Biotech applications of protein kinase affinity interactions
Author
Lund, Bjarte AarmoAbstract
Protein kinases provide one of the cell’s most important methods for signaling and
control. 2% of the encoding genome consists of protein kinase genes, and from 10-50% of
the proteins in the cell are phosphorylated at some point in the cell cycle. Malfunction
of protein kinases is connected to several disease-conditions, most prominently cancer,
Alzheimer’s and diabetes. Understanding the interactions of protein kinases gives deeper
insight into the function of protein kinases, and builds a foundation for new treatments
and diagnostics. A common feature of the protein kinases is their ability to bind to
adenosine triphosphate (ATP). In this study a set of resin-linked ATP-analogs with
distinct binding-strategies was used to probe the ATP-binding site to investigate the use
as an affinity-chromatography-step in the purification of protein kinases and together
with other studies of protein kinase/ligand interactions detect differences between protein
kinases to give information on how to create new specific inhibitors for protein kinases.
For the model-protein kinase cAMP-dependent protein kinase/protein kinase A (PKA)
a specific affinity-chromatography-resin with immobilized protein kinase inhibitor (PKI)
was studied using different eluants and mutants.
Binding to ATP-analog-resins was observed for 70 kDa heat shock proteins (HSP70),
Abelson tyrosine-protein kinase 1 (ABL1), dual specificity tyrosine-phosphorylation-
regulated kinase 1A (DYRK1A) and PKA, and there were differences in which of the
resins each protein bound to.
Several different mutants were tested on immobilized PKI, including one new mutant
which did not show any binding to PKI. It was also shown that by using bisubstrate
inhibitors as eluants, it is possible to only elute specific isoforms of PKA.
The observation of distinct binding-behavior to the differently linked ATP-analogs
gives indications on how new inhibitors may be designed with higher selectivity, as well
as showing potential as components of a protein purification strategy.
The work on immobilized PKI with bisubstrate inhibitors as eluants revealed that it
is possible to elute only the active form of PKA from the PKI-resin, simplifying the later
chromatographic steps. The non-PKI-binding protein kinase A sevenfold mutant model
of Aurora B (PKA Aur7)-mutant has potential use in co-expression with kinase-dead
mutants to yield more stable autophosphorylated PKA it it can be shown to be active,
while being easy to purify away since it does not bind to the PKI-resin as the other
PKA-variants would.
Description
Oppgaven publiseres nå etter ønske fra kandidaten. Embargodato er endret fra 2018-05-05 til 2015-11-21. 20.11.2015 MA
Publisher
Universitetet i TromsøUniversity of Tromsø
Metadata
Show full item recordCollections
Copyright 2013 The Author(s)
The following license file are associated with this item: