Your search keyword '"Qian, Haili"' showing total 3 results

1. ARID1A deficiency reverses the response to anti-PD(L)1 therapy in EGFR-mutant lung adenocarcinoma by enhancing autophagy-inhibited type I interferon production

Author

Sun, Dantong, Qian, Haili, Wang, Jinsong, Xie, Tongji, Teng, Fei, Li, Junling, and Xing, Puyuan

Published

2022

2. Targeting MDM2 in malignancies is a promising strategy for overcoming resistance to anticancer immunotherapy.

Author

Sun, Dantong, Qian, Haili, Li, Junling, and Xing, Puyuan

Subjects

*IMMUNE checkpoint inhibitors, *IMMUNOTHERAPY, *TUMOR microenvironment, *IMMUNOLOGICAL tolerance

Abstract

MDM2 has been established as a biomarker indicating poor prognosis for individuals undergoing immune checkpoint inhibitor (ICI) treatment for different malignancies by various pancancer studies. Specifically, patients who have MDM2 amplification are vulnerable to the development of hyperprogressive disease (HPD) following anticancer immunotherapy, resulting in marked deleterious effects on survival rates. The mechanism of MDM2 involves its role as an oncogene during the development of malignancy, and MDM2 can promote both metastasis and tumor cell proliferation, which indirectly leads to disease progression. Moreover, MDM2 is vitally involved in modifying the tumor immune microenvironment (TIME) as well as in influencing immune cells, eventually facilitating immune evasion and tolerance. Encouragingly, various MDM2 inhibitors have exhibited efficacy in relieving the TIME suppression caused by MDM2. These results demonstrate the prospects for breakthroughs in combination therapy using MDM2 inhibitors and anticancer immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

3. Induction of protective and therapeutic antitumour immunity using a novel tumour-associated antigen-specific DNA vaccine.

Author

Sun, Wenxin, Qian, Haili, Zhang, Xueyan, Zhou, Chunxia, Liang, Xiao, Wang, Dongmei, Fu, Ming, Ma, Wenbo, Zhang, Shuren, and Lin, Chen

Subjects

*CANCER, *DNA vaccines, *ANTIGENS, *IMMUNITY, *ANTIGEN presenting cells, *TUMORS, *IMMUNOTHERAPY, *VACCINATION

Abstract

DNA vaccination has become an attractive immunization strategy against cancer. However, a major problem of DNA vaccination is its limited potency to be taken up by the antigen-presenting cells. In contrast, loss of immunogenic epitopes of tumour cells has urged the development of vaccines against multiple epitopes. In this study, we developed a novel strategy for the APC to efficiently cross-present a fusion tumour antigen, which contains both MHC class I-restricted and class II-restricted T-cell epitopes from Her-2/neu and p53 in a cognate manner. The N-terminus of the fusion Her-2/neu, p53 protein was linked to the sequence encoding for human secondary lymphoid-tissue chemokine for secretion and chemokinesis, and the C-terminus of the fusion protein was linked to a cell-binding domain of IgG (Fc portion, the cell-binding domain of IgG) for receptor-mediated internalization. Here, we show that the introduction of fused-gene DNA vaccine by gene gun reduced the size of established tumours and prolonged the lifespan of tumour-bearing mice. Results show that this DNA vaccination strategy can broadly enhance the antigen-specific cellular and humoral immune responses. This vaccine is capable of inducing adaptive immunity and may provide a novel, generic design for the development of therapeutic and preventive DNA vaccines. [ABSTRACT FROM AUTHOR]

Published

2006