The leghemoglobin protein (LegH) from soy (Glycine max)
expressed in Pichia pastoris (LegH preparation, LegH Prep)
imparts a meat-like flavor profile onto plant-based food products. The safety of
LegH Prep was evaluated through a series of in vitro and in vivo tests. The
genotoxic potential of LegH Prep was assessed using the bacterial reverse
mutation assay (Ames test) and the in vitro chromosome aberration test. LegH
Prep was nonmutagenic and nonclastogenic in each test, respectively. Systemic
toxicity was assessed in a 28-day dietary study in male and female Sprague
Dawley rats. There were no mortalities associated with the administration of
LegH Prep. There were no clinical observations, body weight, ophthalmological,
clinical pathology, or histopathological changes attributable to LegH Prep
administration. There were no observed effects on male reproduction in this
study, but the suggestion of a potential estrous cycle distribution effect in
female rats prompted a second comprehensive 28-day dietary study in female
Sprague Dawley rats. This study demonstrated that female reproductive parameters
were comparable between rats treated with LegH Prep and concurrent control rats.
These studies establish a no observed adverse effect level of 750 mg/kg/d LegH,
which is over 100 times greater than the 90th percentile estimated daily intake.
Collectively, the results of the studies presented raise no issues of
toxicological concern with regard to LegH Prep under the conditions tested.
ScopeThe Soybean (Glycine max) leghemoglobin c2 (LegHb) gene was introduced into Pichia pastoris yeast for sustainable production of a heme‐carrying protein, for organoleptic use in plant‐based meat. The potential allergenicity and toxicity of LegHb and 17 Pichia host‐proteins each representing ≥1% of total protein in production batches are evaluated by literature review, bioinformatics sequence comparisons to known allergens or toxins, and in vitro pepsin digestion.Methods and resultsLiterature searches found no evidence of allergenicity or toxicity for these proteins. There are no significant sequence matches of LegHb to known allergens or toxins. Eleven Pichia proteins have modest identity matches to minor environmental allergens and 13 Pichia proteins have significant matches to proteins from toxic sources. Yet the matched allergens and toxins have similar matches to proteins from the commonly consumed yeast Saccharomyces cerevisiae, without evidence of food allergy or toxicity. The demonstrated history of safe use indicates additional tests for allergenicity and toxicity are not needed. The LegHb and Pichia sp. proteins were rapidly digested by pepsin at pH 2.ConclusionThese results demonstrate that foods containing recombinant soy LegHb produced in Pichia sp. are unlikely to present an unacceptable risk of allergenicity or toxicity to consumers.
The leghemoglobin protein (LegH) from soy (Glycine max) expressed in Pichia pastoris (LegH Prep) imparts a meat-like flavor profile onto plant-based food products. The safety of LegH Prep was evaluated through a series of in vitro and in vivo tests. The genotoxic potential of LegH Prep was assessed using the bacterial reverse mutation assay (Ames test) and the in vitro chromosome aberration test. LegH Prep was non-mutagenic and non-clastogenic in each test, respectively. Systemic and female reproductive toxicity were assessed in two separate 28-day dietary studies in Sprague Dawley rats. There were no mortalities associated with the administration of LegH Prep. There were no clinical observations, body weight, ophthalmological, clinical pathology, or histopathological changes attributable to LegH Prep administration. Female reproductive parameters were comparable between rats treated with LegH Prep and concurrent control rats. These studies establish an NOAEL of 750 mg/kg/day LegH, which is over 100 times greater than the 90th percentile estimated daily intake (EDI). Collectively, this work demonstrates that LegH Prep is safe for its intended use in ground beef analogue products at concentrations up to 0.8% LegH.
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