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Brain transcriptome profiles in mouse model simulating features of post-traumatic stress disorder.

Muhie S, Gautam A, Meyerhoff J, Chakraborty N, Hammamieh R, Jett M - Mol Brain (2015)

Bottom Line: Pathways and biological processes associated with differentially regulated genes were mainly those thought to be involved in fear-related behavioral responses and neuronal signaling.Signaling pathways associated with PTSD-comorbid conditions, such as diabetes, metabolic disorder, inflammation and cardiac infarction, were also significantly enriched.Our data suggests activations of behavioral responses associated with anxiety disorders as well as inhibition of neuronal signaling pathways important for neurogenesis, cognition and extinction of fear memory.

View Article: PubMed Central - PubMed

Affiliation: Advanced Biomedical Computing Center, Frederick National Lab for Cancer Research, Fort Detrick, MD, 21702, USA. seid.muhie@nih.gov.

ABSTRACT

Background: Social-stress mouse model, based on the resident-intruder paradigm was used to simulate features of human post-traumatic stress disorder (PTSD). The model involved exposure of an intruder (subject) mouse to a resident aggressor mouse followed by exposure to trauma reminders with rest periods. C57BL/6 mice exposed to SJL aggressor mice exhibited behaviors suggested as PTSD-in-mouse phenotypes: intermittent freezing, reduced locomotion, avoidance of the aggressor-associated cue and apparent startled jumping. Brain tissues (amygdala, hippocampus, medial prefrontal cortex, septal region, corpus striatum and ventral striatum) from subject (aggressor exposed: Agg-E) and control C57BL/6 mice were collected at one, 10 and 42 days post aggressor exposure sessions. Transcripts in these brain regions were assayed using Agilent's mouse genome-wide arrays.

Results: Pathways and biological processes associated with differentially regulated genes were mainly those thought to be involved in fear-related behavioral responses and neuronal signaling. Expression-based assessments of activation patterns showed increased activations of pathways related to anxiety disorders (hyperactivity and fear responses), impaired cognition, mood disorders, circadian rhythm disruption, and impaired territorial and aggressive behaviors. In amygdala, activations of these pathways were more pronounced at earlier time-points, with some attenuation after longer rest periods. In hippocampus and medial prefrontal cortex, activation patterns were observed at later time points. Signaling pathways associated with PTSD-comorbid conditions, such as diabetes, metabolic disorder, inflammation and cardiac infarction, were also significantly enriched. In contrast, signaling processes related to neurogenesis and synaptic plasticity were inhibited.

Conclusions: Our data suggests activations of behavioral responses associated with anxiety disorders as well as inhibition of neuronal signaling pathways important for neurogenesis, cognition and extinction of fear memory. These pathways along with comorbid-related signaling pathways indicate the pervasive and multisystem effects of aggressor exposure in mice, potentially mirroring the pathologic conditions of PTSD patients.

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Pathways and biological processes significantly associated with transcripts (with p-value < 0.01, and fold change > 2.0) shown in Figure8. Sizes of the hollow-pie sectors were proportional to the number of transcripts associated with that particular pathway or process. Gene expression related processes such as activities of zinc finger protein transcription factors, and splice variant processing were associated with larger numbers of transcripts (and many of these were also shared with pathways related to trauma/fear related behavioral responses).
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Fig9: Pathways and biological processes significantly associated with transcripts (with p-value < 0.01, and fold change > 2.0) shown in Figure8. Sizes of the hollow-pie sectors were proportional to the number of transcripts associated with that particular pathway or process. Gene expression related processes such as activities of zinc finger protein transcription factors, and splice variant processing were associated with larger numbers of transcripts (and many of these were also shared with pathways related to trauma/fear related behavioral responses).

Mentions: A large portions of these sets of transcripts were associated with splice variant processing and activities of zinc finger transcription factors (Figure 9 and Additional file 3: Table S2). Many of these transcripts were also shared also with those transcripts suggested to be involved in traumatic disorders and comorbid conditions (Figure 9 and Additional file 3: Table S2).Figure 9


Brain transcriptome profiles in mouse model simulating features of post-traumatic stress disorder.

