ISSN:
1573-0778
Keywords:
cadmium toxicity
;
metallothionein promoter
;
recombinant proteins
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
,
Medicine
,
Process Engineering, Biotechnology, Nutrition Technology
Notes:
Abstract A stably transformed BHK cell line, engineered to produce a human transferrin half-molecule under the control of a mouse metallothionein (MT) promoter, was used as a model system to develop strategies to increase inducible recombinant protein production. Gene expression regulated by the MT promoter is induced by heavy metals (e.g. Zn+2 or Cd+2) in a dose dependent fashion. However, at high concentrations these metals are toxic to cells. Culture protocols which balance these counteractive effects are needed to maximize transferrin production. Fully induced cells produced up to 0.7 pg transferrin/cell·h, a 3-fold increase in production over uninduced levels. Cell growth was inhibited at Cd+2 dosages above 1 fmol/cell; prolinged exposure at this dosage was cytotoxic. Cell specific transferrin productivities decreased within 48 h following induction with Cd+2 although cell-associated Cd+2 levels remain high. Further addition of Cd+2 to cultures restored cell specific transferrin production rates. This suggests that cell associated Cd+2 is sequestered into a form which does not stimulate the MT promoter. Cd+2 dosing regimes which maintained cell associated Cd+2 concentrations between 0.2 and 0.35 fmol/cell ensured cell growth and high cell specific productivities which maximized final product titers. For routine batch culture, initial Cd+2 loadings of 0.8 fmol/cell gave near-maximum transferrin production levels. For extended culture, repeated small doses of 0.5 fmol/cell every 24 to 48 h maximized transferrin synthesis with this cell line.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00365344
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