc.date.updated2023-09-14T22:29:21Z
dc.description.abstractSpiny projection neurons (SPNs) of the striatum are critical in integrating neurochemical information to coordinate motor and reward-based behavior. Mutations in the regulatory transcription factors expressed in SPNs can result in neurodevelopmental disorders (NDDs). Paralogous transcription factors Foxp1 and Foxp2, which are both expressed in the dopamine receptor 1 (D1) expressing SPNs, are known to have variants implicated in NDDs. Paralogous transcription factors are thought to have the ability to compensate for each other and previous work published by the lab supports the hypothesis that Foxp1 and Foxp2 have compensatory roles in D1 SPNs as well. For my dissertation work, I utilized mice with a D1-SPN specific loss of Foxp1, Foxp2, or both and a combination of behavior, electrophysiology, and cell type specific genomic analysis to address if there was compensation occurring. It is only upon the loss of both genes that motor behavior was impaired whereas Foxp1 mediated social behavior impairments were exacerbated upon the further loss of Foxp2 (Chapter Two). I also found that while loss of Foxp1 resulted in KLeak mediated hyperexcitability of D1-SPNs, this too was further impaired with the additional loss of Foxp2 (Chapter Three). Viral mediated re-expression of Foxp1 in the double knockouts was sufficient to restore both behavioral and electrophysiological impairments to baseline. I further studied the contribution of Foxp1 and Foxp2 to regulation of downstream targets genes using single-nuclei RNA-seq and found that in both juvenile and adult D1-SPNs, loss of both transcription factors resulted in differential expression of hundreds of genes (Chapter Four). I was able to use these experiments to also investigate how loss of these transcription factors from the D1-SPNs impacted gene expression in other cell-types (Chapter Five). I also utilized single-nuclei ATAC-Seq and again found that loss of both genes resulted in large scale dysregulation of chromatin state not seen in the single knockouts, including in regions enriched for Fox motifs (Chapter Six). I also began to address the open question of what the direct binding targets of Foxp1 and Foxp2 are using the newly developed CUT&RUN technique (Chapter Seven). The findings from my experiments point towards a form of compensation between Foxp1 and Foxp2 where one transcription factor maintains striatal function upon the loss of the other, which I discuss more in depth (Chapter Eight). I also discuss my involvement in a project where we further study the role of Foxp1 in D1- and D2-SPNs, which I am working on in collaboration with Dr. Nitin Khandelwal (Chapter Nine). I conclude by discussing the implications of my findings and suggest recommendations for further study (Chapter Ten).en
dc.format.mimetypeapplication/pdfen
dc.identifier.urihttps://hdl.handle.net/2152.5/10203
dc.language.isoenen
dc.subjectBasal Gangliaen
dc.subjectCorpus Striatumen
dc.subjectForkhead Transcription Factorsen
dc.subjectGene Expression Regulation, Developmentalen
dc.subjectRepressor Proteinsen
dc.titleCompensation Between Foxp Transcription Factors Maintains Proper Striatal Functionen
dc.typeThesisen
dc.type.materialtexten
thesis.degree.departmentGraduate School of Biomedical Sciencesen
thesis.degree.disciplineNeuroscienceen
thesis.degree.grantorUT Southwestern Medical Centeren
thesis.degree.levelDoctoralen
thesis.degree.nameDoctor of Philosophyen

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