Engineering the sialic acid in organs of mice using N-propanoylmannosamine

Sialic acids play an important role during development, regeneration and pathogenesis. The precursor of most physiological sialic acids, such as N-acetylneuraminic acid is N-acetyl- d-mannosamine. Application of the novel N-propanoylmannosamine leads to the incorporation of the new sialic acid N-pro...

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Published inBiochimica et biophysica acta Vol. 1770; no. 2; pp. 297 - 306
Main Authors Gagiannis, Daniel, Gossrau, Reinhart, Reutter, Werner, Zimmermann-Kordmann, Martin, Horstkorte, Rüdiger
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.02.2007
Subjects
Animals
Biochemical engineering
Brain - metabolism
Cell Membrane - metabolism
Flow Cytometry
Genetic Engineering
Hexosamines - metabolism
Liver - metabolism
Male
Mice
Mice, Inbred C57BL
Muscle, Skeletal - metabolism
Myocardium - metabolism
N-Acetylneuraminic Acid - biosynthesis
N-Acetylneuraminic Acid - blood
N-Acetylneuraminic Acid - metabolism
Neural cell adhesion molecule
Organ Specificity
Polysialic acid
Sialic acid
Subcellular Fractions - metabolism
Sialic acid
Neural cell adhesion molecule
Biochemical engineering
Polysialic acid
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Abstract Sialic acids play an important role during development, regeneration and pathogenesis. The precursor of most physiological sialic acids, such as N-acetylneuraminic acid is N-acetyl- d-mannosamine. Application of the novel N-propanoylmannosamine leads to the incorporation of the new sialic acid N-propanoylneuraminic acid into cell surface glycoconjugates. Here we analyzed the modified sialylation of several organs with N-propanoylneuraminic acid in mice. By using peracetylated N-propanoylmannosamine, we were able to replace in vivo between 1% (brain) and 68% (heart) of physiological sialic acids by N-propanoylneuraminic acid. The possibility to modify cell surfaces with engineered sialic acids in vivo offers the opportunity to target therapeutic agents to sites of high sialic acid concentration in a variety of tumors. Furthermore, we demonstrated that application of N-propanoylmannosamine leads to a decrease in the polysialylation of the neural cell adhesion molecule in vivo, which is a marker of poor prognosis for some tumors with high metastatic potential.
AbstractList Sialic acids play an important role during development, regeneration and pathogenesis. The precursor of most physiological sialic acids, such as N-acetylneuraminic acid is N-acetyl-D-mannosamine. Application of the novel N-propanoylmannosamine leads to the incorporation of the new sialic acid N-propanoylneuraminic acid into cell surface glycoconjugates. Here we analyzed the modified sialylation of several organs with N-propanoylneuraminic acid in mice. By using peracetylated N-propanoylmannosamine, we were able to replace in vivo between 1% (brain) and 68% (heart) of physiological sialic acids by N-propanoylneuraminic acid. The possibility to modify cell surfaces with engineered sialic acids in vivo offers the opportunity to target therapeutic agents to sites of high sialic acid concentration in a variety of tumors. Furthermore, we demonstrated that application of N-propanoylmannosamine leads to a decrease in the polysialylation of the neural cell adhesion molecule in vivo, which is a marker of poor prognosis for some tumors with high metastatic potential.Sialic acids play an important role during development, regeneration and pathogenesis. The precursor of most physiological sialic acids, such as N-acetylneuraminic acid is N-acetyl-D-mannosamine. Application of the novel N-propanoylmannosamine leads to the incorporation of the new sialic acid N-propanoylneuraminic acid into cell surface glycoconjugates. Here we analyzed the modified sialylation of several organs with N-propanoylneuraminic acid in mice. By using peracetylated N-propanoylmannosamine, we were able to replace in vivo between 1% (brain) and 68% (heart) of physiological sialic acids by N-propanoylneuraminic acid. The possibility to modify cell surfaces with engineered sialic acids in vivo offers the opportunity to target therapeutic agents to sites of high sialic acid concentration in a variety of tumors. Furthermore, we demonstrated that application of N-propanoylmannosamine leads to a decrease in the polysialylation of the neural cell adhesion molecule in vivo, which is a marker of poor prognosis for some tumors with high metastatic potential.
