Seeking for potential pathogenic genes of major depressive disorder in the Gene Expression Omnibus database

Feng, Jianhua; Zhou, Qing; Gao, Wenquan; Wu, Yanhua; Mu, Ruibin

doi:10.1111/appy.12379

Cited by 11 publications

(11 citation statements)

References 67 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The Adapter Protein 2 (AP2) complex targets specific membrane-associated proteins for clathrin-mediated endocytosis via its α, β, σ, and µ subunits (Traub and Bonifacino, 2013), and these subunits have been linked to diverse aspects of clinically-relevant behavioral control (Chen et al, 2013; Chinoy et al, 2017; Helbig et al, 2019; Bonnycastle et al, 2021). Expression levels of the AP2β subunit ( AP2B1 ) are altered in the brains of individuals with schizophrenia and major depressive disorder, and AP2 subunit expression is reduced in the brains of untreated individuals with bipolar disorder (Chen et al, 2013; Föcking et al, 2015; Forero et al, 2017; Feng et al, 2020). Mutations disrupting the AP2µ subunit ( AP2M1 ) are associated with severe disruption in cognition and behavior in humans (Helbig et al, 2019), while mutations in the AP2σ subunit ( AP2S1 ) are associated with behavior changes characteristic of autism spectrum disorders, attention hyperactivity disorder, learning disorders, and cognitive dysfunction (Hannan et al, 2015; Chinoy et al, 2017; Szalat et al, 2017; Aashiq et al, 2020; Satterstrom et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

The Adaptor Protein 2 (AP2) complex modulates habituation and behavioral selection across multiple pathways and time windows

Mouret

Greenbaum

Doll

et al. 2022

Preprint

View full text Add to dashboard Cite

Animals constantly perceive and integrate information across sensory modalities, and their nervous systems must select behavioral responses appropriate to the current situation and prior experience. Genetic factors supporting this behavioral flexibility are often disrupted in neuropsychiatric conditions, and our previous work revealed the disease-associated ap2s1 critically supports habituation learning in acoustically-evoked escape behavior of zebrafish. ap2s1 encodes a subunit of the AP2 endocytosis adaptor complex and has been linked to autism spectrum disorder, though its mechanism and direct behavioral importance have not been established. Here, we show that multiple domains and subunits of the AP2 complex regulate acoustically-evoked behavior selection and habituation learning. Furthermore, ap2s1 biases the choice between distinct escape behaviors in sensory modality-specific manners, and more broadly regulates action selection across different sensory contexts. Using tissue-specific and inducible transgenic rescue, we demonstrate that the AP2 complex functions acutely and in the nervous system to modulate acoustically-evoked habituation, identifying at least three spatially and temporally distinct mechanisms through which AP2 regulates different aspects of escape behavior selection and performance. Altogether, we demonstrate that the AP2 complex coordinates action selection across stimulus modalities and contexts, providing a new vertebrate model for the role of ap2s1 in human conditions including autism spectrum disorder.SIGNIFICANCE STATEMENTThe AP2S1 gene has been linked to learning disabilities and autism spectrum disorders (ASD), though the mechanisms underlying its impact on human behavior are unknown. We explored how, when, and where this gene regulates vertebrate behavior, developing a zebrafish model to identify the roles and mechanisms through which ap2s1 modulates behavior. We find that ap2s1 regulates simple acoustically-evoked learning, as well as how individuals bias behavioral choice in a wide variety of contexts. We show that ap2s1 acts at multiple distinct time periods and locations both within and outside of neuronal tissues, revealing the diverse mechanisms and pathways through which it modulates vertebrate behavior.

show abstract

Section: Introductionmentioning

confidence: 99%

The Adaptor Protein 2 (AP2) complex modulates habituation and behavioral selection across multiple pathways and time windows

