Circadian transcriptome of pancreatic adenocarcinoma unravels chronotherapeutic targets
Deepak Sharma, … , Daniel D. Leary, Faraz Bishehsari
Deepak Sharma, … , Daniel D. Leary, Faraz Bishehsari
Published May 8, 2024
Citation Information: JCI Insight. 2024;9(9):e177697. https://doi.org/10.1172/jci.insight.177697.
View: Text | PDF
Research Article Oncology Therapeutics

Circadian transcriptome of pancreatic adenocarcinoma unravels chronotherapeutic targets

Abstract

Pancreatic ductal adenocarcinoma (PDA) is a lethal cancer characterized by a poor outcome and an increasing incidence. A significant majority (>80%) of newly diagnosed cases are deemed unresectable, leaving chemotherapy as the sole viable option, though with only moderate success. This necessitates the identification of improved therapeutic options for PDA. We hypothesized that there are temporal variations in cancer-relevant processes within PDA tumors, offering insights into the optimal timing of drug administration — a concept termed chronotherapy. In this study, we explored the presence of the circadian transcriptome in PDA using patient-derived organoids and validated these findings by comparing PDA data from The Cancer Genome Atlas with noncancerous healthy pancreas data from GTEx. Several PDA-associated pathways (cell cycle, stress response, Rho GTPase signaling) and cancer driver hub genes (EGFR and JUN) exhibited a cancer-specific rhythmic pattern intricately linked to the circadian clock. Through the integration of multiple functional measurements for rhythmic cancer driver genes, we identified top chronotherapy targets and validated key findings in molecularly divergent pancreatic cancer cell lines. Testing the chemotherapeutic efficacy of clinically relevant drugs further revealed temporal variations that correlated with drug-target cycling. Collectively, our study unravels the PDA circadian transcriptome and highlights a potential approach for optimizing chrono-chemotherapeutic efficacy.

Authors

Deepak Sharma, Darbaz Adnan, Mostafa K. Abdel-Reheem, Ron C. Anafi, Daniel D. Leary, Faraz Bishehsari

×

Figure 3

Temporal expression of CDGs is coupled with core circadian clock gene expression.

Options: View larger image (or click on image) Download as PowerPoint
Temporal expression of CDGs is coupled with core circadian clock gene ex...
(A) Pairwise correlation between CDGs that were rhythmic in PDOs (n = 66) and circadian clock genes (CCGs, n = 15). CCGs were defined as previously reported (37, 70). Red denotes positive correlation between corresponding CCG and CDG. Blue denotes negative correlation. The total number of CDGs correlating with each CCG are shown in the line plot on the right. The total number of CCGs correlating with each CDG are shown in the line plot at the bottom. (B) Each bar represents the trend between the correlation coefficients of pairwise correlation between every CDG and all 15 CCGs in PDOs versus the correlation coefficients of pairwise correlations between each CDG and CCG for PDA samples from TCGA (n = 183). (C) Each bar represents the trend between the correlation coefficients of pairwise correlation between every CDG and all 15 CCGs in PDOs versus the correlation coefficients of pairwise correlations between each CDG and CCG for noncancerous pancreas samples from GTEx (n = 183). Statistically significant correlations in TCGA when compared with GTEx are highlighted in bold. A P value (2-tailed t test) of less than or equal to 0.05 was considered statistically significant.