Wenwei Yin scite author profile

Natural killer (NK) cells have a vital role in killing hepatocellular carcinoma (HCC) cells; however, the mechanism underlying tumor-infiltrating NK (TINK)-cell dysfunction remains poorly understood. Using flow cytometry staining, we precisely characterized the frequency, phenotype and function of NK subsets distinguished by CD27 and CD11b in 30 patients with HCC in comparison to 30 healthy controls. Interestingly, we found a substantial proportion of liver-infiltrating CD11b−CD27− (DN) NK subsets in tumor tissue from HCC patients. Remarkably, these relatively expanded DN NK subsets exhibited an inactive and immature phenotype. By detecting the expression of CD107a and interferon-gamma (IFN-γ) on NK subsets and NK cells, we demonstrated that DN NK subsets exhibited a poor cytotoxic capacity and deficient potential to produce IFN-γ in comparison to the other three subsets, which contributed to the dysfunction of TINK cells in HCC patients. In addition, we found that the presence of DN NK cells was closely associated with the clinical outcomes of HCC patients, as the frequency of DN NK cells among TINK cells was positively correlated with tumor stage and size. A large percentage of DN NK cells among TINK cells was an independent prognostic factor for lower survival in the 60-month follow-up period. In conclusion, a substantial proportion of CD11b−CD27−NK subsets among TINK cells accounts for NK-cell dysfunction in patients with HCC and is associated with tumor progression. Our study may provide a novel therapeutic target for the treatment of patients with HCC.

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Kupffer Cells Support Hepatitis B Virus–Mediated CD8+ T Cell Exhaustion via Hepatitis B Core Antigen–TLR2 Interactions in Mice

Sun

et al. 2015

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Hepatitis B virus (HBV) persistence is a fundamental process in chronic HBV infection and a key factor in all related liver diseases; however, the mechanisms have yet to be elucidated. We studied the role of TLR2 in HBV persistence using a well-established HBV-carrier mouse model generated by hydrodynamically injecting a phospho–adeno-associated virus/HBV1.2 plasmid into mice. We found that a genetic deficiency in TLR2 improves HBV elimination, whereas activating TLR2 led to more stable HBV persistence, suggesting that TLR2 activation is critical in HBV persistence. Furthermore, we noted that TLR2 activation could inhibit CD8+ T cell function, causing the exhaustion phenotype in HBV-carrier mice, because TLR2 deficiency might rescue CD8+ T cell function in a cellular adoptive experiment. TLR2 expression on Kupffer cells (KCs) was upregulated in HBV-carrier mice, which accounts for HBV persistence, because the difference in anti-HBV immunity between HBV-carrier wild-type and Tlr2−/− mice did not exist after KC depletion. In addition, similar to TLR2 deficiency, after KC depletion, CD8+ T cells were more efficiently activated in HBV-carrier mice, leading to rapid HBV elimination. KCs produced more IL-10 upon TLR2 activation in response to direct hepatitis B core Ag stimulation, and the elevated IL-10 inhibited CD8+ T cell function in HBV-carrier mice, because IL-10 deficiency or anti–IL-10R treatment resulted in CD8+ T cells with stronger antiviral function. In conclusion, KCs support liver tolerance by inducing anti-HBV CD8+ T cell exhaustion via IL-10 production after TLR2 activation by hepatitis B core Ag stimulation.

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Kupffer cell-derived IL-10 plays a key role in maintaining humoral immune tolerance in hepatitis B virus-persistent mice

Yin

Sun

et al. 2013

Hepatology

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The liver is considered as a unique lymphoid organ favoring the induction of immune tolerance, rather than immunity. Biologists and clinicians alike have a long-standing interest in how the liver induces systemic immune tolerance, but the mechanism has not yet been well elucidated. Here, we employed hepatitis B virus (HBV)-carrier mice generated by hydrodynamically injecting phosphor-adeno-associated virus/HBV1.2 plasmid as a model for adult chronic HBV infection, which we found were unable to respond to hepatitis B surface antigen vaccination. Humoral tolerance induced in HBV-carrier mice could be transferred into Rag1 2/2 mice, because anti-HBV immunity in immunologically reconstituted Rag1 2/2 mice was inhibited by adoptive transfer of splenocytes from HBV-carrier mice. Humoral tolerance needed at least 7 days for induction and persisted to 3 months after a single HBV plasmid injection. Kupffer cell (KC) depletion or interleukin (IL-10) deficiency broke this humoral tolerance, and exogenous injection of IL-10 could effectively induce this tolerance. Conclusion: KCs in HBV-carrier mice expressed more IL-10 and mediated the systemic tolerance induction in an IL-10-dependent manner. This previously undescribed humoral tolerance regarding HBV infection will help to explore new approaches to reverse liver-sustained systemic immune tolerance in liver disease. (HEPATOLOGY 2014;59:443-452)

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Wenwei Yin

Blocking the Natural Killer Cell Inhibitory Receptor NKG2A Increases Activity of Human Natural Killer Cells and Clears Hepatitis B Virus Infection in Mice

Liver-infiltrating CD11b−CD27− NK subsets account for NK-cell dysfunction in patients with hepatocellular carcinoma and are associated with tumor progression

Kupffer Cells Support Hepatitis B Virus–Mediated CD8+ T Cell Exhaustion via Hepatitis B Core Antigen–TLR2 Interactions in Mice

Kupffer cell-derived IL-10 plays a key role in maintaining humoral immune tolerance in hepatitis B virus-persistent mice

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