Abstract
BackgroundZNF322A is an oncogenic transcription factor that belongs to the Cys2His2-type zinc-finger protein family. Accumulating evidence suggests that ZNF322A may contribute to the tumorigenesis of lung cancer, however, the ZNF322A-mediated downstream signaling pathways remain unknown.MethodsTo uncover ZNF322A-mediated functional network, we applied phosphopeptide enrichment and isobaric labeling strategies with mass spectrometry-based proteomics using A549 lung cancer cells, and analyzed the differentially expressed proteins of phosphoproteomic and proteomic profiles to determine ZNF322A-modulated pathways.ResultsZNF322A highlighted a previously unidentified insulin signaling, heat stress, and signal attenuation at the post-translational level. Consistently, protein-phosphoprotein-kinase interaction network analysis revealed phosphorylation of IRS1 and HSP27 were altered upon ZNF322A-silenced lung cancer cells. Thus, we further investigated the molecular regulation of ZNF322A, and found the inhibitory transcriptional regulation of ZNF322A on PIM3, which was able to phosphorylate IRS1 at serine1101 in order to manipulate glucose uptake via the PI3K/AKT/mTOR signaling pathway. Moreover, ZNF322A also affects the unfolded protein response by phosphorylation of HSP27S82 and eIF2aS51, and triggers autophagosome formation in lung cancer cells.ConclusionsThese findings not only give new information about the molecular regulation of the cellular proteins through ZNF322A at the post-translational level, but also provides a resource for the study of lung cancer therapy.
Highlights
ZNF322A is an oncogenic transcription factor that belongs to the Cys2His2-type zinc-finger protein family
Quantitative phosphoproteomic profiling of A549 lung cancer cells regulated by ZNF322A In our quantitative proteomic study of ZNF322Asilenced A549 lung cancer [7], we revealed that the majority of ZNF322A downstream proteins were involved in signal transduction and protein phosphorylation, the ZNF322A-mediated phosphorylation network was established to better understand the mechanism and biological function of zinc-finger proteins in response to lung cancer
The phosphosites were divided into three categories based on Functional networks of ZNF322A-mediated proteins and protein phosphorylation To establish the functional roles of ZNF322A in lung cancer, we analyzed phosphoproteomic and our previous proteomic studies [7] to perform Gene Ontology (GO) and pathway enrichment
Summary
ZNF322A is an oncogenic transcription factor that belongs to the Cys2His2-type zinc-finger protein family. C2H2-ZNFs have been reported as either activator or suppressor, depending on the cellular context and target genes These findings suggest that C2H2-ZNFs are pivotal regulators in tumorigenesis. Our previous quantitative proteomic analysis of ZNF322A-silenced lung cancer cells revealed that the downstream were participated in signal transduction and protein phosphorylation, vesicle-mediated transport, generation of energy and chromatin organization [7]. These findings indicate that ZNF322A plays an important role in lung cancer development, the regulatory role of ZNF322A at the phosphorylation level is still unknown
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