Mouret

Greenbaum

Doll

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

“…Furthermore, the results of our screening were also validated in other studies. On the one hand, through gene database analysis, Feng et al identified AP2B1 as a potential therapeutic target for major depressive disorder [26]. At the same time, fluoxetine treatment can significantly increase the expression of AP2B1 [27].…”

Section: Discussionmentioning

confidence: 99%

AI Machine Learning Technique Characterizes Potential Markers of Depression in Two Animal Models of Depression

Zhang

Peng

et al. 2023

Brain Sciences

View full text Add to dashboard Cite

(1) Background: there is an urgent clinical need for rapid and effective antidepressants. (2) Methods: We employed proteomics to profile proteins in two animal models (n = 48) of Chronic Unpredictable Stress and Chronic Social Defeat Stress. Additionally, partial least squares projection to latent structure discriminant analysis and machine learning were used to distinguish the models and the healthy control, extract and select protein features and build biomarker panels for the identification of different mouse models of depression. (3) Results: The two depression models were significantly different from the healthy control, and there were common changes in proteins in the depression-related brain regions of the two models; i.e., SRCN1 was down-regulated in the dorsal raphe nucleus in both models of depression. Additionally, SYIM was up-regulated in the medial prefrontal cortex in the two depression models. Bioinformatics analysis suggested that perturbed proteins are involved in energy metabolism, nerve projection, etc. Further examination confirmed that the trends of feature proteins were consistent with mRNA expression levels. (4) Conclusions: To the best of our knowledge, this is the first study to probe new targets of depression in multiple brain regions of two typical models of depression, which could be targets worthy of study.

show abstract

“…Moreover, the pathological consequences of AP2B1 mutation are similar to those of the AP2α subunit mutation and has been shown to have various effects in neural tissue. In fact, AP2B1 affects dendrite cell morphology by controlling the mTOR pathway [ 97 ] through its action as a biosignature upon antidepressant treatment [ 98 ], binding to Dynamin-1, and triggering the process of autophagy, which inhibits dementia [ 99 ] and is putatively linked to depressive disorder [ 100 ]. AP2B1 is also linked to Alzheimer’s disease [ 101 ], which explains the importance of the AP2 complex in controlling autophagy and lysosomal protein degradation that regulate this neuronal degenerative disease.…”

Section: Ap2 Complexmentioning

confidence: 99%

Role of adaptin protein complexes in intracellular trafficking and their impact on diseases

Shin

Nile

2021

Bioengineered

View full text Add to dashboard Cite

Adaptin proteins (APs) play a crucial role in intracellular cell trafficking. The 'classical' role of APs is carried out by AP1-3, which bind to clathrin, cargo, and accessory proteins. Accordingly, AP1-3 are crucial for both vesicle formation and sorting. All APs consist of four subunits that are indispensable for their functions. In fact, based on studies using cells, model organism knockdown/knock-out, and human variants, each subunit plays crucial roles and contributes to the specificity of each AP. These studies also revealed that the sorting and intracellular trafficking function of AP can exert varying effects on pathology by controlling features such as cell development, signal transduction related to the apoptosis and proliferation pathways in cancer cells, organelle integrity, receptor presentation, and viral infection. Although the roles and functions of AP1-3 are relatively well studied, the functions of the less abundant and more recently identified APs, AP4 and AP5, are still to be investigated. Further studies on these APs may enable a better understanding and targeting of specific diseases.

show abstract

Seeking for potential pathogenic genes of major depressive disorder in the Gene Expression Omnibus database

Cited by 11 publications

References 67 publications

The Adaptor Protein 2 (AP2) complex modulates habituation and behavioral selection across multiple pathways and time windows

The Adaptor Protein 2 (AP2) complex modulates habituation and behavioral selection across multiple pathways and time windows

AI Machine Learning Technique Characterizes Potential Markers of Depression in Two Animal Models of Depression

Role of adaptin protein complexes in intracellular trafficking and their impact on diseases

Contact Info

Product

Resources

About