Optineurin mediates delivery of membrane from transferrin receptor-positive endosomes to autophagosomes

Autophagy is a conserved quality control mechanism that removes damaged proteins, organelles and invading bacteria through lysosome-mediated degradation. During autophagy several organelles including endoplasmic reticulum, mitochondria, plasma membrane and endosomes contribute membrane for autophagosome formation. However, the mechanisms and proteins involved in membrane delivery to autophagosomes are not clear. Optineurin (OPTN), a cytoplasmic adaptor protein, is involved in promoting maturation of phagophores into autophagosomes; it is also involved in regulating endocytic trafficking and recycling of transferrin receptor (TFRC). Here, we have examined the role of optineurin in the delivery of membrane from TFRC-positive endosomes to autophagosomes. Only a small fraction of autophagosomes was positive for TFRC, indicating that TFRC-positive endosomes could contribute membrane to a subset of autophagosomes. The percentage of TFRC-positive autophagosomes was reduced in Optineurin knockout mouse embryonic fibroblasts (Optn-/- MEFs) in comparison with normal MEFs. Upon over-expression of optineurin, the percentage of TFRC-positive autophagosomes was increased in Optn-/- MEFs. Unlike wild-type optineurin, a disease-associated mutant, E478G, defective in ubiquitin binding, was not able to enhance formation of TFRC-positive autophagosomes in Optn-/- MEFs. TFRC degradation mediated by autophagy was decreased in optineurin deficient cells. Our results suggest that optineurin mediates delivery of TFRC and perhaps associated membrane from TFRC-positive endosomes to autophagosomes, and this may contribute to autophagosome formation.