Signal peptides (SPs) are short N-terminal sequences that direct proteins to the endoplasmic reticulum (ER). After cleavage of the SP, these proteins are mostly trafficked to the Golgi apparatus for s Show more
Signal peptides (SPs) are short N-terminal sequences that direct proteins to the endoplasmic reticulum (ER). After cleavage of the SP, these proteins are mostly trafficked to the Golgi apparatus for secretion. Lipocalin-2 (LCN2), a neurotoxic secretory protein, was recently identified as a target of autophagy. The presence of an SP is a prerequisite for secretion and autophagic degradation. Based on these observations, we investigated whether the SP of LCN2 is sufficient to enable proteins to be secreted or degraded via autophagy. We fused the SP of LCN2 to a non-secretory green fluorescent protein (GFP) and found that this ER-generated GFP was either secreted or degraded via autophagy. These results indicate that the LCN2-derived SP alone is sufficient to direct proteins to the ER and subsequent secretion or autophagic degradation. This dual regulation was abolished when the SP was deleted from LCN2. Notably, the effect was preserved even when the LCN2 SP was replaced with the SP from brain-derived neurotrophic factor, another secretory protein. These results suggest that SPs with different sequences can similarly direct proteins to the ER and subsequent secretion or autophagic degradation. Furthermore, we found that even when LCN2 reached the Golgi apparatus for secretion, it could also be degraded via autophagy. Thus, we propose that SP-directed and ER-generated secretory proteins can undergo autophagic degradation during ER-Golgi transport, including at the ER, the ER-Golgi intermediate compartment, or the Golgi apparatus. Taken together, degradation of secretory proteins via autophagy suggests implications for the potential control of secretory protein homeostasis. Show less