About

Andrew S. Fox joined the Foxlab in July 2016 and is an Associate Professor in the Psychology Department at UC Davis. He is also a Core Scientist in Neuroscience and Behavior and affiliated with the California National Primate Research Center. The Fox lab focuses on understanding the neuroscience of social and emotional behavior in both humans and nonhuman primates. Professor Fox's research employs modern neuroscientific approaches and computational modeling to investigate emotion-related decision-making and the development of social anxiety disorder.

Research topics

• Computer Science
• Psychology
• Neuroscience
• Psychiatry
• Evolutionary biology
• Biology
• Cognitive psychology
• Clinical psychology
• Cognitive science

Selected publications

• 46. Large-Scale Behavioral Monitoring of Non-Human Primates to Quantify Disorder-Relevant Behaviors

  Biological Psychiatry · 2026-04-25

  articleSenior author
  PublisherDOI

• 51. Unexpected Danger: Neural Computations of Aversive Prediction Errors

  Biological Psychiatry · 2026-04-25

  articleSenior author
  PublisherDOI

• 419. The Hidden Burden of Anxiety Disorders

  Biological Psychiatry · 2026-04-25

  articleSenior author
  PublisherDOI

• 63. Parvalbumin Neurons in Prelimbic Cortex Are Activated During Anticipation of Social Defeat

  Biological Psychiatry · 2026-04-25

  article
  PublisherDOI

• 366. Understanding the Relevance of Dynamic Neural Responses to Anticipated Threat for the Emergence of Internalizing Illness

  Biological Psychiatry · 2026-04-25

  article
  PublisherDOI

• 21. Quantifying Behaviors in Non-Human Primates Using Deep Learning

  Biological Psychiatry · 2025-04-09

  articleSenior author
  PublisherDOI

• Supplementary files from snRNAseq experiments appearing in the original manuscript "Prenatal Maternal Immune Activation Triggers Lasting Cell-Specific Transcriptomic Dysregulation in the Amygdala of Primate Offspring"

  Zenodo (CERN European Organization for Nuclear Research) · 2025-12-19

  datasetOpen access

  Supplementary files from snRNAseq experiments appearing in the original manuscript "Prenatal Maternal Immune Activation Triggers Lasting Cell-Specific Transcriptomic Dysregulation in the Amygdala of Primate Offspring" accepted to Molecular Psychiatry on December 2, 2025 (published December 19, 2025). Full experimental and technical details are available at https://doi.org/10.1038/s41380-025-03403-4.

  PublisherDOI

• Supplementary files from snRNAseq experiments appearing in the original manuscript "Prenatal Maternal Immune Activation Triggers Lasting Cell-Specific Transcriptomic Dysregulation in the Amygdala of Primate Offspring"

  Zenodo (CERN European Organization for Nuclear Research) · 2025-12-19

  datasetOpen access

  Supplementary files from snRNAseq experiments appearing in the original manuscript "Prenatal Maternal Immune Activation Triggers Lasting Cell-Specific Transcriptomic Dysregulation in the Amygdala of Primate Offspring" accepted to Molecular Psychiatry on December 2, 2025 (published December 19, 2025). Full experimental and technical details are available at https://doi.org/10.1038/s41380-025-03403-4.

  PublisherDOI

• Prenatal maternal immune activation triggers lasting cell-specific transcriptomic dysregulation in the amygdala of primate offspring

  Molecular Psychiatry · 2025-12-19 · 3 citations

  articleOpen access

  Prenatal exposure to a heightened maternal immune response, such as that triggered by viral infection in the mother, can alter fetal brain development and increase risk of neurodevelopmental disorders in offspring, including autism (ASD) and schizophrenia. However, the cellular and molecular mechanisms linking early inflammatory signals to long-term changes in brain function remain unclear. While rodent models of maternal immune activation (MIA) display brain and behavioral disruptions, their translational relevance to humans is limited. To address this gap, we utilized a nonhuman primate (NHP) MIA model to examine how transient maternal immune responses in early gestation alter gene expression in the amygdala-a brain region essential for socioemotional behavior and implicated many neurodevelopmental disorders. Pregnant macaques were administered the viral mimic Poly(I:C) during the late first trimester, and amygdala samples were collected from 4-year-old male offspring for single-nucleus RNA sequencing (>71,000 nuclei). We identified 2768 unique differentially expressed genes (DEGs), concentrated in excitatory and inhibitory neurons of the lateral nucleus and microglia of the central nucleus. These DEGs converge on synaptic structure, neurotransmission, and neuroimmune signaling-core processes in circuit assembly and behavioral regulation. MIA-associated DEGs significantly overlap with high-confidence ASD- and psychosis-risk gene sets, directly linking prenatal immune events to human disease pathways. This study provides the first region- and cell-type-specific evidence in a primate model that transient prenatal maternal immune responses lead to lasting transcriptomic dysregulation. These findings reveal how early immune insults may alter neurodevelopment and offer a translational framework for identifying molecular targets for early intervention.

  PublisherOA PDFDOI

• 44. Infant Inhibited Temperament is Associated With Sex-Specific Alterations in Prefrontal White-Matter in Adult Nonhuman Primates

  Biological Psychiatry · 2025-04-09

  articleSenior author
  PublisherDOI

Recent grants

• ORIGINS AND EMERGENCE OF MALADAPTIVE SOCIOEMOTIONAL BEHAVIOR DURING THE TRANSITION TO ADULTHOOD IN PRIMATES

  NIH · $3.6M · 2020–2026

• Rethinking the Neural Correlates of Uncertain Threat Anticipation with a Statistical Learning Approach

  NIH · $414k · 2022–2025

Frequent coauthors

• Ned H. Kalin

  University of Wisconsin–Madison

  62 shared

• Alexander J. Shackman

  47 shared

• Jonathan A. Oler

  University of Wisconsin–Madison

  42 shared

• J. Rick Turner

  40 shared

• Richard J. Davidson

  University of Wisconsin–Madison

  30 shared

• Lillian J. Campos

  University of California, Davis

  26 shared

• Patrick H. Roseboom

  University of Wisconsin–Madison

  22 shared

• Cynthia M. Arokiaraj

  California Institute of Technology

  20 shared

Labs

• Fox LabPI

  Understanding the neuroscience of social and emotional behavior in both humans and nonhuman primates.