Medical Sciences Commons^™

Persistant Gata2 Expression Promotes Self-Renewal Of Myeloid Progenitors And Blocks Lymphoid Differentiation., Satish Kumar Nandakumar

Theses and Dissertations (ETD)

The transcription factor GATA2 is highly expressed in hematopoietic stem cells (HSCs) and is downregulated during differentiation. Overexpression of GATA2 is frequently observed in acute myeloid leukemia. In previous studies, enforced expression of GATA2 using a MSCV GATA2 retroviral vector blocked differentiation of HSC and progenitors without inducing leukemia. We hypothesized that a lower dose of GATA2 can relieve the HSC block and eventually transform myeloid progenitors into leukemia stem cells. To test this hypothesis we generated a MSCV GATA2-ERT vector in which nuclear concentration of GATA2 can be regulated by Tamoxifen (TAM). The GATA2-ERT protein was confirmed to leak …

Characterizing Purkinje Cell Responses And Cerebellar Influence On Fluid Licking In The Mouse, Jeri Lonece Bryant

Theses and Dissertations (ETD)

Rodents consume water by performing stereotypical, rhythmic licking movements which are believed to be driven by central pattern generating circuits located in the brainstem. Temporal aspects of rhythmic licking behavior have been shown to be represented in the olivo-cerebellar system in the form of population complex spike activity. These findings suggest that the olivo-cerebellar system is involved in the generating circuitry responsible for licking rhythm in rodents. However, the representation of licking in the simple spike activity of Purkinje cells and the consequences of loss of cerebellar function on licking behavior has not been quantified. I investigated the influence of …

Multiscale Genomic Analysis Of The Corticolimbic System: Uncovering The Molecular And Anatomic Substrates Of Anxiety-Related Behavior, Khyobeni Mozhui

Theses and Dissertations (ETD)

Genetic diversity generates variation at multiple phenotypic levels, ranging from the most basic molecular to higher-order cognitive and behavioral traits. The far-reaching impact that genes have on higher traits is apparent in several neuropsychiatric conditions such as stress and anxiety disorders. Like most, if not all, neural phenotypes, stress, anxiety, and other emotion-related traits are extremely complex and are defined by the interplay of multiple genetic, environmental, experiential, and epigenetic factors.

The work presented in this dissertation is a multi-scalar, integrative analysis of the molecular and neuroanatomic substrates that underlie emotion-related behavior. The amygdala is a principle component of the …