Investigation of the antioxidant defensive role of both AD-MSCs and BM-MSCs in modulating the alteration in the oxidative stress status in various STZ-diabetic rats’ tissues

Diabetes mellitus (DM) could negatively affect patients’ health via inducing a lot of serious functional hazards in many tissues’ cells at molecular levels. Recently, many scientists had proposed stem cell therapy being an appropriate alternative treatment protocol for numerous health threatening is...

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Veröffentlicht in:	Biocell 2021, Vol.45 (6), p.1561-1568
Hauptverfasser:	G. EL-SAWAH, SHADY, ALTHOBAITI, FAYEZ, ALDHAHRANI, ADIL, FAYAD, EMAN, A. ABDEL-DAYEM, MARWA, M. AMEN, REHAB, SHAIMAA SHABANA, EL, I. EL-HALLOUS, EHAB, M. RASHWAN, HANAN
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Sprache:	eng
Schlagworte:	Antioxidants Cell therapy Diabetes Diabetes mellitus Kidneys Mesenchymal stem cells Oxidative stress Pancreas
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creator	G. EL-SAWAH, SHADY ALTHOBAITI, FAYEZ ALDHAHRANI, ADIL FAYAD, EMAN A. ABDEL-DAYEM, MARWA M. AMEN, REHAB SHAIMAA SHABANA, EL I. EL-HALLOUS, EHAB M. RASHWAN, HANAN
description	Diabetes mellitus (DM) could negatively affect patients’ health via inducing a lot of serious functional hazards in many tissues’ cells at molecular levels. Recently, many scientists had proposed stem cell therapy being an appropriate alternative treatment protocol for numerous health threatening issues including diabetes. Therefore, the current study was designed to investigate the antioxidant potentiality of two MSCs types in alleviating tissues’ oxidative stress dramatic elevation resulting as a consequence of Type 1 DM induction. In our 4 weeks study, animals were divided into four groups: control group, STZ-diabetic group (D), D+AD-MSCs group and D+BM-MSCs group. Data reported that diabetic rats treated with either AD-MSCs or BM-MSCs exhibited a marvelous body tissues (Pancreas, Liver and Kidney) enhancing capabilities in attenuating the oxidative stress status; as evidenced by XO, ROS, and MDA levels down-regulation; with a general concomitant elevation in the antioxidants’ content; evidenced by many enzymatic and non-enzymatic antioxidants up-regulation; relative to the diabetic untreated group. Interestingly, comparing both treatments with each other and to control group, most of the measured parameters were reverted back to near normal levels after AD-MSCs injection; which clearly point out their stunning health benefits and superiority as anti-diabetic agent in overcoming different tissues’ complications; owing to their marked cytoprotective and regenerative potentialities.
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EL-SAWAH, SHADY ; ALTHOBAITI, FAYEZ ; ALDHAHRANI, ADIL ; FAYAD, EMAN ; A. ABDEL-DAYEM, MARWA ; M. AMEN, REHAB ; SHAIMAA SHABANA, EL ; I. EL-HALLOUS, EHAB ; M. RASHWAN, HANAN</creator><creatorcontrib>G. EL-SAWAH, SHADY ; ALTHOBAITI, FAYEZ ; ALDHAHRANI, ADIL ; FAYAD, EMAN ; A. ABDEL-DAYEM, MARWA ; M. AMEN, REHAB ; SHAIMAA SHABANA, EL ; I. EL-HALLOUS, EHAB ; M. RASHWAN, HANAN</creatorcontrib><description>Diabetes mellitus (DM) could negatively affect patients’ health via inducing a lot of serious functional hazards in many tissues’ cells at molecular levels. Recently, many scientists had proposed stem cell therapy being an appropriate alternative treatment protocol for numerous health threatening issues including diabetes. Therefore, the current study was designed to investigate the antioxidant potentiality of two MSCs types in alleviating tissues’ oxidative stress dramatic elevation resulting as a consequence of Type 1 DM induction. In our 4 weeks study, animals were divided into four groups: control group, STZ-diabetic group (D), D+AD-MSCs group and D+BM-MSCs group. Data reported that diabetic rats treated with either AD-MSCs or BM-MSCs exhibited a marvelous body tissues (Pancreas, Liver and Kidney) enhancing capabilities in attenuating the oxidative stress status; as evidenced by XO, ROS, and MDA levels down-regulation; with a general concomitant elevation in the antioxidants’ content; evidenced by many enzymatic and non-enzymatic antioxidants up-regulation; relative to the diabetic untreated group. 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subjects	Antioxidants Cell therapy Diabetes Diabetes mellitus Kidneys Mesenchymal stem cells Oxidative stress Pancreas
title	Investigation of the antioxidant defensive role of both AD-MSCs and BM-MSCs in modulating the alteration in the oxidative stress status in various STZ-diabetic rats’ tissues
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