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Cancer cells have high rates of glycolysis and lactic acid fermentation in order to fuel accelerated rates of cell division (Warburg effect). Here, we present a strategy for merging cancer and yeast metabolism to remove pyruvate, a key intermediate of cancer cell metabolism, and produce the toxic compound acetaldehyde. This approach was achieved by administering the yeast enzyme pyruvate decarboxylase to triple negative breast cancer cells. To overcome the challenges of protein delivery, a nanoparticle-based system consisting of cationic lipids and porous silicon were employed to obtain efficient intracellular uptake. The results demonstrate that the enzyme therapy decreases cancer cell viability through production of acetaldehyde and reduction of lactic acid fermentation.

A pyruvate decarboxylase-mediated therapeutic strategy for mimicking yeast metabolism in cancer cells / B. Scott, J. Shen, S. Nizzero, K. Boom, S. Persano, Y. Mi, X. Liu, Y. Zhao, E. Blanco, H. Shen, M. Ferrari, J. Wolfram. - In: PHARMACOLOGICAL RESEARCH. - ISSN 1043-6618. - 111:(2016 Sep), pp. 413-421. [10.1016/j.phrs.2016.07.005]

A pyruvate decarboxylase-mediated therapeutic strategy for mimicking yeast metabolism in cancer cells

S. Persano;
2016

Abstract

Cancer cells have high rates of glycolysis and lactic acid fermentation in order to fuel accelerated rates of cell division (Warburg effect). Here, we present a strategy for merging cancer and yeast metabolism to remove pyruvate, a key intermediate of cancer cell metabolism, and produce the toxic compound acetaldehyde. This approach was achieved by administering the yeast enzyme pyruvate decarboxylase to triple negative breast cancer cells. To overcome the challenges of protein delivery, a nanoparticle-based system consisting of cationic lipids and porous silicon were employed to obtain efficient intracellular uptake. The results demonstrate that the enzyme therapy decreases cancer cell viability through production of acetaldehyde and reduction of lactic acid fermentation.
English
cancer metabolism; multistage vector; nanotechnology; pyruvate decarboxylase; Warburg effect
Settore BIO/13 - Biologia Applicata
Articolo
Esperti anonimi
Pubblicazione scientifica
Goal 3: Good health and well-being
set-2016
PHARMACOLOGICAL RESEARCH
Elsevier
111
413
421
9
Pubblicato
Periodico con rilevanza internazionale
scopus
orcid
pubmed
crossref
wos
WOS:000384784000040
2-s2.0-84978250333
27394167
NON aderisco
info:eu-repo/semantics/article
A pyruvate decarboxylase-mediated therapeutic strategy for mimicking yeast metabolism in cancer cells / B. Scott, J. Shen, S. Nizzero, K. Boom, S. Persano, Y. Mi, X. Liu, Y. Zhao, E. Blanco, H. Shen, M. Ferrari, J. Wolfram. - In: PHARMACOLOGICAL RESEARCH. - ISSN 1043-6618. - 111:(2016 Sep), pp. 413-421. [10.1016/j.phrs.2016.07.005]
none
Prodotti della ricerca::01 - Articolo su periodico
12
262
Article (author)
Periodico con Impact Factor
B. Scott, J. Shen, S. Nizzero, K. Boom, S. Persano, Y. Mi, X. Liu, Y. Zhao, E. Blanco, H. Shen, M. Ferrari, J. Wolfram
01 - Articolo su periodico
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/958890
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