OBJECTIVE: We aimed to explore the precise molecular mechanism of early and invasive tumor growth in a small-for-size graft after liver transplantation and to identify the distinct molecular signature linked to acute-phase injury and late-phase tumor invasiveness. SUMMARY BACKGROUND DATA: Acute phase small-for-size liver graft injury plays an important role in tumor recurrence after liver transplantation. For prevention of such recurrence, understanding of its underlying mechanism will be important in developing novel therapeutic strategies. METHODS: An orthotopic rat liver transplantation model was applied using whole grafts and small-for-size (50%) grafts. The recipients were injected with hepatoma cell lines via the portal vein to mimic tumor recurrence after liver transplantation. Tumor invasive properties were compared between the tumor developed from small and whole graft. Gene signatures of acute phase graft injury (days 1 and 3) and late phase tumor recurrence (days 14 and 21) were screened using cDNA microarray analysis and further confirmed by quantitative RT-PCR. The potential gene candidate CXCL10 was singled out for further functional studies to investigate its role in tumor progression. RESULTS: A number of genes linked to inflammatory responses and tumor invasiveness were found over-expressed in small-for-size liver grafts and/or tumors developed in small liver grafts by cDNA microarray screening. Real-time RT-PCR also confirmed that the gene CXCL10 was over-expressed not only in small-for-size graft at the early phase, but also in tumor from small-for-size graft at the late phase after liver transplantation. In vitro functional studies further confirmed that CXCL10 promoted tumor-invasion-related properties and tumor-associated macrophage activation. CONCLUSION: CXCL10 over-expression, the distinct gene signature of acute-phase graft injury and tumor invasiveness in small-for-size liver grafts, may contribute to early tumor recurrence after liver transplantation. CXCL10 and its downstream signals may be potential therapeutic targets in the prevention of tumor recurrence after liver transplantation using small-for-size graft.
OBJECTIVE: We aimed to explore the precise molecular mechanism of early and invasive tumor growth in a small-for-size graft after liver transplantation and to identify the distinct molecular signature linked to acute-phase injury and late-phase tumor invasiveness. SUMMARY BACKGROUND DATA: Acute phase small-for-size liver graft injury plays an important role in tumor recurrence after liver transplantation. For prevention of such recurrence, understanding of its underlying mechanism will be important in developing novel therapeutic strategies. METHODS: An orthotopic rat liver transplantation model was applied using whole grafts and small-for-size (50%) grafts. The recipients were injected with hepatoma cell lines via the portal vein to mimic tumor recurrence after liver transplantation. Tumor invasive properties were compared between the tumor developed from small and whole graft. Gene signatures of acute phase graft injury (days 1 and 3) and late phase tumor recurrence (days 14 and 21) were screened using cDNA microarray analysis and further confirmed by quantitative RT-PCR. The potential gene candidate CXCL10 was singled out for further functional studies to investigate its role in tumor progression. RESULTS: A number of genes linked to inflammatory responses and tumor invasiveness were found over-expressed in small-for-size liver grafts and/or tumors developed in small liver grafts by cDNA microarray screening. Real-time RT-PCR also confirmed that the gene CXCL10 was over-expressed not only in small-for-size graft at the early phase, but also in tumor from small-for-size graft at the late phase after liver transplantation. In vitro functional studies further confirmed that CXCL10 promoted tumor-invasion-related properties and tumor-associated macrophage activation. CONCLUSION:CXCL10 over-expression, the distinct gene signature of acute-phase graft injury and tumor invasiveness in small-for-size liver grafts, may contribute to early tumor recurrence after liver transplantation. CXCL10 and its downstream signals may be potential therapeutic targets in the prevention of tumor recurrence after liver transplantation using small-for-size graft.
Authors: Hui Liu; Chang Chun Ling; Wai Ho Oscar Yeung; Li Pang; Jiang Liu; Jie Zhou; Wei Yi Zhang; Xiao Bing Liu; Tak Pan Kevin Ng; Xin Xiang Yang; Chung Mau Lo; Kwan Man Journal: Cell Death Dis Date: 2021-05-14 Impact factor: 8.469
Authors: Chang Xian Li; Yan Shao; Kevin T P Ng; Xiao Bing Liu; Chang Chun Ling; Yuen Yuen Ma; Wei Geng; Sheung Tat Fan; Chung Mau Lo; Kwan Man Journal: PLoS One Date: 2012-02-27 Impact factor: 3.240
Authors: Wei Geng; Kevin T P Ng; Chris K W Sun; Wing Lung Yau; Xiao Bing Liu; Qiao Cheng; Ronnie T P Poon; Chung Mau Lo; Kwan Man; Sheung Tat Fan Journal: PLoS One Date: 2011-11-09 Impact factor: 3.240
Authors: Kevin Tak-Pan Ng; Oscar Wai-Ho Yeung; Yin Fan Lam; Jiang Liu; Hui Liu; Li Pang; Xin Xiang Yang; Jiye Zhu; Weiyi Zhang; Matthew Y H Lau; Wen Qi Qiu; Hoi Chung Shiu; Man Kit Lai; Chung Mau Lo; Kwan Man Journal: Cell Death Discov Date: 2021-07-21