Muhie S, Gautam A, Meyerhoff J, Chakraborty N, Hammamieh R, Jett M - Mol Brain (2015)

Pathways and biological processes significantly associated with transcripts (with p-value < 0.01, and fold change > 2.0) shown in Figure8. Sizes of the hollow-pie sectors were proportional to the number of transcripts associated with that particular pathway or process. Gene expression related processes such as activities of zinc finger protein transcription factors, and splice variant processing were associated with larger numbers of transcripts (and many of these were also shared with pathways related to trauma/fear related behavioral responses).
© Copyright Policy - open-access
Related In: Results  -  Collection

License 1 - License 2
Show All Figures
getmorefigures.php?uid=PMC4359441&req=5

Fig9: Pathways and biological processes significantly associated with transcripts (with p-value < 0.01, and fold change > 2.0) shown in Figure8. Sizes of the hollow-pie sectors were proportional to the number of transcripts associated with that particular pathway or process. Gene expression related processes such as activities of zinc finger protein transcription factors, and splice variant processing were associated with larger numbers of transcripts (and many of these were also shared with pathways related to trauma/fear related behavioral responses).
Mentions: A large portions of these sets of transcripts were associated with splice variant processing and activities of zinc finger transcription factors (Figure 9 and Additional file 3: Table S2). Many of these transcripts were also shared also with those transcripts suggested to be involved in traumatic disorders and comorbid conditions (Figure 9 and Additional file 3: Table S2).Figure 9

Bottom Line: Pathways and biological processes associated with differentially regulated genes were mainly those thought to be involved in fear-related behavioral responses and neuronal signaling.Signaling pathways associated with PTSD-comorbid conditions, such as diabetes, metabolic disorder, inflammation and cardiac infarction, were also significantly enriched.Our data suggests activations of behavioral responses associated with anxiety disorders as well as inhibition of neuronal signaling pathways important for neurogenesis, cognition and extinction of fear memory.

View Article: PubMed Central - PubMed

Affiliation: Advanced Biomedical Computing Center, Frederick National Lab for Cancer Research, Fort Detrick, MD, 21702, USA. seid.muhie@nih.gov.

ABSTRACT

Background: Social-stress mouse model, based on the resident-intruder paradigm was used to simulate features of human post-traumatic stress disorder (PTSD). The model involved exposure of an intruder (subject) mouse to a resident aggressor mouse followed by exposure to trauma reminders with rest periods. C57BL/6 mice exposed to SJL aggressor mice exhibited behaviors suggested as PTSD-in-mouse phenotypes: intermittent freezing, reduced locomotion, avoidance of the aggressor-associated cue and apparent startled jumping. Brain tissues (amygdala, hippocampus, medial prefrontal cortex, septal region, corpus striatum and ventral striatum) from subject (aggressor exposed: Agg-E) and control C57BL/6 mice were collected at one, 10 and 42 days post aggressor exposure sessions. Transcripts in these brain regions were assayed using Agilent's mouse genome-wide arrays.

Results: Pathways and biological processes associated with differentially regulated genes were mainly those thought to be involved in fear-related behavioral responses and neuronal signaling. Expression-based assessments of activation patterns showed increased activations of pathways related to anxiety disorders (hyperactivity and fear responses), impaired cognition, mood disorders, circadian rhythm disruption, and impaired territorial and aggressive behaviors. In amygdala, activations of these pathways were more pronounced at earlier time-points, with some attenuation after longer rest periods. In hippocampus and medial prefrontal cortex, activation patterns were observed at later time points. Signaling pathways associated with PTSD-comorbid conditions, such as diabetes, metabolic disorder, inflammation and cardiac infarction, were also significantly enriched. In contrast, signaling processes related to neurogenesis and synaptic plasticity were inhibited.

Conclusions: Our data suggests activations of behavioral responses associated with anxiety disorders as well as inhibition of neuronal signaling pathways important for neurogenesis, cognition and extinction of fear memory. These pathways along with comorbid-related signaling pathways indicate the pervasive and multisystem effects of aggressor exposure in mice, potentially mirroring the pathologic conditions of PTSD patients.

Show MeSH
Related in: MedlinePlus