National Institute of Biological Sciences, Beijing, China.
Autophagy. 2011 Nov;7(11):1308-15. doi: 10.4161/auto.7.11.17759. Epub 2011 Nov 1.
The process of macroautophagy (herein referred to as autophagy) involves the formation of a closed double-membrane structure, called the autophagosome, and its subsequent fusion with lysosomes to form an autolysosome. Lysosomes are regenerated from autolysosomes after degradation of the sequestrated materials. In this study, we showed that mutations in cup-5, encoding the C. elegans Mucolipin 1 homolog, cause defects in the autophagy pathway. In cup-5 mutants, a variety of autophagy substrates accumulate in enlarged vacuoles that display characteristics of late endosomes and lysosomes, indicating defective proteolytic degradation in autolysosomes. We further revealed that lysosomes in coelomocytes (scavenger cells located in the body cavity) are smaller in size and more numerous in mutants with loss of autophagy activity. Furthermore, the enlarged vacuole accumulation abnormality and embryonic lethality of cup-5 mutants are partially suppressed by reduced autophagy activity. Our results indicate that the basal constitutive level of autophagy activity regulates the size and number of lysosomes and provides insights into the molecular mechanisms underlying mucolipidosis type IV disease.
自噬(在此称为自噬)的过程涉及形成一个封闭的双层膜结构,称为自噬体,随后其与溶酶体融合形成自溶体。溶酶体在被隔离物质降解后从自溶体中再生。在这项研究中,我们表明,编码秀丽隐杆线虫粘脂素 1 同源物的 cup-5 基因突变会导致自噬途径缺陷。在 cup-5 突变体中,各种自噬底物在扩大的空泡中积累,这些空泡显示出晚期内体和溶酶体的特征,表明自溶体中的蛋白水解降解有缺陷。我们进一步揭示,在吞噬细胞(位于体腔中的吞噬细胞)中,溶酶体的体积较小,数量较多,自噬活性丧失的突变体中数量更多。此外,cup-5 突变体中扩大的空泡积累异常和胚胎致死性部分被降低的自噬活性所抑制。我们的研究结果表明,基础组成型自噬活性水平调节溶酶体的大小和数量,并为粘脂病 IV 型疾病的分子机制提供了新的见解。
