Cellular FRET-Biosensors to Detect Membrane Targeting Inhibitors of N-Myristoylated Proteins.

Cellular FRET-Biosensors to Detect Membrane Targeting Inhibitors of N-Myristoylated Proteins.

Hundreds of eukaryotic signaling proteins require myristoylation to functionally associate with intracellular membranes. N-myristoyl transferases (NMT) responsible for this modification are established drug targets in cancer and infectious diseases. Here we describe NANOMS (NANOclustering and Myrist...

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Main Authors: Arafath Kaja Najumudeen, Monika Köhnke, Maja Solman, Kirill Alexandrov, Daniel Abankwa
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3688908?pdf=render
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spelling doaj-85cd1ded5fa44cfeadbc2fb9b2a0096a2020-11-25T02:23:09ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0186e6642510.1371/journal.pone.0066425Cellular FRET-Biosensors to Detect Membrane Targeting Inhibitors of N-Myristoylated Proteins.Arafath Kaja NajumudeenMonika KöhnkeMaja SolmanKirill AlexandrovDaniel AbankwaHundreds of eukaryotic signaling proteins require myristoylation to functionally associate with intracellular membranes. N-myristoyl transferases (NMT) responsible for this modification are established drug targets in cancer and infectious diseases. Here we describe NANOMS (NANOclustering and Myristoylation Sensors), biosensors that exploit the FRET resulting from plasma membrane nanoclustering of myristoylated membrane targeting sequences of Gαi2, Yes- or Src-kinases fused to fluorescent proteins. When expressed in mammalian cells, NANOMS report on loss of membrane anchorage due to chemical or genetic inhibition of myristoylation e.g. by blocking NMT and methionine-aminopeptidase (Met-AP). We used Yes-NANOMS to assess inhibitors of NMT and a cherry-picked compound library of putative Met-AP inhibitors. Thus we successfully confirmed the activity of DDD85646 and fumagillin in our cellular assay. The developed assay is unique in its ability to identify modulators of signaling protein nanoclustering, and is amenable to high throughput screening for chemical or genetic inhibitors of functional membrane anchorage of myristoylated proteins in mammalian cells.http://europepmc.org/articles/PMC3688908?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Arafath Kaja Najumudeen
Monika Köhnke
Maja Solman
Kirill Alexandrov
Daniel Abankwa
spellingShingle Arafath Kaja Najumudeen
Monika Köhnke
Maja Solman
Kirill Alexandrov
Daniel Abankwa
Cellular FRET-Biosensors to Detect Membrane Targeting Inhibitors of N-Myristoylated Proteins.
PLoS ONE
author_facet Arafath Kaja Najumudeen
Monika Köhnke
Maja Solman
Kirill Alexandrov
Daniel Abankwa
author_sort Arafath Kaja Najumudeen
title Cellular FRET-Biosensors to Detect Membrane Targeting Inhibitors of N-Myristoylated Proteins.
title_short Cellular FRET-Biosensors to Detect Membrane Targeting Inhibitors of N-Myristoylated Proteins.
title_full Cellular FRET-Biosensors to Detect Membrane Targeting Inhibitors of N-Myristoylated Proteins.
title_fullStr Cellular FRET-Biosensors to Detect Membrane Targeting Inhibitors of N-Myristoylated Proteins.
title_full_unstemmed Cellular FRET-Biosensors to Detect Membrane Targeting Inhibitors of N-Myristoylated Proteins.
title_sort cellular fret-biosensors to detect membrane targeting inhibitors of n-myristoylated proteins.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description Hundreds of eukaryotic signaling proteins require myristoylation to functionally associate with intracellular membranes. N-myristoyl transferases (NMT) responsible for this modification are established drug targets in cancer and infectious diseases. Here we describe NANOMS (NANOclustering and Myristoylation Sensors), biosensors that exploit the FRET resulting from plasma membrane nanoclustering of myristoylated membrane targeting sequences of Gαi2, Yes- or Src-kinases fused to fluorescent proteins. When expressed in mammalian cells, NANOMS report on loss of membrane anchorage due to chemical or genetic inhibition of myristoylation e.g. by blocking NMT and methionine-aminopeptidase (Met-AP). We used Yes-NANOMS to assess inhibitors of NMT and a cherry-picked compound library of putative Met-AP inhibitors. Thus we successfully confirmed the activity of DDD85646 and fumagillin in our cellular assay. The developed assay is unique in its ability to identify modulators of signaling protein nanoclustering, and is amenable to high throughput screening for chemical or genetic inhibitors of functional membrane anchorage of myristoylated proteins in mammalian cells.
url http://europepmc.org/articles/PMC3688908?pdf=render
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