:::
  • 20260716-2
  • 演講或講座
  • 生物醫學科學研究所
  • 地點

    生醫所地下室B1A演講廳

  • 演講人姓名

    林凱倫 (TIGP-MM Student)

  • 活動狀態

    確定

  • 活動網址
IFN-γ訊息調控巨噬細胞功能以促進心臟修復與再生

2026-07-16 15:00 - 16:00

加入行事曆

Heart regeneration requires coordinated immune activation, timely inflammatory resolution, and dynamic extracellular matrix (ECM) remodeling in addition to cardiomyocyte (CM) proliferation. However, the cytokine signals that instruct immune cell functions during cardiac repair remain incompletely understood. Here, we identify interferon-gamma (IFN-γ) as a critical regulator of macrophage plasticity in zebrafish heart regeneration. IFN-γ signaling components are dynamically activated following cardiac injury, with early induction of ifng1 and temporally coordinated receptor expression. Genetic ablation of ifng1 impairs myocardial regeneration, resulting in reduced CM proliferation and persistent fibrotic scarring. Temporal transcriptional profiling reveals sustained inflammatory signatures, impaired efferocytosis, and abolished reparative programs, accompanied by aberrant immune cell dynamics and retention of injury-derived debris in mutant hearts. Transcriptomic analysis of cardiac macrophages further reveals that IFN-γ deficiency disrupts the transition from an inflammatory state to a reparative, ECM-remodeling phenotype, leading to reduced collagen denaturation and diminished CM protrusion at the injury border zone. Inducible- and macrophage specific blockade of IFN-γ signaling phenocopies defects in global knockout, establishing a cell autonomous requirement for IFN-γ in coordinating regenerative immune function. Collectively, our findings define an IFN-γ-dependent macrophage reprogramming axis that couples inflammatory resolution to ECM remodeling in heart regeneration, elucidating how cytokine signaling actively instructs tissue repair.