Expression and manufacturing of protein therapeutics in spirulina
Author:
Jester BenjaminORCID, Zhao Hui, Gewe Mesfin, Adame Thomas, Perruzza Lisa, Bolick David, Agosti Jan, Khuong Nhi, Kuestner Rolf, Gamble Caitlin, Cruickshank Kendra, Ferrara Jeremy, Lim Rachelle, Paddock Troy, Brady Colin, Ertel Stacey, Zhang Mia, Tasch Michael, Saveria Tracy, Doughty David, Marshall Jacob, Carrieri Damian, Lee Jamie, Goetsch Lauren, Dang Jason, Sanjaya Nathaniel, Fletecher David, Martinez Anissa, Kadis Bryce, Sigmar Kristjian, Afreen Esha, Nguyen Tammy, Randolph Amanda, Taber Alexandria, Krzeszowski Ashley, Robinett Brittney, Grassi Fabio, Guerrant Richard, Spigarelli Michael, Takeuchi Ryo, Finrow Brian, Behnke Craig, Roberts James
Abstract
ABSTRACTArthrospira platensis(commonly known as spirulina) is a photosynthetic cyanobacterium1. It is a highly nutritious food that has been consumed for decades in the US, and even longer by indigenous cultures2. Its widespread use as a safe food source and proven scalability have driven frequent attempts to convert it into a biomanufacturing platform. But these were repeatedly frustrated by spirulina’s genetic intractability. We report here efficient and versatile genetic engineering methodology for spirulina that allows stable expression of bioactive protein therapeutics at high levels. We further describe large-scale, indoor cultivation and downstream processing methods appropriate for the manufacturing of biopharmaceuticals in spirulina. The potential of the platform is illustrated by pre-clinical development and human testing of an orally delivered antibody therapeutic against campylobacter, a major cause of infant mortality in the developing world and a growing antibiotic resistance threat3,4. This integrated development and manufacturing platform blends the safety of food-based biotechnology with the ease of genetic manipulation, rapid growth rates and high productivity characteristic of microbial platforms. These features combine for exceptionally low-cost production of biopharmaceuticals to address medical needs that are unfeasible with current biotechnology platforms.
Publisher
Cold Spring Harbor Laboratory
Reference71 articles.
1. Vonshak, A. Spirulina Platensis Arthrospira. (CRC Press, 2002). 2. Gershwin, M. E. & Belay, A. Spirulina in Human Nutrition and Health. (CRC Press, 2007). 3. Prevalence and antimicrobial resistance of Campylobacter jejuni and Campylobacter coli isolated from children and environmental sources in urban and suburban areas;BMC Microbiol.,2017 4. Antibiotic resistance in Campylobacter and other diarrheal pathogens isolated from US military personnel deployed to Thailand in 2002–2004: a case–control study;Trop Dis Travel Med Vaccines,2017 5. Construction of Biologically Functional Bacterial Plasmids In Vitro
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