Paulo S. Monzani, Juliano R. Sangalli, Rafael V. Sampaio, Samuel Guemra, Renato Zanin, Paulo R. Adona, Maria A. Berlingieri, Luiz F. C. Cunha-Filho, Irma Y. Mora- Ocampo, Carlos P. Pirovani, Flávio V. Meirelles, Matthew B. Wheeler, Otavio M. Ohashi

Biotechnology Journal; First published: 12 March 2024.

https://doi.org/10.1002/biot.202300307

ABSTRACT

The worldwide growing demand for human insulin for treating diabetes could be supplied by transgenic animals producing insulin in their milk.

Pseudo-lentivirus containing the bovine β-casein promoter and human insulin sequences was used to produce modified adult fibroblasts, and the cells were used for nuclear transfer. Transgenic embryos were transferred to recipient cows, and one pregnancy was produced. Recombinant protein in milk was evaluated using western blotting and mass spectrometry. One transgenic cow was generated, and in milk analysis, two bands were observed in western blotting with a molecular mass corresponding to the proinsulin and insulin. The mass spectrometry analysis showed the presence of human insulin more than proinsulin in the milk, and it identified proteases in the transgenic milk that could convert proinsulin into insulin and insulin-degrading enzyme that could degrade the recombinant protein.

The methodologies used for generating the transgenic cow allowed the detection of the production of recombinant protein in the milk at low relative expression compared to milk proteins, using mass spectrometry, which was efficient for detecting recombinant protein with low expression in milk. Milk proteases could act on protein processing converting recombinant protein to functional protein. On the other hand, some milk proteases could act in degrading the recombinant protein.

See https://analyticalsciencejournals.onlinelibrary.wiley.com/doi/10.1002/biot.202300307?fbclid=IwAR3AY8OsD7Gr1uJEzUBEOXgpzCPWr3A15Htc4sTrPSZwuzLamiBZgDHJn7Y

Trở lại      In      Số lần xem: 74