High-throughput screening and clinical importance of autophagy-associated genes in basal cell carcinoma

Autophagy is a type II programmed cell death mechanism that plays a critical role in preserving cellular homeostasis through the regulation of protein, lipid, and organelle quality control. It has become gradually evident that autophagy plays a fundamental role in the initiation and progression of various types of human cancers. Nevertheless, its significance in non-melanoma skin cancers, particularly in basal cell carcinoma, has not been well documented and remains largely elusive. In this study, we aimed to illuminate the role of autophagy-associated signaling signatures during development and progression of basal cell carcinoma. For the study, a total of 72 autophagy-related genes were screened using a high-throughput qPCR approach integrating Fluidigm 96.96 Dynamic Array™ integrated fluidic circuits (IFC) and BioMark™ HD Real-Time PCR system, which enabled efficient and precise analysis of gene expression patterns. Results were analyzed using Fluidigm's Real-Time PCR Analysis software and 2-ΔΔCt formula was used for the calculation of expression changes. Notably, expression levels of INS, TMEM74 and IFNA2 genes were identified to be prominently altered in BCC comparted to adjacent healthy tissues. However, only IFNA2 expression showed statistically significant change in BCC. Consequently, these findings suggest that IFNA2 might play significant role in the regulation of autophagy in BCC development and progression and can be therapeutically targeted.