Cell and Developmental Biology Commons^™

Stress-Dependent Regulation Of A Major Node Of The Insulin-Like Peptide Network That Modulates Survival, Rashmi Chandra

Wayne State University Dissertations

Chronic stress disrupts insulin signaling, predisposing human populations to diabetes, cardiovascular disease, Alzheimer’s Disease, and other metabolic and neurological disorders, including post-traumatic disorders (PTSD). Thus, efficient recovery from stress optimizes survival. However, stress recovery in humans is difficult to study, but is much easier to dissect in model organisms. The worm genetic model Caenorhabditis elegans can switch between stressed and non-stressed states, and this switch is largely regulated by insulin signaling. Previously, the Alcedo lab proposed that insulin-like peptides (ILPs), which exist as multiple members of a protein family in both C. elegans and humans, implements a combinatorial coding strategy …

Appropriate Preconditioning Of The Uterine Endoplasmic Reticulum Stress Response Inhibits Preterm Labor, Judith Ann Ingles

Wayne State University Dissertations

Introduction: In this study, we are testing the overarching hypothesis that preconditioning the myometrial UPR allows for the maintenance of non-apoptotic CASP3 activity and thus sustains uterine quiescence. We have previously demonstrated that the pregnant uterus facilitates uterine quiescence through UPR mediated activation of non-apoptotic CASP3, yet the mechanism in which CASP3 utilizes to avoid its apoptotic cell fate is unresolved. There is a growing body of evidence including our own that demonstrates remote and direct preconditioning with minor stresses propagates cytoprotective mechanisms that allow for the avoidance of apoptotic cell death upon exposure to a subsequent more damaging stress, …

Regulators Of Ins-6, A Major Node Of The Insulin-Like Peptide Network For Developmental Plasticity, Lisa Li

Wayne State University Theses

In C. elegans, an insulin-like peptide (ILP) network coordinates various physiological

processes, including developmental plasticity, to enhance survival under different environments. During stressful conditions, such as high temperatures, low food and high population density, first-stage larval worms enter an alternative developmental arrest program called dauer. When ideal environmental conditions are restored, worms exit from the dauer stage to go through reproductive adulthood. Different subsets of ILPs regulate the entry into versus the exit from the dauer state. For example, the ILP ins-6 plays a minor role in inhibiting dauer entry from the ASI sensory neurons, but a more primary role …

Unraveling The Genetic Mechanisms Involved In The Evolution And Development Of The Thoracic Appendages In Insects, Victor Medved

Wayne State University Dissertations

Insects display the greatest amount of structural and functional variation among animal groups, particularly in regard to their appendage morphology. These differences can range from the diverse pigmentation patterns between fore- and hindwings to changes in the size and shape of legs. The greatly enlarged jumping hind leg in crickets and grasshoppers is one of the best known illustrations of such diversity, representing a unique feature for the entire order of these insects (Orthoptera). Previous work from our lab has shown that the homeotic gene Ultrabithorax (Ubx) plays a key role in the enlargement of hind legs not only in …

Developmental Evolution Of The Visual System In The Cave-Adapted Small Carrion Beetle Ptomaphagus Hirtus, Jasmina Kulacic

Wayne State University Theses

Extensive research has been done to date on Drosophila and Tribolium eye development; however, not much is known about the molecular basis of development of extremely reduced and modified eyes in cave insects. Ptomaphagus hirtus represents an emerging model system for studying the changes at the molecular level that occurred during the evolutionary adaptation of the eye to the cave environment. Therefore, I have started exploring the morphology and organization of the reduced P. hirtus eyelet, using immunohistochemistry, laser scanning microscopy, and ultrastructural imaging approaches. My findings demonstrate that the adult eyelet lacks ommatidial subdivision and has a thick, clear …

Characterization Of Adult Zebrafish Retinal Regeneration Following Two Different Damage Models, Jennifer Lee Thomas

Wayne State University Dissertations

Unlike mammals, zebrafish can regenerate all of their retinal neurons through Müller glial cells, which respond to retinal damage by re-entering the cell cycle to create clusters of progenitor cells. The progenitors continue to proliferate as they migrate to the site of damage, where they ultimately differentiate into new retinal neurons. In contrast, Müller glia of the mammalian retina respond to injury with reactive gliosis, which if persistent, can lead to loss of Müller cell function and devastating vision loss. Despite this, multiple lines of evidence suggest that mammalian Müller glial cells possess a latent ability to regenerate retinal neurons. …

The Xenopus Lefty (Xlefty) Prodomain Negatively Regulates Xlefty Activity And Is Necessary For Proper Xlefty Secretion, Adrian Amelio Vasquez

Wayne State University Theses

In vertebrates, the TGF #914; superfamily of secreted peptides are stringently regulated since they are responsible for multiple cell processes and behaviors that give rise to the proper patterning of embryonic tissues. Examples of members of the TGF #914; superfamily are Nodal and Lefty. Dysregulation of these proteins can lead to many diseases and developmental syndromes in humans.

