Role of Hematopoietic Stem Cells in Inflammation of the Pancreas during Diabetes Mellitus

Дыгай, А. М.; Скурихин, Е. Г.; Першина, О. В.; Ермакова, Н. Н.; Krupin, V. A.; Ермолаева, Л. А.; Стахеева, М. Н.; Choinzonov, E. L.; Goldberg, V. Е.; Рейхарт, Д. В.; Эллиниди, В. Н.; Kravtsov, Viacheslav

doi:10.1007/s10517-016-3200-1

Cited by 8 publications

(7 citation statements)

References 14 publications

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“…However, oxidative stress injury and elevated ROS and MDA production were recognized as the major etiological factor in the development of diabetes; which might be a reflection of the decreased antioxidant capability of the defensive systems and/or glucose oxidation (Aminzadeh et al, 2020;Kodidela et al, 2020). Moreover, Dygai et al (2016); Bathina et al (2017) stated that, in addition to provoking hyperglycemia in diabetic rats, STZ could enhance increased oxidative stress and proinflammatory cytokines; such as CRP, TNF-α, IFN-γ, hyaluronic acid, IL1-β, and IL-6; which are positively correlated with measures of insulin deficiency; through inducing edema in the pancreatic insular tissue and its infiltration by inflammatory cells and fibroblasts.…”

Section: Discussionmentioning

confidence: 99%

Anti-inflammatory and antioxidant potential capacities of AD-MSCs and BM-MSCs in suppressing pancreatic β-cells auto-immunity and apoptosis in rats with T1DM induced model

El-Sawah¹,

Althobaiti²,

Rashwan³

et al. 2022

Biocell

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Section: Discussionmentioning

confidence: 99%

Anti-inflammatory and antioxidant potential capacities of AD-MSCs and BM-MSCs in suppressing pancreatic β-cells auto-immunity and apoptosis in rats with T1DM induced model

El-Sawah¹,

Althobaiti²,

Rashwan³

et al. 2022

Biocell

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“…Both CK7 and Flk-1 are localized normally in the pancreatic duct structures in the adult pancreas and contribute to the formation of the large intralobular, the interlobular, and the main duct [44]. Coupled with CK7, Flk-1 functions as the receptor of vascular endothelial growth factor, which is associated with the endothelial layer of the vasculature [45,46].These two markers are known to be expressed during pancreatic morphogenesis in the fetus [47]. C-peptide is expressed in pancreatic endocrine cells which indicate β-cells function [48].…”

Section: Discussionmentioning

confidence: 99%

Pancreaticline Cell Differentiation of Bone Marrow Mesenchymal Stromal Cells in Acellular Pancreatic Scaffolds

Zhao

Wang

2020

Preprint

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Background: To evaluate the potential differentiation ability of bone mesenchymal stromal cells(BMSCs) to pancreatic line Cells on rat acellular pancreatic bioscaffold(APB) and the effect of differentiated BMSCs for chronic pancreatitis(CP) in vivo. Methods: After BMSCs were isolated and identified, they were dynamic cultured on the APB and static cultured in tissue culture flask(TCF),with or without the growth factors (GF) in both the culture system. The cytological behavior such as the proliferation and differentiation of BMSCs in all the above kinds of culture system were assessed by morphological observation, flow cytometry, ELASA analysis, qRT-PCR assay and western blot analysis. For the in vivo study, the pancreatic fibrosis and pathological score were evaluated. And also the expression of α-SMA, collagen type I and III, IL-10 in pancreas tissue were detected by ELASA. Results: 4ml/min was the most appropriate flow rate for the dynamic culture of BMSCs. The proliferation rate of BMSCs in the APB groups were significantly increased compared to TCF system. During the pancreatic line cell differentiation process, APB could induce BMSCs express markers such as PDX-1 and PTF-1 at higher mRNA levels. In contrast, the marker Oct 4 was expressed at a lower level in APB group. For the pancreatic functional cytoketatins including α-Amy, CK7, Flk-1, and C-peptide, they were all expressed at higher level in APB group. And metabolic enzymes secretion such as amylase and insulin were promoted significantly in APB system. By scanning electron microscope(SEM) and transmission electron microscopy(TEM), the ultrastructure of BMSCs in the APB group could further demonstrated the morphological characteristics of pancreatic-like cells. In vivo study,the expression of α-SMA, collagen type I and III in tissues were less in differentiated BMSCs treatment group, while the level of IL-10 in pancreatic tissue were higher in differentiated BMSCs treatment group with significant difference (P<0.05). In addition, in both in vitro and in vivo study, GF could significantly facilitate the function of proliferation, differentiation and pancreatic cell therapy. Conclusion: Together our data show the capacity of APB , 3D pancreatic biomatrix, promoting BMSCs differentiate toward pancreatic line phenotypes, and the considerable potential of using these cells for pancreatic cell therapies and tissue engineering.

