Construction and characterization of Zn-WPH-COS complex nanoparticles with improved zinc bioavailability

Precipitation was an important obstacle to improving zinc's bioavailability. Therefore, zinc-whey protein hydrolysate-chitosan oligosaccharide (Zn-WPH-COS) complexes (167 nm) were prepared by linking Zn-WPH (zinc: 18.4%) with COS (1:1, 2 h) to enhance zinc's bioaccessibility. Fourier-transform infrared showed Zn-WPH formed with zinc replaced hydrogen (from 3274 to 3279 cm−1) and reacted with COO− (C-N: from 1394 to 1402 cm−1), a new peak at 1025 cm−1 proved COS can be successful cross-linked (Zn-WPH-COS). Fluorescence spectra showed zinc and COS reduced WPH hydrophobicity (28.0 and 39.0%, respectively). Circular dichroism showed zinc decreased WPH α-helix (from 13.7 to 11.5%), in contrast with COS to Zn-WPH. Zinc solubility and dialyzability were increased (64.5/ 54.2% vs 50.2/ 41.2% vs 29.5/ 21.7%) in Zn-WPH-COS, compared with Zn-WPH and ZnSO4·7H2O, respectively, due to the smallest size (167 nm) and COS protection on Zn-WPH (gastric digestion). These results indicate Zn-WPH-COS could significantly improve the digestion and absorption of zinc. [Display omitted] •Zinc-whey protein hydrolysate and chitosan oligosaccharide linked by covalent bonds.•Chitosan oligosaccharide provides protection for zinc-whey protein hydrolysate.•Both zinc and chitosan oligosaccharide reduced the surface hydrophobicity of protein.•Nanoparticles improve the bioaccessibility of zinc compared to zinc peptide chelates.