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  • D-amino acids modulate the cellular response of enzymatic-instructed supramolecular nanofibers of small peptides.

D-amino acids modulate the cellular response of enzymatic-instructed supramolecular nanofibers of small peptides.

Biomacromolecules (2014-09-18)
Junfeng Shi, Xuewen Du, Dan Yuan, Jie Zhou, Ning Zhou, Yibing Huang, Bing Xu
ABSTRACT

Peptides made of D-amino acids, as the enantiomer of corresponding L-peptides, are able to resist proteolysis. It is, however, unclear or much less explored whether or how D-amino acids affect the cellular response of supramolecular nanofibers formed by enzyme-triggered self-assembly of D-peptides. In this work, we choose a cell compatible molecule, Nap-L-Phe-L-Phe-L-(p)Tyr (LLL-1P), and systematically replace the L-amino acids in this tripeptidic precursor or its hydrogelator by the corresponding D-amino acid(s). The replacement of even one D-amino acid in this tripeptidic precursor increases its proteolytic resistance. The results of static light scattering and TEM images show the formation of nanostructures upon the addition of alkaline phosphatase, even at concentrations below the minimum gelation concentration (mgc). All these isomers are able to form ordered nanostructures and exhibit different morphologies. According to the cell viability assay on these stereochemical isomers, cells exhibit drastically different responses to the enantiomeric precursors, but almost same responses to the enantiomeric hydrogelators. Furthermore, the different cellular responses of LLL-1P and DDD-1P largely originate from the ecto-phosphatases catalyzed self-assembly of DDD-1 on the surface of cells. Therefore, this report not only illustrates a new way for tailoring the properties of supramolecular assemblies, but also provides new insights to answering the fundamental question of how mammalian cells respond to enzymatic formation of nanoscale supramolecular assemblies (e.g., nanofibers) of D-peptides.

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N,N-diisopropiletilammina, 99.5%, biotech. grade
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HBTU, ≥98.0% (T)
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2-Naphthaleneacetic acid, 99%
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N-Ethyldiisopropylamine, BASF quality, ≥98.0%
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N-Ethyldiisopropylamine solution, suitable for peptide synthesis, ~2 M in 1-methyl-2-pyrrolidinone