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Publications
in Top 10% Journal Percentiles
43%
Global
Partnerships
56.3%
Corporate
Collaboration
8.8%
Annual research
funding
£5m+
Data for 2020-2025 from SciVal
Selected Publications
2020
1.
Owen, Robert; Bahmaee, Hossein; Claeyssens, Frederik; Reilly, Gwendolen C
Comparison of the anabolic effects of reported osteogenic compounds on human mesenchymal progenitor-derived osteoblasts Journal Article
In: Bioengineering (Basel), vol. 7, no. 1, pp. 12, 2020.
Abstract | Tags: bone formation, bone tissue engineering, matrix mineralisation, menaquinone-4, mesenchymal stem cells, osteoblasts, osteoporosis, vitamin K
@article{Owen2020-gt,
title = {Comparison of the anabolic effects of reported osteogenic
compounds on human mesenchymal progenitor-derived osteoblasts},
author = {Robert Owen and Hossein Bahmaee and Frederik Claeyssens and Gwendolen C Reilly},
year = {2020},
date = {2020-01-01},
journal = {Bioengineering (Basel)},
volume = {7},
number = {1},
pages = {12},
publisher = {MDPI AG},
abstract = {There is variability in the reported effects of compounds on
osteoblasts arising from differences in experimental design and
choice of cell type/origin. This makes it difficult to discern a
compound's action outside its original study and compare
efficacy between compounds. Here, we investigated five compounds
frequently reported as anabolic for osteoblasts
(17β-estradiol (oestrogen), icariin, lactoferrin, lithium
chloride, and menaquinone-4 (MK-4)) on human mesenchymal
progenitors to assess their potential for bone tissue
engineering with the aim of identifying a potential alternative
to expensive recombinant growth factors such as bone
morphogenetic protein 2 (BMP-2). Experiments were performed
using the same culture conditions to allow direct comparison.
The concentrations of compounds spanned two orders of magnitude
to encompass the reported efficacious range and were applied
continuously for 22 days. The effects on the proliferation
(resazurin reduction and DNA quantification), osteogenic
differentiation (alkaline phosphatase (ALP) activity), and
mineralised matrix deposition (calcium and collagen
quantification) were assessed. Of these compounds, only 10 µM
MK-4 stimulated a significant anabolic response with 50%
greater calcium deposition. Oestrogen and icariin had no
significant effects, with the exception of 1 µM icariin, which
increased the metabolic activity on days 8 and 22. 1000 µg/mL of
lactoferrin and 10 mM lithium chloride both significantly
reduced the mineralised matrix deposition in comparison to the
vehicle control, despite the ALP activity being higher in
lithium chloride-treated cells at day 15. This demonstrates that
MK-4 is the most powerful stimulant of bone formation in hES-MPs
of the compounds investigated, highlighting its potential in
bone tissue engineering as a method of promoting bone formation,
as well as its prospective use as an osteoporosis treatment.},
keywords = {bone formation, bone tissue engineering, matrix mineralisation, menaquinone-4, mesenchymal stem cells, osteoblasts, osteoporosis, vitamin K},
pubstate = {published},
tppubtype = {article}
}
There is variability in the reported effects of compounds on
osteoblasts arising from differences in experimental design and
choice of cell type/origin. This makes it difficult to discern a
compound's action outside its original study and compare
efficacy between compounds. Here, we investigated five compounds
frequently reported as anabolic for osteoblasts
(17β-estradiol (oestrogen), icariin, lactoferrin, lithium
chloride, and menaquinone-4 (MK-4)) on human mesenchymal
progenitors to assess their potential for bone tissue
engineering with the aim of identifying a potential alternative
to expensive recombinant growth factors such as bone
morphogenetic protein 2 (BMP-2). Experiments were performed
using the same culture conditions to allow direct comparison.
The concentrations of compounds spanned two orders of magnitude
to encompass the reported efficacious range and were applied
continuously for 22 days. The effects on the proliferation
(resazurin reduction and DNA quantification), osteogenic
differentiation (alkaline phosphatase (ALP) activity), and
mineralised matrix deposition (calcium and collagen
quantification) were assessed. Of these compounds, only 10 µM
MK-4 stimulated a significant anabolic response with 50%
greater calcium deposition. Oestrogen and icariin had no
significant effects, with the exception of 1 µM icariin, which
increased the metabolic activity on days 8 and 22. 1000 µg/mL of
lactoferrin and 10 mM lithium chloride both significantly
reduced the mineralised matrix deposition in comparison to the
vehicle control, despite the ALP activity being higher in
lithium chloride-treated cells at day 15. This demonstrates that
MK-4 is the most powerful stimulant of bone formation in hES-MPs
of the compounds investigated, highlighting its potential in
bone tissue engineering as a method of promoting bone formation,
as well as its prospective use as an osteoporosis treatment.
osteoblasts arising from differences in experimental design and
choice of cell type/origin. This makes it difficult to discern a
compound's action outside its original study and compare
efficacy between compounds. Here, we investigated five compounds
frequently reported as anabolic for osteoblasts
(17β-estradiol (oestrogen), icariin, lactoferrin, lithium
chloride, and menaquinone-4 (MK-4)) on human mesenchymal
progenitors to assess their potential for bone tissue
engineering with the aim of identifying a potential alternative
to expensive recombinant growth factors such as bone
morphogenetic protein 2 (BMP-2). Experiments were performed
using the same culture conditions to allow direct comparison.
The concentrations of compounds spanned two orders of magnitude
to encompass the reported efficacious range and were applied
continuously for 22 days. The effects on the proliferation
(resazurin reduction and DNA quantification), osteogenic
differentiation (alkaline phosphatase (ALP) activity), and
mineralised matrix deposition (calcium and collagen
quantification) were assessed. Of these compounds, only 10 µM
MK-4 stimulated a significant anabolic response with 50%
greater calcium deposition. Oestrogen and icariin had no
significant effects, with the exception of 1 µM icariin, which
increased the metabolic activity on days 8 and 22. 1000 µg/mL of
lactoferrin and 10 mM lithium chloride both significantly
reduced the mineralised matrix deposition in comparison to the
vehicle control, despite the ALP activity being higher in
lithium chloride-treated cells at day 15. This demonstrates that
MK-4 is the most powerful stimulant of bone formation in hES-MPs
of the compounds investigated, highlighting its potential in
bone tissue engineering as a method of promoting bone formation,
as well as its prospective use as an osteoporosis treatment.
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