S Coward scite author profile

Alginate-encapsulated HepG2 cells cultured in microgravity have the potential to serve as the cellular component of a bioartificial liver. This study investigates their performance in normal and liver failure (LF) human plasma over 6-8 h in a fluidized bed bioreactor. After 8 days of microgravity culture, beads containing 1.5 x 10(9) cells were perfused for up to 8 h at 48 mL/min with 300 mL of plasma. After exposure to 90% LF plasma, vital dye staining showed maintained cell viability, while a 7% increase in lactate dehydrogenase activity indicated minimal cell damage. Glucose consumption, lactate production, and a 4.3-fold linear increase in alpha-fetoprotein levels were observed. Detoxificatory function was demonstrated by quantification of bilirubin conjugation, urea synthesis, and Cyp450 1A activity. These data show that in LF plasma, alginate-encapsulated HepG2 cells can maintain viability, and metabolic, synthetic, and detoxificatory activities, indicating that the system can be scaled-up to form the biological component of a bioartificial liver.

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Proliferation Rates of HepG2 Cells Encapsulated in Alginate Are Increased in a Microgravity Environment Compared With Static Cultures

Coward

Selden

Mantalaris

et al. 2005

Artificial Organs

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This study investigates the effect of rotary culture compared with static culture on the proliferation, cell viability, synthetic function and detoxificatory capacity of HepG2 cells encapsulated in 1% alginate. Cell viability and alginate bead morphology were maintained in the rotary culture system at day 10, while cell number showed a 4.5-fold increase compared with static culture. Protein production was increased in rotary cultures with a 4.1-fold increase in total albumin and a 4.4-fold increase in alpha1 antitrypsin levels in rotary compared with static culture at day 10. CYP4501A1/2 activity was maintained between the two culture systems. In conclusion, rotary culture increases proliferation rates leading to improved bead packing and a concomitant increase in total protein synthesis, along with maintenance of detoxificatory capacity. This allows a greater level of hepatic function to be expressed in a given volume, offering clear advantages for the design of liver support systems.

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Altered mitochondrial function and cholesterol synthesis influences protein synthesis in extended HepG2 spheroid cultures

Damelin

Coward

Choudhury

et al. 2004

Archives of Biochemistry and Biophysics

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Fat‐loaded HepG2 spheroids exhibit enhanced protection from Pro‐oxidant and cytokine induced damage

Damelin

Coward

Kirwan

et al. 2007

J of Cellular Biochemistry

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The mechanisms by which steatosis renders hepatocytes susceptible to damage in non-alcoholic steatohepatitis (NASH) are unclear although fat accumulation is believed to increase hepatocyte susceptibility to inflammatory cytokines and oxidative stress. We therefore investigated the susceptibility of steatotic, hepatocyte-derived cells to TNFalpha and the pro-oxidant, t-butylhydroperoxide (TBH). HepG2 spheroids rendered steatotic by fat-loading with 0.15 mM oleic or palmitic acid for 48 h and treated with TNFalpha or TBH for 18 h exhibited surprisingly lower levels of cytotoxicity, and increased anti-oxidant activity (superoxide dismutase (SOD)) compared with non fat-loaded controls. The protective effect of steatosis was significantly reversed by the inhibition of AMP-activated kinase (AMPK) since spheroids transfected with a kinase-dead AMPKalpha2 subunit, exhibited a significant increase in TBH-induced cytotoxicity when fat-loaded. In conclusion, our findings suggest that fat-loaded hepatocyte-derived cells are surprisingly less susceptible to cytokine and pro-oxidant induced damage via an adaptive mechanism dependent, in part, on AMPK activity.

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S Coward

Alginate‐encapsulated HepG2 Cells in a Fluidized Bed Bioreactor Maintain Function in Human Liver Failure Plasma

Proliferation Rates of HepG2 Cells Encapsulated in Alginate Are Increased in a Microgravity Environment Compared With Static Cultures

Altered mitochondrial function and cholesterol synthesis influences protein synthesis in extended HepG2 spheroid cultures

Fat‐loaded HepG2 spheroids exhibit enhanced protection from Pro‐oxidant and cytokine induced damage

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