# VX‐765 alleviates motor and cognitive impairments via inhibiting PANoptosis activation in the neonatal rats after hypoxic–ischemic brain damage

**Authors:** Xiaohuan Li, Mulan Chen, Boqing Xu, Yepeng Fan, Chunfang Dai, Zhifang Dong

PMC · DOI: 10.1002/pdi3.66 · Pediatric Discovery · 2024-05-01

## TL;DR

VX-765 helps reduce brain damage and improves motor and cognitive functions in neonatal rats after hypoxic-ischemic injury by suppressing inflammation and PANoptosis.

## Contribution

This study is the first to show that VX-765 protects neonatal rats from hypoxic-ischemic brain damage by inhibiting PANoptosis and neuroinflammation.

## Key findings

- VX-765 reduced infarct volumes and neuronal loss in the hippocampus and cortex of HIBD rats.
- VX-765 suppressed the production of neuroinflammatory factors like TNF-α, IL-1β, and IL-6.
- VX-765 inhibited PANoptosis activation and reversed neuronal injury caused by oxygen-glucose deprivation.

## Abstract

Neonatal hypoxia–ischemia (HI) is one of the main factors that cause neonatal severe neurologic impairment and death. Shown by a large number of studies, caspase‐1 plays a significant effect in diseases such as hypoxic–ischemic brain damage (HIBD) and may be a key component of the protein complex that initiates PANoptosis. VX‐765, an inhibitor of caspase‐1, exerts a potential neuroprotective effect in traumatic brain injury. However, it is unknown whether the administration of VX‐765 has neuroprotective effects on neonatal rats that suffered HIBD, and if so, the underlying mechanisms are also still unknown. In the present study, we found that treatment with VX‐765 (50 mg/kg, i.p.) significantly ameliorated the impairment of locomotor coordination functions and myodynamia as well as the spatial learning and memory in neonatal rats subjected with HIBD. These behavior improvements were attributed to VX‐765 reducing infarct volumes and neuronal loss in the CA1, CA3 region of hippocampus, and deeper layers of the cortex in HIBD rats. Moreover, the enzyme‐linked immunosorbent assay showed that VX‐765 obviously decreased the production of neuroinflammatory factors including TNF‐α, IL‐1β, and IL‐6. Importantly, we identified HI promoted PANoptosis activation in vivo and in vitro, and VX‐765 obviously suppressed PANoptosis activation. Finally, we demonstrated that VX‐765 treatment reversed neuronal injury induced by oxygen–glucose deprivation (OGD). Taken together, these results suggest that VX‐765 protects the neurons against damage by suppressing neuroinflammation and PANoptosis activation, thereby improving locomotor coordination and cognitive impairments in neonatal HIBD rats, indicating that VX‐765 may be an underlying therapeutic drug for the clinical treatment of hypoxic–ischemic encephalopathy (HIE).

The inflammation cytokines is increased and the PANoptosis is activated after hypoxia–ischemia (HI). And VX‐765 suppressing neuroinflammation release and PANoptosis activation, thereby improving motor and cognitive impairments induced by HI in the neonatal rats.

## Linked entities

- **Proteins:** Caspase1 (caspase-1)
- **Chemicals:** VX-765 (PubChem CID 11398092), IL-6 (PubChem CID 165368475)
- **Diseases:** hypoxic-ischemic encephalopathy (MONDO:0006663)

## Full-text entities

- **Genes:** Il6 (interleukin 6) [NCBI Gene 24498] {aka ILg6, Ifnb2}, Casp1 (caspase 1) [NCBI Gene 25166] {aka Ice, Il1bc, p45}, Tnf (tumor necrosis factor) [NCBI Gene 24835] {aka RATTNF, TNF-alpha, Tnfa}
- **Diseases:** traumatic brain injury (MESH:D000070642), neuronal injury (MESH:D009410), neuroinflammation (MESH:D000090862), infarct (MESH:D007238), death (MESH:D003643), and cognitive impairments (MESH:D003072), HIBD (MESH:D002534), hypoxia (MESH:D000860), ischemia (MESH:D007511), HI (MESH:D020925), impairment of locomotor coordination functions (MESH:D001523), neurologic impairment (MESH:D009422)
- **Chemicals:** oxygen (MESH:D010100), VX-765 (MESH:C520022), glucose (MESH:D005947)
- **Species:** Rattus norvegicus (brown rat, species) [taxon 10116]

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12118117/full.md

## References

68 references — full list in the complete paper: https://tomesphere.com/paper/PMC12118117/full.md

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Source: https://tomesphere.com/paper/PMC12118117