Sialic acids play an important role during development, regeneration and pathogenesis. The precursor of most physiological sialic acids, such as N-acetylneuraminic acid is N-acetyl-D-mannosamine. Application of the novel N-propanoylmannosamine leads to the incorporation of the new sialic acid N-propanoylneuraminic acid into cell surface glycoconjugates. Here we analyzed the modified sialylation of several organs with N-propanoylneuraminic acid in mice. By using peracetylated N-propanoylmannosamine, we were able to replace in vivo between 1% (brain) and 68% (heart) of physiological sialic acids by N-propanoylneuraminic acid. The possibility to modify cell surfaces with engineered sialic acids in vivo offers the opportunity to target therapeutic agents to sites of high sialic acid concentration in a variety of tumors. Furthermore, we demonstrated that application of N-propanoylmannosamine leads to a decrease in the polysialylation of the neural cell adhesion molecule in vivo, which is a marker of poor prognosis for some tumors with high metastatic potential.
Sialic acids play an important role during development, regeneration and pathogenesis. The precursor of most physiological sialic acids, such as N-acetylneuraminic acid is N-acetyl- d-mannosamine. Application of the novel N-propanoylmannosamine leads to the incorporation of the new sialic acid N-propanoylneuraminic acid into cell surface glycoconjugates. Here we analyzed the modified sialylation of several organs with N-propanoylneuraminic acid in mice. By using peracetylated N-propanoylmannosamine, we were able to replace in vivo between 1% (brain) and 68% (heart) of physiological sialic acids by N-propanoylneuraminic acid. The possibility to modify cell surfaces with engineered sialic acids in vivo offers the opportunity to target therapeutic agents to sites of high sialic acid concentration in a variety of tumors. Furthermore, we demonstrated that application of N-propanoylmannosamine leads to a decrease in the polysialylation of the neural cell adhesion molecule in vivo, which is a marker of poor prognosis for some tumors with high metastatic potential.
Author Reutter, Werner
Zimmermann-Kordmann, Martin
Horstkorte, Rüdiger
Gagiannis, Daniel
Gossrau, Reinhart
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  givenname: Reinhart
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  givenname: Martin
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  organization: Institut für Biochemie und Molekularbiologie, Charité-Universitätsmedizin Berlin, Campus Benjamin Franklin, Arnimallee 22, 14195 Berlin-Dahlem, Germany
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Keywords Sialic acid
Neural cell adhesion molecule
Biochemical engineering
Polysialic acid
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  ident: 10.1016/j.bbagen.2006.09.023_bib40
  article-title: N-Glycolylneuraminic acid in human tumours
  publication-title: Biochimie
  doi: 10.1016/S0300-9084(01)01303-7
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Snippet Sialic acids play an important role during development, regeneration and pathogenesis. The precursor of most physiological sialic acids, such as...
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SubjectTerms Animals
Biochemical engineering
Brain - metabolism
Cell Membrane - metabolism
Flow Cytometry
Genetic Engineering
Hexosamines - metabolism
Liver - metabolism
Male
Mice
Mice, Inbred C57BL
Muscle, Skeletal - metabolism
Myocardium - metabolism
N-Acetylneuraminic Acid - biosynthesis
N-Acetylneuraminic Acid - blood
N-Acetylneuraminic Acid - metabolism
Neural cell adhesion molecule
Organ Specificity
Polysialic acid
Sialic acid
Subcellular Fractions - metabolism
Title Engineering the sialic acid in organs of mice using N-propanoylmannosamine
URI https://dx.doi.org/10.1016/j.bbagen.2006.09.023
https://www.ncbi.nlm.nih.gov/pubmed/17110045
https://www.proquest.com/docview/68382747
Volume 1770
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