Gui Qiang Wang scite author profile

Granzyme B (GrB), a serine protease with substrate specificity similar to the caspase family, is a major component of granule-mediated cytotoxicity of T lymphocytes. Although GrB can directly activate caspases, it induces apoptosis predominantly via Bid cleavage, mitochondrial outer membrane permeabilization, and cytochrome c release. To study the molecular regulators for GrB-mediated mitochondrial apoptotic events, we used a CTL-free cytotoxicity system, wherein target cells are treated with purified GrB and replication-deficient adenovirus (Ad). We report here that the Bcl-2 proapoptotic family member, Bak, plays a dominant role in GrB-mediated mitochondrial apoptotic events. A variant of Jurkat cells, deficient in Bak expression, was resistant to GrB/Ad-mediated apoptosis, as determined by lack of membranous phosphatidylserine exposure, lack of DNA breaks, lack of mitochondrial outer membrane permeabilization, and unchanged expression of inner mitochondrial membrane cardiolipin. The resistance of Bak-deficient cells to GrB/Ad cytotoxicity was reversed by transduction of the Bak gene into these cells. The requirement for both Bid and Bak, was further demonstrated in a cell-free system using purified mitochondria and S-100 cytosol. Purified mitochondria from Bid knockout mice, but not from Bax knockout mice, failed to release cytochrome c in response to autologous S-100 and GrB. Also, Bak-deficient mitochondria did not release cytochrome c in response to GrB-treated cytosol unless recombinant Bak protein was added. These results are the first to report a role for Bak in GrB-mediated mitochondrial apoptosis. This study demonstrates that GrB-cleaved Bid, which differs in size and site of cleavage from caspase-8-cleaved Bid, utilizes Bak for cytochrome c release, and therefore, suggests that deficiency in Bak may serve as a mechanism of immune evasion for tumor or viral infected cells.

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Apoptosis-resistant Mitochondria in T Cells Selected for Resistance to Fas Signaling

Wang¹,

Gastman²,

Wieckowski³

et al. 2001

Journal of Biological Chemistry

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A novel apoptotic pathway as defined by lectin cellular initiation

Gastman

Wang

Han

et al. 2004

Biochemical and Biophysical Research Communications

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Excellent Capacitive Performance of a Three‐Dimensional Hierarchical Porous Graphene/Carbon Composite with a Superhigh Surface Area

Wang

Zhou

et al. 2014

Chemistry A European J

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Three-dimensional hierarchical porous graphene/carbon composite was successfully synthesized from a solution of graphene oxide and a phenolic resin by using a facile and efficient method. The morphology, structure, and surface property of the composite were investigated intensively by a variety of means such as scanning electron microscopy (SEM), transmission electron microscopy (TEM), N2 adsorption, Raman spectroscopy, and Fourier transform infrared spectroscopy (FTIR). It is found that graphene serves as a scaffold to form a hierarchical pore texture in the composite, resulting in its superhigh surface area of 2034 m(2) g(-1), thin macropore wall, and high conductivity (152 S m(-1)). As evidenced by electrochemical measurements in both EMImBF4 ionic liquid and KOH electrolyte, the composite exhibits ideal capacitive behavior, high capacitance, and excellent rate performance due to its unique structure. In EMImBF4 , the composite has a high energy density of up to 50.1 Wh kg(-1) and also possesses quite stable cycling stability at 100 °C, suggesting its promising application in high-temperature supercapacitors. In KOH electrolyte, the specific capacitance of this composite can reach up to an unprecedented value of 186.5 F g(-1), even at a very high current density of 50 A g(-1), suggesting its prosperous application in high-power applications.

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Prophylactic Use of Entecavir for Lymphoma Patients With Past Hepatitis B Virus Infection: A Randomized Controlled Trial

Liu

Xiao

Xue

et al. 2019

Clinical Lymphoma Myeloma and Leukemia

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Hepatitis B virus reactivation after withdrawal of prophylactic antiviral therapy in patients with diffuse large B cell lymphoma

Liu

Wang

Zheng

et al. 2016

Leukemia & Lymphoma

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The exact incidence and severity of hepatitis B virus (HBV) reactivation after the withdrawal of prophylactic antiviral therapy (delayed HBV reactivation) is unknown. We retrospectively analyzed 107 newly diagnosed diffuse large B cell lymphoma patients with HBV infection who received chemotherapy. The median time from the cessation of antitumor therapy to the withdrawal of prophylactic antiviral therapy was 6.1 months. The incidence of delayed HBV reactivation was 21.7% in HBsAg-positive group and 0 in HBsAg-negative/anti-HBc-positive group (P < 0.001). No HBV-related fulminant hepatitis or hepatitis-related death occurred. The multivariate analysis showed that female gender and lengthy cycles of chemotherapy (>8 cycles) were independent risk factors of HBV reactivation in HBsAg-positive patients. In conclusion, prophylactic antiviral therapy could be withdrawn 6 months after the cessation of chemotherapy in HBsAg-negative/anti-HBc-positive patients. However, a longer course of prophylactic antiviral drug administration may be an optimal option to prevent delayed HBV reactivation for HBsAg-positive patients.

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Gui Qiang Wang

Cytokine release syndrome in severe COVID-19: interleukin-6 receptor antagonist tocilizumab may be the key to reduce mortality

A Role for Mitochondrial Bak in Apoptotic Response to Anticancer Drugs

Resistance to Granzyme B-mediated Cytochrome c Release in Bak-deficient Cells

Apoptosis-resistant Mitochondria in T Cells Selected for Resistance to Fas Signaling

A novel apoptotic pathway as defined by lectin cellular initiation

Excellent Capacitive Performance of a Three‐Dimensional Hierarchical Porous Graphene/Carbon Composite with a Superhigh Surface Area

Prophylactic Use of Entecavir for Lymphoma Patients With Past Hepatitis B Virus Infection: A Randomized Controlled Trial

Hepatitis B virus reactivation after withdrawal of prophylactic antiviral therapy in patients with diffuse large B cell lymphoma

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