# Octopamine and tyramine dynamics predict learning rate phenotypes during associative conditioning in honey bees

**Authors:** Lester P. Sands, Hong Lei, Seth R. Batten, Alec Hartle, Terry Lohrenz, Leonardo Barbosa, Dan Bang, Peter Dayan, William M. Howe, Brian H. Smith, Pendleton R. Montague

PMC · DOI: 10.1126/sciadv.aea8433 · Science Advances · 2026-02-11

## TL;DR

The study shows that fluctuations in octopamine and tyramine in honey bees' brains predict how quickly they learn to associate odors with rewards.

## Contribution

The study introduces a novel method to track subsecond monoamine dynamics and links them to learning rate phenotypes in honey bees.

## Key findings

- Octopamine and tyramine levels in the antennal lobe correlate with learning speed in honey bees.
- Individual differences in learning are reflected in monoamine responses during conditioning.
- Learning rate can be predicted from monoamine signaling before and after odorant-sucrose pairings.

## Abstract

Biogenic amines are fundamental for physiological homeostasis and behavioral control in both vertebrates and invertebrates. Monoamine neurotransmitters released in target brain regions conjointly regulate adaptive learning and plasticity. However, our understanding of these multianalyte mechanisms remains nascent, in part due to limitations in measurement technology. Here, during associative conditioning in honey bees, we concurrently tracked subsecond fluctuations in octopamine, tyramine, dopamine, and serotonin in the antennal lobe, where plasticity influences odorant representations. By repeatedly pairing an odorant with subsequent sucrose delivery, we observed individual differences in the conditioned response to odor, which occurred after a variable number of pairings (learners) or not at all (non-learners). The distinction between learners and non-learners was reflected in neurotransmitter responses across experimental conditions. The speed of learning, the number of pairings prior to a proboscis extension reflex, could be predicted from monoamine opponent signaling (octopamine-tyramine), from both the first presentation of the odorant alone, prior to any pairing with sucrose, and the first conditioned response to the odorant, coming after a number of sucrose pairings. These results suggest that monoamine signaling phenotypes may relate directly to the now widely reported socially relevant genetic differences in honey bee learning.

Subsecond octopamine and tyramine opponent signaling in antennal lobe predicts the rate of odorant conditioning in honey bees.

## Linked entities

- **Chemicals:** octopamine (PubChem CID 4581), tyramine (PubChem CID 5610), dopamine (PubChem CID 681), serotonin (PubChem CID 5202), sucrose (PubChem CID 5988)

## Full-text entities

- **Chemicals:** Monoamine (-), dopamine (MESH:D004298), tyramine (MESH:D014439), serotonin (MESH:D012701), Octopamine (MESH:D009655), amines (MESH:D000588), sucrose (MESH:D013395)
- **Species:** Apis mellifera (bee, species) [taxon 7460]

## Full text

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## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12893229/full.md

## References

53 references — full list in the complete paper: https://tomesphere.com/paper/PMC12893229/full.md

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Source: https://tomesphere.com/paper/PMC12893229