Oocyte quality plays a fundamental role in fertilization and embryonic development. Emerging evidence indicates that ferroptosis may impair oocyte quality. Ferroptosis suppressor protein 1 (FSP1), a known ferroptosis inhibitor, has an uncharacterized function in regulating oocyte quality during meiotic maturation. This study identified FSP1 expression across all stages of meiotic maturation with localization to the cytoplasm of mouse oocytes. Aged mice exhibited a marked reduction in FSP1 expression within the ovaries and oocytes. Pharmacological inhibition of FSP1 disrupted germinal vesicle breakdown and polar body emission, leading to spindle defects and chromosome misalignment. Additionally, FSP1 inhibition persistently activated the spindle assembly checkpoint, resulting in meiotic arrest. At the mechanistic level, inhibition of FSP1 led to an increase in intracellular Fe