A Role for Notch Pathway Signaling in Amygdala-Dependent Fear Learning Public

Goodman, Jared Vega (2013)

Permanent URL: https://etd.library.emory.edu/concern/etds/1544bp740?locale=fr
Published

Abstract

Fear and anxiety are evolutionarily conserved mental states that are caused by cues that predict aversive stimuli. Each is mediated by the amygdala, a region in the medial temporal lobe that has been implicated in both the storage of emotional memories and the output of their stereotyped behavioral and physiological responses. Previous literature has implicated the developmentally crucial Notch pathway in hippocampal-dependent memory tasks (Conboy et al., 2007). Our work used an auditory fear conditioning paradigm to implicate Notch signaling in amygdala-dependent fear consolidation wherein an auditory cue (CS) is paired with a mild foot-shock (US). The present study shows that ligand (Jag1, Dll1), receptor (Notch1), and effector (Hes5) amygdala mRNA levels are transiently decreased 2 hours after fear conditioning in the CS/US paired group. At 6 hours, Jag1 and Notch1 mRNA levels remained reduced in the paired group. Interestingly, there also is downregulation of each of these genes at the 2-hour time point in a behavioral group that does not result in any associative learning wherein the CS and US are unpaired. The hippocampus also shows decreased Jag1 and Dll1 expression 2 hours after fear conditioning in this same unpaired group, suggestive of an already published role for Notch in contextual fear memory consolidation. Furthermore, a single intraperitoneal injection of γ-secretase inhibitor DAPT (an inhibitor of Notch signaling) after fear training enhances cued and contextual fear memory consolidation. These data suggest a role for Notch pathway signaling in the amygdala during memory consolidation. Specifically, we find that Notch signaling is transiently decreased during fear consolidation and that pharmacological inhibition of the pathway enhances fear learning. We hypothesize that Notch signaling may serve to inhibit synaptic plasticity at baseline, and that transient decreases in Notch signaling serve to permit neural plasticity required for learning. These data provide a convincing base for further study of Notch in amygdala-dependent memory formation.

Table of Contents

Introduction.............................1

Materials and Methods...............8

Results..................................11

Discussion..............................14

References.............................21

Figure 1.................................28

Figure 2.................................29

Figure 3.................................30

Figure 4.................................31

Figure 5.................................32

Figure 6.................................33

Figure 7.................................34

Figure 8.................................35

Figure 9.................................36

Figure 10................................37

Figure 11................................38

Figure 12................................39

Figure 13................................40

Figure 14................................41

Figure 15................................42

Table 1...................................43

Table 2...................................44

Table 3...................................45

Table 4...................................46

About this Honors Thesis

Rights statement
  • Permission granted by the author to include this thesis or dissertation in this repository. All rights reserved by the author. Please contact the author for information regarding the reproduction and use of this thesis or dissertation.
School
Department
Degree
Submission
Language
  • English
Research Field
Mot-clé
Committee Chair / Thesis Advisor
Committee Members
Dernière modification

Primary PDF

Thumbnail Title Date Uploaded Actions
A Role for Notch Pathway Signaling in Amygdala-Dependent Fear Learning () 2018-08-28 14:52:16 -0400

Supplemental Files

Thumbnail Title Date Uploaded Actions