Autophagy, a classical cellular degradative catabolic process, also involves a functionally discrete non-degradative role in eukaryotic cells. It imparts critical regulatory function on conventional and unconventional protein secretion (degradative and secretory autophagy with distinct lysosomal degradation and extracellular expulsion, respectively) pathways. The N-amino terminal leader sequence containing proteins follows a conventional secretion pathway, while the leader-less proteins opt for secretory autophagy. The secretory autophagic process ensembles core autophagy machinery proteins, specifically ULK1/2, Beclin 1, LC3, and GABARAP, in coordination with Golgi re-assembly and stacking proteins (GRASPs). The secretory omegasomes fuse with the plasma membrane for the expulsion of cytosolic cargos to the extracellular environment. Alternatively, the secretory omegasomes also fuse with multi-vesicular bodies (MVBs) and harmonize ESCRTs (Complex I; TSG101) and Rab GTPase for their release to extracellular space. Autophagy has been associated with the secretion of diverse proteins involved in cellular signaling, inflammation, and carcinogenesis. Secreted proteins play an essential role in cancer by sustaining cell proliferation, inhibiting apoptosis, enhancing angiogenesis and metastasis, immune cell regulation, modulation of cellular energy metabolism, and resistance to anticancer drugs. The complexity of autophagy regulation during tumorigenesis is dependent on protein secretion pathways. Autophagy-regulated TOR-autophagy spatial coupling compartment complex energizes enhanced secretion of pro-inflammatory cytokines and leaderless proteins such as HMGB1. In conclusion, the chapter reviews the role of autophagy in regulating conventional and unconventional protein secretion pathways and its possible role in cancer.
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