THE MEMBRANE BLOCK TO POLYSPERMY IN MAMMALIAN EGGS; ANALYSES OF CALCIUM SIGNALING AND ACTIN DYNAMICS DURING FERTILIZATION

Nicole Leigh Branca (15353446)

27 April 2023

<p>    </p> <p>When mammalian eggs are fertilized, they undergo an egg-to-embryo transition during which different egg activation events take place. Egg activation events include the establishment of blocks to polyspermy, which prevent multiple sperm from fertilizing an egg. One of these blocks to polyspermy occurs at the level of the egg plasma membrane (the membrane block to polyspermy). Previous work in our lab provides evidence that the mammalian membrane block to polyspermy is mediated by sperm-induced calcium signaling and the egg’s actomyosin cytoskeleton (McAvey et al., 2002). This thesis research builds upon this foundation, testing hypotheses about two specific effector molecules, one involved in calcium signaling and one with the actin cytoskeleton, and also developing the use of an actin probe for live-cell imaging, with the goal of imaging actin dynamics in eggs undergoing fertilization. Specifically, we examined the calcium effector molecule Ca2+/Calmodulin-dependent-protein kinase IIg (<strong>CaMKII</strong>g), based on previous studies showing that CaMKII plays a role in the membrane block (Gardner et al., 2007) and that the g isoform of CaMKII is necessary and sufficient for eggs to complete meiosis (Backs et al., 2010). We tested the hypothesis that CaMKIIg would mediate the membrane block to polyspermy but found that egg activation driven by expression of a constitutively active form of CaMKIIg was not sufficient to establish the membrane block. Our studies of the actin cytoskeleton focused on the Arp2/3 complex as a candidate. We tested the hypothesis that Arp2/3, which mediates actin filament branching, was involved in membrane block establishment, building on the finding that disruption of actin with the drug cytochalasin D impairs the membrane block (McAvey et al., 2022). These studies used the Arp2/3 inhibitor CK666, predicting that we would see increased sperm incorporation in CK666-treated eggs. However, an assay of sperm incorporation over time indicated that Arp2/3 may not play a significant role in the membrane block to polyspermy, although follow-up studies will be beneficial. Lastly, the actin probe SiR- Actin was assessed for use on oocytes undergoing live-cell imaging during meiosis I and II. Oocytes were treated with differing concentrations of SiR-Actin and live cell imaged while maturing through meiosis I or completing meiosis II. Higher doses and longer exposure to SiR- Actin caused abnormalities in oocytes during meiosis I but not in eggs completing meiosis II. Together, this work sets the stage of a range of future studies into the mammalian membrane block to polyspermy. </p>

Reproduction

Membrane Block to Polyspermy

mammalian fertilization

ARP2/3 complex

CaMKII y

Calcium signaling

actin cytoskeletal dynamics

Oocyte Meiosis

SiR-Actin

actin probes

Live cell imaging analysis

Advances in the stochastic and deterministic analysis of multistable biochemical networks

Petrides, Andreas

January 2018

This dissertation is concerned with the potential multistability of protein concentrations in the cell that can arise in biochemical networks. That is, situations where one, or a family of, proteins may sit at one of two or more different steady state concentrations in otherwise identical cells, and in spite of them being in the same environment. Models of multisite protein phosphorylation have shown that this mechanism is able to exhibit unlimited multistability. Nevertheless, these models have not considered enzyme docking, the binding of the enzymes to one or more substrate docking sites, which are separate from the motif that is chemically modified. Enzyme docking is, however, increasingly being recognised as a method to achieve specificity in protein phosphorylation and dephosphorylation cycles. Most models in the literature for these systems are deterministic i.e. based on Ordinary Differential Equations, despite the fact that these are accurate only in the limit of large molecule numbers. For small molecule numbers, a discrete probabilistic, stochastic, approach is more suitable. However, when compared to the tools available in the deterministic framework, the tools available for stochastic analysis offer inadequate visualisation and intuition. We firstly try to bridge that gap, by developing three tools: a) a discrete `nullclines' construct applicable to stochastic systems - an analogue to the ODE nullcines, b) a stochastic tool based on a Weakly Chained Diagonally Dominant M-matrix formulation of the Chemical Master Equation and c) an algorithm that is able to construct non-reversible Markov chains with desired stationary probability distributions. We subsequently prove that, for multisite protein phosphorylation and similar models, in the deterministic domain, enzyme docking and the consequent substrate enzyme-sequestration must inevitably limit the extent of multistability, ultimately to one steady state. In contrast, bimodality can be obtained in the stochastic domain even in situations where bistability is not possible for large molecule numbers. We finally extend our results to cases where we have an autophosphorylating kinase, as for example is the case with $Ca^{2+}$/calmodulin-dependent protein kinase II (CaMKII), a key enzyme in synaptic plasticity.

Über die differentielle Regulation von Ionenkanälen in spezifischen Nanodomänen atrialer und ventrikulärer Kardiomyozyten / Differential Regulation of Ion Channels in Specific Nanodomains of Atrial and Ventricular Cardiomyocytes

Brandenburg, Sören

29 June 2017

No description available.

610

Kardiomyozyte

Atrium

Ventrikel

Axialer Tubulus

T-Tubulus

Transversal-axiales Tubulussystem

TATS

Ryanodinrezeptor

RyR2

Calciumkanal

Cav1.2

Proteinkinase A

PKA

Calcium/Calmodulin-abhängige Kinase II

CaMKII

Calciumfreisetzung

Calcium Sparks

hochphosphoryliert

Super-hub

beta-adrenerge Stimulation

Aortenstenose

TAC

ATP-sensitive Kaliumkanäle

KATP

Coatomer

COPI

14-3-3

Arg-basiertes Retentionssignal

Cardiomyocyte

Atrium

Ventricle

Axial tubule

T-tubule

TATS

Ryanodin receptor

RyR2

Calcium channel

Cav1.2

Protein kinase A

PKA

Calcium/calmodulin-dependent kinase II

Calcium release

Calcium sparks

highly-phosphorylated

Super-hub

Beta-adrenergic stimulation

Transverse-axial tubule system

Aortic stenosis

TAC

ATP-sensitive potassium channels

KATP

Coatomer

COPI

14-3-3

Arg-based retrieval signal

CaMKII

Medizin (PPN619874732)

Kardiologie (PPN619875755)

Physiologische Chemie

Biochemie

Physiologie

DISTINCT ROLES OF THE aD HELIX IN aCAMKII ACTIVATION CHARACTERIZED USING A DE NOVO MUTATION FROM CHILDREN WITH LEARNING DISABILITIES

Walter Saide (16650807)

07 August 2023

<p>This dissertation describes the effects of a <i>de novo</i> mutation of CaMKII found in children with learning disabilities and describes its effect on catalytic activity. We develop a malachite green assay for the measurement of CaMKII activation and use it for high-throughput chemical screening to identify CaMKII inhibitors and enhancers. We also propose a new mechanism of regulation of CaMKII activity by ADP.</p><p><br></p>

Cell neurochemistry

Enzymes

Basic pharmacology

Biologically active molecules

Biomolecular modelling and design

Proteins and peptides

Catalysis and mechanisms of reactions

Reaction kinetics and dynamics

CaMKII α

learning and memory impairment

calmodulin

calcium signaling

kinase activity

medicinal chemistry

molecular pharmacology

enzyme kinetics

western blotting

biochemistry

molecular modeling

high throughput chemical screening

assay development

protein structure

enzyme coupled assays

malachite green assay

cellular biology

fluorescence microscopy

hplc

lc-ms/ms

autophosphorylation

ATP:ADP ratios