Andrew MacAskill, PhD

Principal Research Fellow, Department of Neuro, Physiology & Pharmacology

University College London

Host(s): Steven A. Siegelbaum (Faculty)

Ventral hippocampal circuits and hidden state inference

Imagine you’re texting with a friend.  Because you can’t see them in person, you can’t directly tell if they’re happy, sad, or stressed. This is because their emotional state is hidden - you can’t observe happiness or sadness directly through text messages. However, we often notice things like how quickly they respond, whether their messages are short or detailed, or if they’re using lots of emojis. We can then use these clues to make an educated guess about how our friend is feeling. For example, if they reply with quick, one-word answers and don’t use their usual emojis, we will often infer they’re feeling down or distracted. If they’re texting with lots of emojis and longer messages, you might infer they’re in a good mood.

This ability is often called hidden state inference – where we can use indirect observations to build up a fairly good idea of our friend’s unseen emotional state. In more scientific terms, this ability uses subjective, latent contextual representations (whether you think your friend is happy or sad) to influence decision making (how to respond appropriately). This ability is crucial for everyday life, and deficits in this ability are one of the few behavioural maladaptations consistently linked to the risk and severity of multiple mental illnesses. However despite this we still have surprisingly little understanding of how this process is performed at the neural level.

In my talk, I will present some recently published data that suggest the ventral hippocampus is crucial for mice to perform hidden state inference. I will show how hippocampal neurons use observations to differentiate the abstract contexts required for this strategy in a manner similar to the differentiation of spatial locations, and that their activity is essential for appropriate dopamine dynamics. I will then present some new, preliminary data that show how acetylcholine dynamics in ventral hippocampus may be key for this mechanism. Hopefully I will be able to convince you that these data offer cellular insight into how latent contextual information is used to optimize decisions, and that the hippocampus has a key and often underappreciated role in hidden state inference.

Venue Information:

Speaker Location: Jerome L. Greene Science Center, Kavli Auditorium, 9th Floor Lecture Hall

Tuesdays@10 is a signature Zuckerman Institute initiative that aims to expose researchers at all levels to high-quality science and stimulate scientific discourse. The speakers featured in this series represent various fields and techniques in neuroscience, and include invited guests of the Columbia Neuroscience Seminars, the Zuckerman Institute's Local Circuits Affiliates Program, and other special seminar series through a combined, collaborative effort of one or more of the following: Columbia's Zuckerman Institute, the Center for Precision Psychiatry, the Department of Neuroscience, the Doctoral Program in Neurobiology and Behavior and the Columbia Translational Neuroscience Initiative, and with support from the Kavli Institute for Brain Science. 

More information and a full schedule can be found here.