Frontiers in Nutrition (Jan 2024)

Development and large-scale production of human milk fat analog by fermentation of microalgae

  • Xiaoying Zhou,
  • Xinhua Zhao,
  • Leon Parker,
  • Paul Derkach,
  • Mona Correa,
  • Veronica Benites,
  • Roberta Miller,
  • Dino Athanasiadis,
  • Bryce Doherty,
  • Gawharah Alnozaili,
  • Jon Wittenberg,
  • Daniel Gates,
  • Frédéric Destaillats,
  • Walter Rakitsky,
  • Scott Franklin

DOI
https://doi.org/10.3389/fnut.2024.1341527
Journal volume & issue
Vol. 11

Abstract

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BackgroundHuman milk contains a complex mixture of triacylglycerols (TAG), making it challenging to recreate using common ingredients.ObjectiveThe study aimed to develop an innovative fermentation technique to produce essential human milk TAG, effectively tackling a significant hurdle in infant nutrition.MethodAn in-depth analysis of the literature has been conducted to identify the specific TAG to be targeted. We used a microalgal oil production platform and a two-step procedure to modify its fatty acid and TAG composition. The palmitic acid (16:0) content has been increased by classical strain improvement techniques, followed by a step involving the expression of a lysophosphatidic acid acyltransferase (LPAAT) sequence capable of esterifying 16:0 specifically at the internal position (sn-2 palmitate) of TAG. Once the strain was stabilized, the fermentation was scaled up in a 50-L reactor to yield several kilograms of biomass. Subsequently, the oil was extracted and refined using standard oil processing conditions. Liquid chromatography-mass spectrometry was employed to monitor the TAG profile and the region specificity of 16:0 at the internal position (sn-2 palmitate) of TAG.ResultsThe initial strain had a 16:0 level of 25% of total fatty acids, which was increased to 30% by classical strain improvement. Simultaneously, the oleic acid level decreased from 61% to 57% of total fatty acids. Upon expression of an exogenous LPAAT gene, the level of the 16:0 esterified in the internal position of the TAG (sn-2 palmitate) increased by a factor of 10, to reach 73% of total palmitic acid. Consequently, the concentration of oleic acid in the internal position decreased from 81% to 22% of total fatty acids, with TAG analysis confirming that the primary TAG species in the oil was 1,3-dioleoyl-2-palmitoyl-glycerol (OPO). The 50-L-scale fermentation trial confirmed the strain's ability to produce oil with a yield of >150 g of oil per liter of fermentation broth in a timeframe of 5 days, rendering the process scalable for larger-scale industrialization.ConclusionWe have demonstrated the feasibility of producing a suitable TAG composition that can be effectively integrated into the formulations of infant nutrition in combination with other fats and oils to meet the infant feeding requirements.

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