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Sains Malaysiana 51(2)(2022): 577-583
http://doi.org/10.17576/jsm-2022-5102-21
Human Umbilical Cord Mesenchymal Stem Cells Inhibit Coronary
Artery Injury in Mice with Lactobacillus casei Wall Extract-Induced Kawasaki Disease
(Sel Stem Mesenkima Tali Pusat Manusia Menghalang Kecederaan Arteri Koronari pada Tikus dengan Penyakit Kawasaki yang Disebabkan oleh Ekstrak Dinding Lactobacillus casei)
HUA GUO1, FUYONG JIAO2, XIAOYONG ZHANG3,
YANGMENG FENG4, YANG LIU4, DAOYAN LIANG1,
XIAOHUA YAN2 & HAIXIANG ZHANG4*
1Clinical Laboratory of Shaanxi Provincial People's
Hospital, Xi’an 710068, China
2Children's Hospital of Shaanxi Provincial People's Hospital, Xi’an 710068, China
3The First Affiliated Hospital of Xi'an Medical University, Xi’an 710077, China
4Shaanxi Engineering Research Center of Cell Immunology, Central
Laboratory of Shaanxi Provincial People's Hospital, Xi’an 710068, China
Received: 22 March 2021/Accepted: 2 July 2021
ABSTRACT
Kawasaki disease (KD) is a serious
threat to children’s physical and mental health. This study investigated the
effect of human umbilical cord mesenchymal stem cells (hUC-MSCs)
on KD coronary arteritis induced by Lactobacillus casei wall extract (LCWE) in an animal model.
Sixty BALB/C mice were randomly assigned to three groups (n = 20 mice per
group). Mice in the model and stem-cell groups were injected with LCWE, while
the control-group mice were injected with phosphate-buffered saline (PBS) for 2
days. At day 16 of modeling, PBS was injected into the control and model-group
mice, and hUC-MSCs were injected into the stem-cell
group mice for 10 days. At days 4, 15, 26, and 32 of modeling, echocardiography
and histopathology were performed to examine the cardiac structure and the
morphological changes in the coronary arteries in each group. B-ultrasonography showed that 57.5% (23/40) of the
mice had coronary artery lesions, of which 5% (2/40) had right coronary artery
aneurysm, 27.5% (11/40) had coronary artery wall thickening, a widened inner
diameter of the main artery of the left coronary artery, and thickened intima.
Histopathology showed slight swelling of the epicardium of the aortic valve,
mitral valve, right ventricle, and atrium, as well as scattered infiltration of
a few neutrophils. Following hUC-MSCs intervention
treatment, B-ultrasonography showed a decrease in the main coronary artery
diameter, while histopathology showed no obvious vascular inflammatory reaction
or other obvious abnormalities. These findings highlight that hUC-MSCs inhibit coronary artery injury in animal models of
KD induced by LCWE.
Keywords: Coronary artery; human umbilical cord mesenchymal
stem cells; Kawasaki disease; Lactobacillus casei wall
extract
ABSTRAK
Penyakit Kawasaki (KD) adalah ancaman serius kepada kesihatan fizikal dan mental kanak-kanak. Kajian ini mengkaji kesan sel stem mesenkima tali pusat manusia (hUC-MSCs) pada arteritis koronari KD yang disebabkan oleh ekstrak dindingLactobacillus casei (LCWE) dalam model haiwan. Enam puluh tikus BALB/C secara rawak diberikan kepada tiga kumpulan (n = 20 tikus setiap kumpulan). Tikus dalam model dan kumpulan sel stem telah disuntik dengan LCWE, manakala tikus kumpulan kawalan disuntik dengan garam penampan fosfat (PBS) selama 2 hari. Pada hari ke-16 pemodelan, PBS disuntik ke dalam tikus kawalan dan kumpulan model
dan hUC-MSC disuntik ke dalam tikus kumpulan sel stem selama 10 hari. Pada hari 4, 15, 26 dan 32 pemodelan, ekokardiografi dan histopatologi dilakukan untuk memeriksa struktur jantung dan perubahan morfologi dalam arteri koronari dalam setiap kumpulan.
