Bidirectional coupling of neuronal Ca2+ and nitric oxide signals visualized by a dual biosensor

Official URL: https://dx.doi.org/10.1016/j.redox.2026.104094

Nitric oxide (NO) and calcium (Ca2+) are tightly interconnected mediators of neuronal signaling, yet their dynamic relationship in primary neurons has remained widely unexplored. Here we report a bicistronic dual biosensor that combines jGCaMP8s for high-sensitivity Ca2+ imaging with the orange fluorescent NO reporter O-geNOps, delivered by adeno-associated virus (AAV) to primary hippocampal neurons. We establish imaging conditions optimized for physiological temperature and oxygen, which critically shape NO bioavailability. Under these conditions, spontaneous Ca2+ spikes and network activity are largely insufficient to elicit detectable NO production, whereas robust Ca2+ elevation by high extracellular K+ (50 mM) or glutamate (30 μM) evokes robust NO signals that surpass responses to exogenous NO donors. Conversely, both endogenous and exogenously applied NO dampen spontaneous Ca2+ spikes, revealing feedback control of neuronal excitability in the hippocampus. Together, these findings demonstrate bidirectional functional coupling between Ca2+ and NO signals in primary hippocampal neurons and introduce an informative approach for dual-color visualization of both messengers under near-physiological conditions.