Alternative cell factories, such as the unicellular ciliate eukaryotic Tetrahymena thermophila, may be required for the production of protein therapeutics that are challenging to produce in conventional expression systems. T. thermophila (Tt) can secrete proteins with the post-translational modifications necessary for their function in humans. In this study, we tested if T. thermophila could process the human pre-proinsulin to produce hormonally active human insulin (hINS) with correct modifications. Flask and bioreactor culture of T. thermophila were used to produce the recombinant Tt-hINS either with or without an affinity tag from a codon-adapted pre-proinsulin sequence. Our results indicate that T. thermophila can produce a 6 kDa Tt-hINS monomer with the appropriate disulfide bonds after removal of the human insulin signal sequence or endogenous phospholipase A signal sequence, and the C-peptide of the human insulin. Additionally, Tt-hINS can form 12 kDa dimeric, 24 kDa tetrameric, and 36 kDa hexameric complexes. Tt-hINS-sfGFP fusion protein was localized to the vesicles within the cytoplasm and was secreted extracellularly. Assessing the affinity-purified Tt-hINS activity using the in vivo T. thermophila extracellular glucose drop assay, we observed that Tt-hINS induced a significant reduction (approximately 21 %) in extracellular glucose levels, indicative of its functional insulin activity. Our results demonstrate that T. thermophila is a promising candidate for the pharmaceutical and biotechnology industries as a host organism for the production of human protein drugs.
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