Sains
Malaysiana 50(8)(2021): 2355-2365
http://doi.org/10.17576/jsm-2021-5008-18
Expired Platelet
Concentrate as a Source of Human Platelet Lysate for Xenogeneic-Free Culture of
Human Dermal Fibroblasts
(Platelet Pekat Tamat Tempoh sebagai Sumber Platelet Lisat
Manusia untuk Pengkulturan Sel Fibroblas Kulit Manusia secara Bebas Xenogenik)
MUHAMMAD
NAJIB FATHI BIN HASSAN1, ZHENG YIE YAP1, YEE LOONG TANG2,
MIN HWEI NG1 & JIA XIAN LAW1*
1Centre for Tissue Engineering and Regenerative
Medicine, Faculty of Medicine, Universiti Kebangsaan Malaysia Medical Centre, 56000
Cheras, Kuala Lumpur, Federal Territory, Malaysia
2Department of Pathology, Faculty of Medicine, Universiti
Kebangsaan Malaysia Medical Centre, 56000 Cheras, Kuala Lumpur, Federal
Territory, Malaysia
Diserahkan:
14 Mei 2020/Diterima: 4 Disember 2020
ABSTRACT
Dermal fibroblasts
have been used clinically to promote wound healing and to reduce wrinkles. Most
of the time, fetal bovine serum (FBS) is used for the expansion of fibroblasts.
In addition, chemically defined medium can also be used for fibroblast
expansion. Nonetheless, both FBS and chemically defined medium are not ideal to
culture cells that will be used clinically as FBS has the risk of pathogen
transmission and induction of xenogeneic immune response whilst chemically
defined medium is extremely expensive. In this study, we examine the potential
of using human platelet lysate (hPL) prepared from expired platelet concentrates
to culture human dermal fibroblasts. For the experiments, fibroblasts were
cultured with 5 and 10% hPL, with 10% FBS as the control group to compare the
cell morphology, viability, growth rate, extracellular matrix gene expression
and wound healing. Results showed that fibroblasts cultured with hPL were
more elongated and smaller in size. The cell viability was higher than 90% for
all groups. Expansion with 10% hPL significantly shorten the population
doubling time compared to the 5% hPL and 10% FBS groups. However, fibroblasts
cultured with hPL have lower expression of type I collagen, type III collagen
and fibronection as well as slower wound closure. In summary, hPL has the
potential to be used as a serum substitute for FBS to expand fibroblasts as it significantly
increases the cell proliferation. However, further studies are required to
determine if the changes in the ECM gene expression and migration of the
hPL-expanded fibroblasts will affect the efficacy of the cells in promoting in vivo wound healing.
Keywords: Cell culture; fibroblast; human platelet
lysate; platelet concentrate; skin
ABSTRAK
Sel fibroblas kulit telah digunakan secara klinikal untuk merangsang
penyembuhan luka dan mengurangkan kedut. Kebiasaanya, serum fetus lembu (FBS)
paling kerap digunakan untuk pengkulturan sel fibroblas. Pada masa yang sama,
media ditakrifkan secara kimia juga boleh digunakan untuk pengkulturan sel
fibroblas. Namun demikian, kedua-dua FBS and media ditakrifkan secara kimia
adalah tidak ideal untuk penghasilan besar-besaran sel fibroblas untuk kegunaan
klinikal kerana FBS mempunyai risiko penjalaran patogen haiwan dan penolakan
oleh sistem imun pesakit manakala media tanpa serum adalah sangat mahal. Dalam
kajian ini, potensi platelet lisat manusia (hPL) yang disediakan daripada
platelet pekat tamat tempoh untuk pengkulturan sel fibroblas telah dikaji.
Untuk tujuan uji kaji, sel fibroblas dikultur dengan 5% hPL dan 10% hPL dengan
10% FBS sebagai kumpulan kawalan untuk menilai perbezaan morfologi sel,
kebolehhidupan sel, kadar pertumbuhan sel, ekspresi gen-gen matriks extrasel
dan penyembuhan luka. Hasil kajian mendapati sel fibroblas dikultur dengan hPL
adalah lebih gelendong dan kecil berbanding dengan sel yang dikultur dengan
FBS. Kebolehhidupan sel melebihi 90% untuk semua kumpulan kajian. Kadar
pertumbuhan sel adalah lebih tinggi untuk kumpulan 10% hPL berbanding dengan
kumpulan yang lain. Namun demikian, sel yang dikultur dengan hPL mempunyai
ekspresi kolagen kumpulan I, kolagen kumpulan III dan fibronectin yang lebih rendah serta penyembuhan luka yang lebih lambat. Secara kesimpulan,
hPL berpotensi menggantikan FBS untuk pengkulturan sel fibroblas kerana ia
merangsang proliferasi sel. Namun demikian, penyelidikan lanjutan perlu
dijalankan untuk mengenal pasti sama ada perubahan dalam ekspresi gen ekstrasel
and migrasi akan menjejaskan efikasi sel-sel tersebut dalam merangsang
penyembuhan luka secara in vivo.
Kata kunci: Fibroblas; kulit; pengkulturan
sel; platelet lisat manusia; platelet pekat
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*Pengarang
untuk surat-menyurat; email: lawjx@ppukm.ukm.edu.my
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