B-ultrasonografi menunjukkan bahawa 57.5% (23/40) daripada tikus mempunyai lesi arteri koronari dengan 5% (2/40) mempunyai aneurisma arteri koronari kanan, 27.5% (11/40) mempunyai penebalan dinding arteri koronari, diameter dalaman arteri utama arteri koronari kiri melebar dan intima yang menebal. Histopatologi menunjukkan sedikit pembengkakan epikardium injap aorta, injap mitral, ventrikel kanan dan atrium, serta penyusupan bertaburan beberapa neutrofil. Berikutan rawatan intervensi hUC-MSCs, B-ultrasonografi menunjukkan penurunan dalam diameter arteri koronari utama, manakala histopatologi tidak menunjukkan tindak balas keradangan vaskular yang jelas atau keabnormalan lain yang jelas. Penemuan ini menyerlahkan bahawa hUC-MSC menghalang kecederaan arteri koronari dalam model haiwan KD yang disebabkan oleh LCWE.
Kata kunci: Arteri koronari; ekstrak dinding Lactobacillus casei; penyakit Kawasaki; sel stem mesenkima tali pusat manusia
REFERENCES
Abbaszadeh,
H., Ghorbani, F., Derakhshani,
M., Movassaghpour, A. & Yousefi,
M. 2020. Human umbilical cord mesenchymal stem cell-derived
extracellular vesicles: A novel therapeutic paradigm. Journal of Cellular Physiology 235(2):
706-717.
Arutyunyan, I., Elchaninov,
A., Makarov, A. & Fatkhudinov, T. 2016. Umbilical cord as
prospective source for mesenchymal stem cell-based therapy. Stem Cells International 2016: 6901286.
Dallaire, F., Fortier-Morissette,
Z., Blais, S., Dhanrajani,
A., Basodan, D., Renaud, C., Mathew, M., De Souza,
A.M., Dionne, A., Blanchard, J., Saulnier, H., Kaspy,
K., Rached-d'Astous, S., Dahdah,
N., McCrindle, B.W., Human, D.G. & Scuccimarri, R. 2017. Aspirin dose and prevention of
coronary abnormalities in Kawasaki disease. Pediatrics 139(6): e20170098.
Dou, J., Li, H., Sun, L., Yan, W., Lv, H. & Ding, Y. 2013. Histopathological and
ultrastructural examinations of rabbit coronary artery vasculitis caused by
bovine serum albumin: An animal model of Kawasaki disease. Ultrastructural Pathology 37(2): 139-145.
Kim, H.J., Kim, J.J., Yun, S.W., Yu,
J.J., Yoon, K.L., Lee, K.Y., Kil, H.R., Kim, G.B.,
Han, M.K., Song, M.S., Lee, H.D., Ha, K.S., Hong, Y.M., Jang, G.Y., Lee, J.K.
& Korean Kawasaki Disease Genetics Consortium. 2020. Association of the
IL16 Asn1147Lys polymorphism with intravenous immunoglobulin resistance in
Kawasaki disease. Journal of
Human Genetics 65(4): 421-426.
Li, L., Jaiswal, P.K., Makhoul, G., Jurakhan, R., Selvasandran, K., Ridwan, K. & Cecere,
R. 2017. Hypoxia modulates cell migration and proliferation in placenta-derived
mesenchymal stem cells. Journal of
Thoracic and Cardiovascular Surgery 154(2): 543-552.
Lo, M.S. 2020. A framework for
understanding Kawasaki disease pathogenesis. Clinical Immunology 214: 108385.
Lo, M.S. & Newburger,
J.W. 2018. Role of intravenous immunoglobulin in the treatment
of Kawasaki disease. International
Journal of Rheumatic Diseases 21(1): 64-69.