Lefty functions by antagonizing Nodal an essential organizer signal that patterns dorsal mesoderm and the embryonic axes. Loss of Lefty expression results in excess Nodal signaling which has been shown to cause several perturbations including metastatic cancer. Although studies have clearly shown …

The Methuselah Family Of G Protein Coupled Receptors, Meghna V. Patel

Wayne State University Dissertations

G protein-coupled receptors (GPCRs) are one of the largest class of transmembrane signaling proteins that regulate essential developmental and physiological processes in a cell. GPCR success is illustrated by their abundance across both invertebrate and vertebrate genomes. Phylogenetic analyses show that GPCR families have undergone a lot of gene gain and loss during insect evolution. In Drosophila melanogaster, the fifteen Methuselah/Methuselah-like (Mth/Mthl) genes are in fact an insect specific family of GPCRs. In our study, we conducted a phylogenetic analysis using receptor sequences from five Drosophila species and two related insects, including Tribolium and Anopheles to examine the evolution of …

Hyperosmotic Stress Enzyme Signaling Modulates Oct4, Nanog, And Rex1 Expression And Induces Prioritized Differentiation Of Murine Embryonic Stem Cells, Jill A. Slater

Wayne State University Dissertations

HYPEROSMOTIC STRESS ENZYME SIGNALING MODULATES OCT4, NANOG,

AND REX1 EXPRESSION AND INDUCES PRIORITIZED DIFFERENTIATION OF

MURINE EMBRYONIC STEM CELLS

by

JILL SLATER

MAY 2013

Advisor: Daniel Rappolee, Ph.D.

Major: Physiology

Degree: Doctor of Philosophy

Transcription factor expression and therefore lineage identity in the periimplantation

embryo and its stem cells may be influenced by extracellular stresses,

potentially affecting pregnancy outcome. Cellular stress forces cells to suppress some

normal activities (such as protein synthesis and cell proliferation) in order to repair

stress-damaged macromolecules and restore homeostasis. Therefore, any new

activities that embryonic cells initiate while concurrently funding the demands of the

stress …

Pax6 Is Required For The Development Of The Lateral Procephalon In Tribolium, Qing Luan

Wayne State University Theses

In Tribolium, combinatorial knockdown of the Pax6 orthologs eyeless (ey) and twin of eyeless (toy) affects the peripheral visual system but also other areas of the dorsal larval head capsule. To elucidate the role of Pax6 genes during Tribolium embryonic head development in detail, we performed an extensive analysis of cuticle

elements, brain anatomy, embryonic head morphogenesis and developmental marker gene expression. Our results reveal that Pax6 is required for the development of a large contiguous area of the lateral anterior head, morphologically addressed as the embryonic head lobes, which encompass the neuroectodermal precursor tissues of the visual system, parts …

Axogial Communication Mediated By Soluble Neuregulin-1 And Bdnf, Zhenzhong Ma

Wayne State University Dissertations

During peripheral nervous system development, successful communication between axons and glial cells including Schwann cells in peripheral nervous system and oligodendrocytes in central nervous system, is required for the proper functions of both neurons and glia. Three types of alternatively-spliced proteins belonging to the neuregulin1 (NRG1) gene family of growth and differentiation factors are essential for Schwann cell survival and peripheral nerve development. While membrane-bound NRG1 forms (type III) has been strongly implicated in the regulation of myelination process at late stage of Schwann cell development, little is known about the role of soluble, heparin-binding forms of NRG1 (type I/II) …

The Cellular And Genetic Mechanisms Underlying Morphological Diversity Of Insects, Nataliya Turchyn

Wayne State University Dissertations

The vast diversity of insect appendages provides an excellent model for examining the cellular and molecular basis of phenotypic changes in nature. One of the hallmarks of evolution of insect appendages is the differential enlargement of hind (T3) legs compared to their fore (T1) and mid (T2) counterparts. While basic information regarding the genetic mechanisms that regulate the size of the T3 legs became available in the past several years, virtually nothing is known about cellular mechanisms involved. To address this issue, we measured the relative mitotic activity (RMA) in Acheta domesticus (house cricket) and Oncopeltus fasciatus (milkweed bug), two …