1.Influence of co-stimulatory signal produced by CD40/CD40 ligand on the proliferation and differentiation of leukemic stem cells and B cells
Yongming ZHOU ; Tiannan GUO ; Shiang HUANG
Chinese Journal of Tissue Engineering Research 2006;10(37):182-184
OBJECTIVE: To investigated influence of co-stimulatory signal produced by CD40/CD40 ligand (CD40L) on proliferation and differentiation of leukemic stem cells and B cells as well as the role of CD40L anti-leukemia.DATA SOURCES: We searched Pubmed database and Springer database for the related literatures on CD40/40L, leukemic stem cell and leukemia published from January 1995 to December 2005, using the keyword "CD40, 40L, leukemic stem cell, leukemia" in English.STUDY SELECTION: We focused on published data that included the literatures of experimental groups and control groups, excluded obviously no random experiments, no random clinical studies and repeated researches.DATA EXTRACTION: We collected 30 experimental articles on influence of co-stimulatory signal produced by CD40/CD40L on proliferation and differentiation of leukemic stem cells and B cells as well as the role of CD40L anti-leukemia. Twenty-three articles that met inclusion criteria, excluded 7 articles were the same research ones.DATA SYNTHESIS: Twenty-three trials included influence of co-stimulatory signal produced by CD40/CD40L on proliferation and differentiation of leukemic stem cells, B cells and prognosis of leukemia, and the treatment of leukemic patients by CD40L. We analyzed the influence and role of co-stimulatory signal produced by CD40/CD40L on proliferation and differentiation of leukemic stem cells, B cells and leukemia.CONCLUSION: The evidence conformed that co-stimulatory signal produced by CD40/CD40L promoted proliferation and differentiation of leukemic stem cells , B cells, and it is important for the occurrence,progress and prognosis of leukemia. CD40/CD40L plays a crucial part in immune response, and proves wide application in the immune therapy of leukemia.
2.Expression and functional role of HERG1, K+ channels in leukemic cells and leukemic stem cells.
Huiyu, LI ; Liqiong, LIU ; Tiannan, GUO ; Jiahua, ZHANG ; Xiaoqing, LI ; Wen, DU ; Wei, LIU ; Xiangjun, CHEN ; Shi'ang, HUANG
Journal of Huazhong University of Science and Technology (Medical Sciences) 2007;27(3):257-60
In order to investigate the expression and functional role of HERG1 K+ channels in leukemic cells and leukemic stem cells (LSCs), RT-PCR was used to detect the HERG1 K+ channels expression in leukemic cells and LSCs. The functional role of HERG1 K+ channels in leukemic cell proliferation was measured by MTT assay, and cell cycle and apoptosis were analyzed by flow cytometry. The results showed that herg mRNA was expressed in CD34+/CD38-, CD123+ LSCs but not in circulating CD34+ cells. Herg mRNA was also up-regulated in leukemia cell lines K562 and HL60 as well as almost all the primary leukemic cells while not in normal peripheral blood mononuclear cells (PBMNCs) and the expression of herg mRNA was not associated with the clinical and cytogenetic features of leukemia. In addition, leukemic cell proliferation was dramatically inhibited by HERG K+ channel special inhibitor E-4031. Moreover, E-4031 suppressed the cell growth by inducing a specific block at the G1/S transition phase of the cell cycle but had no effect on apoptosis in leukemic cells. The results suggested that HERG1 K+ channels could regulate leukemic cells proliferation and were necessary for leukemic cells to proceed with the cell cycle. HERG1 K+ channels may also have oncogenic potential and may be a biomarker for diagnosis of leukemia and a novel potential pharmacological target for leukemia therapy.
3.Expression and Fuactional Role of HERG1, K+ Channels in Leukemic Cells and Leukemic Stem Cells
Huiyu LI ; Liqiong LIU ; Tiannan GUO ; Jiahua ZHANG ; Xiaoqing LI ; Wen DU ; Wei LIU ; Xiangjun CHEN ; Shi'ang HUANG
Journal of Huazhong University of Science and Technology (Medical Sciences) 2007;27(3):257-260
In order to investigate the expression and functional role of HERG1 K+ channels in leukemic cells and leukemic stem cells (LSCs), RT-PCR was used to detect the HERG1 K+ channels expression in leukemic cells and LSCs. The functional role of HERG1 K+ channels in leukemic cell proliferation was measured by MTT assay, and cell cycle and apoptosis were analyzed by flow cytometry. The results showed that herg mRNA was expressed in CD34+/CD38-, CD123+ LSCs but not in circulating CD34+ cells. Herg mRNA was also up-regulated in leukemia cell lines K562 and HL60 as well as almost all the primary leukemic cells while not in normal peripheral blood mononuclear cells (PBMNCs) and the expression of herg mRNA was not associated with the clinical and cytogenetic features of leukemia. In addition, leukemic cell proliferation was dramatically inhibited by HERG K+ channel special inhibitor E-4031. Moreover, E-4031 suppressed the cell growth by inducing a specific block at the G1/S transition phase of the cell cycle but had no effect on apoptosis in leukemic cells. The results suggested that HERG1 K+ channels could regulate leukemic cells proliferation and were necessary for leukemic cells to proceed with the cell cycle. HERG1 K+ channels may also have oncogenic potential and may be a biomarker for diagnosis of leukemia and a novel potential pharmacological target for leukemia therapy.
4.Longitudinal proteomic investigation of COVID-19 vaccination.
Yingrui WANG ; Qianru ZHU ; Rui SUN ; Xiao YI ; Lingling HUANG ; Yifan HU ; Weigang GE ; Huanhuan GAO ; Xinfu YE ; Yu SONG ; Li SHAO ; Yantao LI ; Jie LI ; Tiannan GUO ; Junping SHI
Protein & Cell 2023;14(9):668-682
Although the development of COVID-19 vaccines has been a remarkable success, the heterogeneous individual antibody generation and decline over time are unknown and still hard to predict. In this study, blood samples were collected from 163 participants who next received two doses of an inactivated COVID-19 vaccine (CoronaVac®) at a 28-day interval. Using TMT-based proteomics, we identified 1,715 serum and 7,342 peripheral blood mononuclear cells (PBMCs) proteins. We proposed two sets of potential biomarkers (seven from serum, five from PBMCs) at baseline using machine learning, and predicted the individual seropositivity 57 days after vaccination (AUC = 0.87). Based on the four PBMC's potential biomarkers, we predicted the antibody persistence until 180 days after vaccination (AUC = 0.79). Our data highlighted characteristic hematological host responses, including altered lymphocyte migration regulation, neutrophil degranulation, and humoral immune response. This study proposed potential blood-derived protein biomarkers before vaccination for predicting heterogeneous antibody generation and decline after COVID-19 vaccination, shedding light on immunization mechanisms and individual booster shot planning.
Humans
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COVID-19 Vaccines
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Leukocytes, Mononuclear
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Proteomics
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COVID-19/prevention & control*
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Vaccination
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Antibodies
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Antibodies, Viral
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Antibodies, Neutralizing