Abstract
Cholangiocarcinoma (CCA) is a rare cancer that arises from the bile duct and is broadly classified by the location of the tumor as either intrahepatic (iCCA) or extrahepatic (eCCA). Immunotherapy has revolutionized cancer treatment, yet its utility in CCA has been limited as the tumor microenvironment (TME) in CCA is poorly understood compared to other common cancers. Utilizing previously published transcriptome data, our re-analysis has revealed that CCA has one of the highest relative levels of natural killer (NK) cells, a potent cytotoxic immune cell, compared to other cancers. However, despite iCCA and eCCA having comparable relative levels of NK infiltration, NK cell infiltration only correlated with survival in eCCA patients. Our subsequent investigation revealed that while iCCA and eCCA profoundly altered NK activity, eCCA had a significantly reduced impact on NK functionality. Whereas iCCA was resistant to long-term NK co-culture, eCCA was markedly more sensitive. Moreover, while both iCCA and eCCA dysregulated key NK activating receptors, eCCA co-culture did not impact NKp30 nor NKp44 expression. Furthermore, tumor transcriptome analysis of NKHigh CCA samples revealed modulation of multiple immune and non-immune cell types within the TME. Implications: These studies are the first to investigate how iCCA and eCCA impact NK cell functionality through shared and distinct mechanisms and how elevated NK cell infiltration could shape the CCA TME in a subtype-dependent manner.
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