Efficacy of epidermal growth factor in suppressing inflammation and proliferation in pterygial fibroblasts through interactions with microenvironmental M1 macrophages.

The protein epidermal growth factor (EGF), which plays a crucial role in promoting cell proliferation and survival, has recently demonstrated potential in reducing inflammation. In this study, we examined the impact of EGF on the anti-inflammatory and anti-proliferative properties of pterygium, a prevalent hypervascular proliferative disease affecting the ocular surface. In surgically excised tissues, markers for fibrotic and inflammatory signals, including VIM, ACTA2, FAP, MMP2, VCAM1, ICAM1, CD86, IL6, and IL1B were upregulated in the pterygium body stroma compared to the normal conjunctival stroma. EGF exerted anti-inflammatory and anti-vasculogenic effects on pterygial fibroblasts when co-cultured with M1 macrophages. Moreover, exosomes derived from EGF-preconditioned M1 macrophages suppressed the heightened inflammatory and vasculogenic signals in pterygial fibroblasts induced by exosomes from M1 macrophages. Paradoxically, the proliferation of pterygial fibroblasts was inhibited by EGF in the in vitro microenvironment with M1 macrophages, despite EGF being known as a growth factor. EGF-preconditioning of M1 macrophages rescued the increased proliferation of pterygial fibroblasts induced by exosomes from M1 macrophages. In conclusion, our findings demonstrate that EGF effectively mitigates inflammation and proliferation in pterygial fibroblasts within a microenvironment containing M1 macrophages.