Construction of a NIR hydrogen sulfide fluorescent probe for revealing the role of astrocytes in hypothalamic inflammation

Abstract

Hydrogen sulfide (H2S) is a crucial endogenous gas signaling molecule in the central nervous system, playing a significant role in anti-inflammation, anti-oxidation, and neuroprotection. Our studies have shown that the level of H2S is closely related to hypothalamic inflammation-induced obesity. Compared to neurons, astrocytes, exhibit a preferential activation in response to high-fat diet-induced hypothalamic inflammation. Whether the reduction of hydrogen sulfide in astrocytes is the cause of neuronal damage leading to hypothalamic inflammation is worth exploring. The key to discussing the role of astrocytes is to accurately and quickly detect the levels of H2S in the complex microenvironment of the brain. In this work, we designed and synthesized a H2S near-infrared fluorescence probe (NIR-HS) based on dicyanideisophorone. NIR-HS selectively responds to H2S at 668 nm, with an effective linear range (0–20 μM), high sensitivity (35 nM). This probe has been successfully applied to detect hydrogen sulfide levels in astrocytes and to perform H2S fluorescence imaging on the slices of the ventromedial nucleus of the hypothalamus. Additionally, the effect of the H2S donor drug allicin on the levels of H2S in the hypothalamus and its therapeutic effect on hypothalamic inflammation were confirmed using NIR-HS and a series of signal pathway studies. Ultimately, we revealed the mechanism of that H2S inhibits hypothalamic neuronal inflammation by suppressing the expression of the pro-inflammatory factor IL-1β in astrocytes.