With all this good stuff occurring with low sulfated heparins whom will your doctors and stroke hospital contact to get further research done creating a stroke protocol out of this? I bet they will incompetently DO NOTHING because it is easier to wait for SOMEONE ELSE TO SOLVE THE PROBLEM?
S. C. Barnett1, G. Mcanney1, M. Mcgrath1, C. Bavington2, J. Turnbull3
1 University of glasgow, , Institute of Infection, Immunity and Inflammation, glasgow, United Kingdom
2 GlycoMar Ltd, European Centre for Marine Biotechnology, Oban, United Kingdom
3 University of Liverpool, Institute of Integrative Biology, Liverpoll, United Kingdom
Content
The
poor repair that follows CNS injury leads to permanent disabilities for
which effective treatments are limited. After injury, the glial scar
that forms is one factor-preventing repair. Previously, we demonstrated
that heparins modified by selective desulphation (mHeps) reduce features
of astrogliosis. mHeps are a class of glycomolecules with structural
similarities to resident heparan sulfates (HS) that comprise repeating
disaccharide units with variable sulphation patterns. HS are key
modulators of cell signalling by both sequestering ligands (including
chemokine/cytokines) in the ECM and acting as cofactors in the formation
of ligand-receptor complexes. To assess whether mHeps would affect
other neural cell types, we treated mixed neural cultures to determine
their effect on myelination and neurite outgrowth. Using myelinating
co-cultures (MC) we demonstrate that the degree and positions of the
sulphate moieties on mHeps are crucial for their biological effects.
Specifically, monosulphated compounds at C2 and N positions have the
greatest effect on promoting neurite outgrowth and (re)myelination,
whereas, highly sulphated heparin isoforms had detrimental effects. No
effects of mHeps were seen on naturally developing MCs (MC-Dev),
suggesting that the beneficial/detrimental effects of mHeps were due to
interactions with factors secreted during the injury process. Comparison
of the secreted factors from the various MCs illustrated differences in
the profile of chemokines/cytokine released. To identify factors that
interact with the most effective mHep (mHep7) we carried out a TMT-LC-MS
analysis on affinity purified conditioned media. Numerous factors were
identified including amyloid beta A4, further investigation established
the ability of amyloid beta peptide (1-42) to inhibit myelination, this
effect could be overcome with co-treatment of mHep7. We propose that
desulphated mHeps may be novel therapeutics for CNS repair.
Acknowledgement
The work was supported by a
project grant ETM/439 from CSO (MM) and a PhD studentship (PhD‐769‐2014)
from Medical Research Scotland (GM), and the Wellcome Trust
(202789/Z/16/Z).
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