Foods (Nov 2023)

Optimum Fermentation Conditions for Bovine Lactoferricin-Lactoferrampin-Encoding <i>LimosiLactobacillus reuteri</i> and Regulation of Intestinal Inflammation

  • Weichun Xie,
  • Xueying Wang,
  • Jiyao Cai,
  • Huitao Bai,
  • Yilan Shao,
  • Zhuoran Li,
  • Limeng Cai,
  • Senhao Zhang,
  • Jiaxuan Li,
  • Wen Cui,
  • Yanping Jiang,
  • Lijie Tang

DOI
https://doi.org/10.3390/foods12224068
Journal volume & issue
Vol. 12, no. 22
p. 4068

Abstract

Read online

The multifunctional antibacterial peptide lactoferricin-lactoferrampin (LFCA) is derived from bovine lactoferrin. Optimization of the fermentation process should be studied since different microorganisms have their own favorable conditions and processes for growth and the production of metabolites. In this study, the culture conditions of a recombinant strain, pPG-LFCA-E/LR-CO21 (LR-LFCA), expressing LFCA was optimized, utilizing the high-density fermentation process to augment the biomass of LimosiLactobacillus reuteri and the expression of LFCA. Furthermore, an assessment of the protective effect of LR-LFCA on intestinal inflammation induced by lipopolysaccharide (LPS) was conducted to evaluate the impact of LR-LFCA on the disease resistance of piglets. The findings of this study indicate that LR-LFCA fermentation conditions optimally include 2% inoculation volume, 36.5 °C fermentation temperature, 9% dissolved oxygen concentration, 200 revolutions/minute stirring speed, pH 6, 10 mL/h glucose flow, and 50% glucose concentration. The inclusion of fermented LR-LFCA in the diet resulted in an elevation of immunoglobulin levels, significant upregulation of tight junction proteins ZO-1 and occludin, reinforcement of the intestinal barrier function, and significant amelioration of the aberrant alterations in blood physiological parameters induced by LPS. These results offer a theoretical framework for the implementation of this micro-ecological preparation in the field of piglet production to enhance intestinal well-being.

Keywords