Sui-Qun Guo

Tertiary Lymphoid Structures Are Associated with a Favorable Prognosis in High-Grade Serous Ovarian Cancer Patients

There was accumulating evidence indicating that tertiary lymphoid structures (TLSs) were strongly associated with improved survival and clinical outcome in several solid tumors. In this study, we intended to assess the presence of TLSs and their potential clinical significance in high-grade serous ovarian cancer (HGSOC). TCGA (The Cancer Genome Atlas) cohort included RNA-seq data of 376 HGSOC patients, of which 74 patients included available hematoxylin-eosin (H&E) sections; GEO (Gene Expression Omnibus) cohort, GSE140082, included microarray data of 212 HGSOC patients. TLSs were counted by pathological sections, and the relative abundance of TLSs was assessed by the unsupervised consensus clustering of 12-chemokine transcriptome signatures. The potential associations between TLSs and clinical prognosis, tumor microenvironment (TME), and immunotherapy response of HGSOC were further performed based on transcriptome data. In the H&E sections of HGSOC, TLSs were predominantly located in the stroma and invasive margin of the tumor. Pathological counting results suggested that the expression of 12 chemokines was significantly higher in samples abundant with TLSs than that in the lack of TLSs. Consensus clustering of both TCGA and GEO cohorts divided HGSOC patients into two clusters with different TLSs abundance: low- and high-TLSs. Based on transcriptome analysis, the high-TLS cluster was characterized by better clinical prognosis, a higher degree of immune infiltration, more biological pathways, higher tumor mutational burden score, and higher expression of immune checkpoints. In conclusion, TLSs strongly correlated with the immune-responsive microenvironment and remained a favorable prognostic factor independent of other clinical characteristics in HGSOC. The presence of TLSs was also associated with a potentially favorable response to immune checkpoint blockade (ICB) therapy in HGSOC.

Targeting KIF23 inhibits cell proliferation and primary chemoresistance in cervical cancer by inactivating the MYH9/MCM2/PCNA pathway

Abstract Background Kinesin family member 23 (KIF23) is recognised as an important tumour promoter involved in the pathogenesis of various cancers. However, its role and underlying molecular mechanisms in regulating cervical cancer (CC) growth and primary chemoresistance remain to be fully elucidated. Methods The expression and prognostic significance of KIF23 were initially assessed through bioinformatic analyses and subsequently validated in clinical specimens. To evaluate the effects of KIF23 on cell proliferation and cisplatin (DDP) sensitivity in CC cells, in vitro and in vivo experiments were conducted using CRISPR/Cas9 knockout, overexpression and mouse xenograft models. Co‐immunoprecipitation, protein half‐life assays and ubiquitination assays were employed to elucidate the interactions and regulatory mechanisms involving KIF23, myosin heavy chain 9 (MYH9), minichromosome maintenance protein 2 (MCM2) and proliferating cell nuclear antigen (PCNA), thereby revealing the molecular basis of KIF23‐mediated CC progression and primary chemoresistance. Results KIF23 is highly expressed in CC tissues and is significantly correlated with poor prognosis and DDP resistance in patients. The knockout of KIF23 inhibited cell proliferation, induced G1‐phase arrest and enhanced chemosensitivity to DDP. Mechanistically, the C‐terminal domain of KIF23 was found to directly bind to the myosin tail domain of MYH9. This interaction stabilises MYH9 by recruiting deubiquitinase 7 (ubiquitin‐specific protease 7 [USP7]), which removes K48‐linked ubiquitin chains. The consequent upregulation of MYH9 promoted the recruitment of ubiquitin‐specific protease 15 (USP15) to deubiquitinate MCM2, thereby preventing its degradation. Lysine 469 (K469) of MCM2 was identified as the key site for MYH9‐induced deubiquitination. Furthermore, elevated MCM2 levels enhanced its binding to PCNA, thereby promoting CC cell proliferation. Conclusions These findings demonstrated that elevated KIF23 levels act as an unfavorable prognostic factor for CC by promoting cell proliferation and primary chemoresistance via the activation of the MYH9/MCM2/PCNA axis. Thus, KIF23 may represent a promising therapeutic target for improving clinical outcomes in CC. Highlights Cisplatin treatment induces KIF23 expression in a concentration‐ and time‐dependent manner. KIF23 recruits USP7, which removes the K48‐linked ubiquitin chain of MYH9, thereby stabilising MYH9 and facilitating its nuclear transport. MYH9 recruits USP15, thereby stabilising MCM2, which, in turn, regulates the G1/S phase transition by binding to PCNA. Targeting the KIF23/MYH9/MCM2/PCNA axis sensitises cervical cancer cells to cisplatin.