We present a study of the competition between protein refolding and aggregation for simple lattice model proteins. The effect of solvent conditions (i.e., the denaturant concentration and the protein concentration) on the folding and aggregation behavior of a system of simple, two-dimensional lattice protein molecules has been investigated via dynamic Monte Carlo simulations. The population profiles and aggregation propensities of the nine most populated intermediate configurations exhibit a complex dependence on the solution conditions that can be understood by considering the competition between intra-and interchain interactions. Some of these configurations are not even seen in isolated chain simulations; they are observed to be highly aggregation prone and are stabilized primarily by the aggregation reaction in multiple-chain systems. Aggregation arises from the association of partially folded intermediates rather than from the association of denatured random-coil states. The aggregation reaction dominates over the folding reaction at high protein concentration and low denaturant concentration, resulting in low refolding yields at those conditions. However, optimum folding conditions exist at which the refolding yield is a maximum, in agreement with some experimental observations.
Increased levels of the endoplasmic reticulum-resident protein folding chaperone BiP would be expected to either increase protein secretory capacity by improved solubilization of folding precursors or decrease secretory capacity by binding and retaining misfolded proteins. To address this question, the relationship between BiP levels and heterologous secretion in yeast was determined. A yeast strain was constructed in which BiP expression is tunable from 5 to 250% of wild-type levels, and this strain was used to explore the effect of varying BiP level on overall secretion of three heterologous proteins: human granulocyte colony-stimulating factor, Schizosaccharomyces pombe acid phosphatase, and bovine pancreatic trypsin inhibitor. For all three proteins examined, reduction in BiP expression below wild-type level diminished overall secretion, whereas 5-fold BiP overexpression from a constitutive glycolytic promoter did not substantially increase or decrease secretion titers. These results are consistent with a positive role for BiP in promoting membrane translocation and solubilization of folding precursors but are inconsistent with a negative role in proofreading and improper retention of heterologous secreted proteins.
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