Matundan, H.H., Sin, J., Noval Rivas, M., Fishbein, M.C., Lehman, T.J., Chen, S.,
Gottlieb, R.A., Crother, T.R., Abe, M. & Arditi, M. 2019. Myocardial fibrosis after adrenergic
stimulation as a long-term sequela in a mouse model of Kawasaki disease
vasculitis. JCI Insight 4(3):
e126279.
Muheremu, A., Sun, J.G., Wang, X.Y., Zhang,
F., Ao, Q. & Peng, J. 2016. Combined use of
Y-tube conduits with human umbilical cordstem cells
for repairing nerve bifurcation defects. Neural Regeneration
Research 11(4):
664-669.
Nakayama, Y., Komatsu, J., Nishimura,
Y., Fujita, T. & Doi, Y.L. 2020. Kawasaki disease:
Acute myocardial infarction of adult-onset associated with a giant
coronary artery aneurysm. Journal of the
American College of Cardiology 75(11_Supplement_1): 2362.
Noval Rivas, M., Lee, Y., Wakita, D., Chiba, N., Dagvadorj,
J., Shimada, K., Chen, S., Fishbein, M.C., Lehman, T.J., Crother,
T.R. & Arditi, M. 2017. CD8+ T cells contribute
to the development of coronary arteritis in the Lactobacillus casei cell
wall extract-induced murine model of Kawasaki disease. Arthritis & Rheumatology 69(2): 410-421.
Perea-Gil, I., Monguió-Tortajada,
M., Gálvez-Montón, C., Bayes-Genis,
A., Borràs, F.E. & Roura, S. 2015. Preclinical
evaluation of the immunomodulatory properties of cardiac adipose tissue
progenitor cells using umbilical cord blood mesenchymal stem cells: A direct
comparative study. BioMed Research
International 2015: 439808.
Qin, L.J., Niu,
M.Z., Wang, H.W., Shi, H. & Cheng, P.X. 2006. Experimental study on
coronary arteritis induced by immunization of mice with Lactobacillus casei cell wall extract. Journal of Applied Clinical Pediatrics 21(20): 1388-1391.
Sasawatari, S., Okamoto, Y., Kumanogoh, A. & Toyofuku, T.
2020. Blockade of N-Glycosylation promotes antitumor immune response of T
cells. Journal of Immunology 204(5):
1373-1385.
Suganuma,
E., Sato,
S., Honda,
S. & Nakazawa,
A. 2020. A novel mouse model of coronary stenosis mimicking Kawasaki disease
induced by Lactobacillus casei cell wall extract. Experimental Animals 69(2): 233-241.
Suzuki,
E., Fujita, D., Takahashi, M., Oba, S. & Nishimatsu, H. 2017. Therapeutic
effects of mesenchymal stem cell-derived exosomes in
cardiovascular disease. Advances in
Experimental Medicine and Biology 998: 179-185.
Tanaka, H., Yanai, C., Miura,
N.N., Ishibashi, K., Yamanaka, D., Ohnishi, H., Ohno, N. & Adachi, Y. 2020. Coronary vasculitis
induced in mice by cell wall mannoprotein fractions of clinically
isolated Candida species. Medical
Mycology Journal 61(3): 33-48.
Uchimura, R., Ueda, T., Fukazawa,
R., Hayakawa, J., Ohashi, R., Nagi-Miura, N., Ohno,
N., Migita, M. & Itoh, Y. 2020. Adipose tissue-derived stem cells suppress
coronary arteritis of Kawasaki disease in
vivo. Pediatrics International 62(1):
14-21.
Yan, J.R., Xie,
L.J., Wang, J.Y., Xiao, T.T. & Huang, M. 2012. Mice model of coronary
artery lesion induced by Candida albicans water soluble fraction. Journal of
Clinical Pediatric 30(2): 172-178.
*Corresponding author; email:
307706698@qq.com
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