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“…Both CK7 and Flk-1 are localized normally in the pancreatic duct structures in the adult pancreas and contribute to the formation of the large intralobular, the interlobular, and the main duct [41]. Coupled with CK7, Flk-1 functions as the receptor of vascular endothelial growth factor, which is associated with the endothelial layer of the vasculature [42,43].These two markers are known to be expressed during pancreatic morphogenesis in the fetus [44]. C-peptide is expressed in pancreatic endocrine cells which indicate β-cells function [45].…”

Section: Discussionmentioning

confidence: 99%

Pancreatic line Cell Differentiation of bone marrow Mesenchymal Stromal Cells in Acellular Pancreatic Scaffolds

Zhao

Wang

2020

Preprint

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Background: To evaluate the potential differentiation ability of bone mesenchymal stromal cells(BMSCs) to pancreatic line Cells on rat acellular pancreatic bioscaffold (APB). Methods: Fresh pancreata from 20 Adult Sprague Dawley rats (between 6 and 7 weeks old) were soaked and perfused using Easy-Load Digital Drive peristaltic pumps. After BMSCs were isolated and identified, they were dynamic cultured on the APB and static cultured in tissue culture flask(TCF). Based on whether the differentiation was induced by the growth factors (GF) in the culture system, our study was divided into 4 groups: BMSCs cultured in TCF without any GF(TCF-GF(-)), BMSCs cultured in TCF with GF(TCF-GF(+)), BMSCs cultured on APB without GF(APB-GF(-)), BMSCs cultured on APB with GF (APB-GF(+)).The cytological behavior such as the proliferation and differentiation of BMSCs in all the above kinds of culture system with or without GF were assessed by morphological observation, flow cytometry, ELASA analysis, qRT-PCR assay and western blot analysis. Results: 4ml/min was the most appropriate flow rate for the dynamic culture of BMSCs. Under culture conditions, BMSCs populations could attach to and proliferate within the APB. APB could promote the proliferation and viability of BMSCs significantly better in dynamic culture with optimal flow rate 4ml/min, when compared to the static culture system. Also, the proliferation rate of BMSCs in the APB groups were significantly increased compared to TCF system. During the pancreatic line cell differentiation process, APB could induce BMSCs into pancreatic-like cells which expressed markers such as pancreatic duodenal homeodomain containing transcription factor (PDX-1) and pancreatic exocrine transcription factor (PTF-1) higher at mRNA levels compared to TCF system. In contrast, the marker Oct4 (octamer-binding transcription factor 4) was expressed at a lower level in APB group. For the pancreatic functional cytoketatins including α-Amylase(α-Amy), cytokeratin 7(CK7), fetal liver kinase-1 (Flk-1),and C-peptide, they were all expressed at higher level in APB group than in the TCF group. And metabolic enzymes secretion such as amylase and insulin were promoted significantly in APB system. By scanning electron microscope(SEM) and transmission electron microscopy(TEM), the ultrastructure of BMSCs in the APB group could further demonstrated the morphological characteristics of pancreatic-like cells. In addition, in both the dynamic and static system, GF could significantly facilitate the function of proliferation, differentiation and cell engraftment . Conclusion: Together our data show the capacity of APB , 3D pancreatic biomatrix, promoting BMSCs differentiate toward pancreatic line phenotypes, and the considerable potential of using these cells for pancreatic cell therapies and tissue engineering.

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Role of Hematopoietic Stem Cells in Inflammation of the Pancreas during Diabetes Mellitus

Cited by 8 publications

References 14 publications

Anti-inflammatory and antioxidant potential capacities of AD-MSCs and BM-MSCs in suppressing pancreatic β-cells auto-immunity and apoptosis in rats with T1DM induced model

Anti-inflammatory and antioxidant potential capacities of AD-MSCs and BM-MSCs in suppressing pancreatic β-cells auto-immunity and apoptosis in rats with T1DM induced model

Pancreaticline Cell Differentiation of Bone Marrow Mesenchymal Stromal Cells in Acellular Pancreatic Scaffolds

Pancreatic line Cell Differentiation of bone marrow Mesenchymal Stromal Cells in Acellular Pancreatic Scaffolds

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