Dental Pulp Mesenchymal Stem Cells Attenuate Limb Ischemia via Promoting Capillary Proliferation and Collateral Development in a Preclinical Model

Li, Youfeng; Zhang, Yuning; Wang, Hua; Sun, Congjian; Li, Dongmei; Liu, Hongying; He, Jia; Chen, Fu‐Rong; Wang, Wei‐Ting; Jiang, Xi; Wu, Chu-Tse; Yang, Yuefeng

doi:10.1155/2021/5585255

Cited by 5 publications

(3 citation statements)

References 46 publications

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“…76 Indeed, the angiogenic collateral-promoting potential of mesenchymal stem cells is likely partly mediated by release of these substances. 77 However, despite promising experimental results, randomized clinical trials involving these interventions have been largely disappointing. 78,79 Importantly, their safety in humans has been questioned, given their potential proatherogenic 80 and pro-oncogenic potential.…”

Section: Therapeutic Manipulation Of the Collateral Circulationmentioning

confidence: 99%

With a Little Help From My Friends: the Role of the Renal Collateral Circulation in Atherosclerotic Renovascular Disease

Nyvad

Lerman

2022

Hypertension

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The collateral circulation can adapt to bypass major arteries with limited flow and serves a crucial protective role in coronary, cerebral, and peripheral arterial disease. Emerging evidence indicates that the renal collateral circulation can similarly adapt and thereby limit kidney ischemia in atherosclerotic renovascular disease. These adaptations predominantly include recruitment of preexisting microvessels for arteriogenesis, with de novo vessel formation playing a limited role. Yet, adaptations of the renal collateral circulation in renovascular disease are often insufficient to fully compensate for the limited flow within an obstructed renal artery and may be hampered by the severity of obstruction or patient comorbidities. Experimental strategies have attempted to circumvent limitations of collateral formation and improve the prognosis of patients with various ischemic vascular territories. These have included pharmacological approaches such as endothelial growth factors, renin-angiotensin-aldosterone system blockade, and If-channel-blockers, as well as interventions like preconditioning, exercise, enhanced external counter-pulsation, and low-energy shock-wave therapy. However, few of these strategies have been implemented in atherosclerotic renovascular disease. This review summarizes current understanding regarding the development of renal collateral circulation in atherosclerotic renovascular disease. Studies are needed to apply lessons learned in other vascular beds in the setting of atherosclerotic renovascular disease to develop new treatment regimens for this patient group.

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Section: Therapeutic Manipulation Of the Collateral Circulationmentioning

confidence: 99%

With a Little Help From My Friends: the Role of the Renal Collateral Circulation in Atherosclerotic Renovascular Disease

Nyvad

Lerman

2022

Hypertension

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“…DPSCs trans-differentiation into esophageal stem cells was capable of repairing or regenerating damaged esophageal tissue in a rat model with radioactivity-induced esophageal injury [ 171 ]. Application of DPSCs in a femoral artery-ligated preclinical ischemic rat model restored limb functions, promoted muscle fiber regeneration, and increased angiogenesis, along with a reduction in inflammatory responses, indicating its potential utility as a therapeutic intervention for the treatment of critical limb ischemia [ 172 ]. Intravenously transplanted HGF-DPSCs in a rat model of ulcerative colitis could alleviate intestinal mucosa injuries via trans differentiation into intestinal stem cell-like cells, promotion of intestinal stem-cell like cell proliferation, reduction of oxidative stress, and suppression of inflammatory responses, suggesting its potential for clinical treatment of ulcerative colitis [ 173 ].…”

Section: Oral Stem Cell-mediated Regeneration Of Other Tissuesmentioning

confidence: 99%

Botanicals and Oral Stem Cell Mediated Regeneration: A Paradigm Shift from Artificial to Biological Replacement

Ahuja

Tyagi

Kumar

et al. 2022

Cells

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Stem cells are a well-known autologous pluripotent cell source, having excellent potential to develop into specialized cells, such as brain, skin, and bone marrow cells. The oral cavity is reported to be a rich source of multiple types of oral stem cells, including the dental pulp, mucosal soft tissues, periodontal ligament, and apical papilla. Oral stem cells were useful for both the regeneration of soft tissue components in the dental pulp and mineralized structure regeneration, such as bone or dentin, and can be a viable substitute for traditionally used bone marrow stem cells. In recent years, several studies have reported that plant extracts or compounds promoted the proliferation, differentiation, and survival of different oral stem cells. This review is carried out by following the PRISMA guidelines and focusing mainly on the effects of bioactive compounds on oral stem cell-mediated dental, bone, and neural regeneration. It is observed that in recent years studies were mainly focused on the utilization of oral stem cell-mediated regeneration of bone or dental mesenchymal cells, however, the utility of bioactive compounds on oral stem cell-mediated regeneration requires additional assessment beyond in vitro and in vivo studies, and requires more randomized clinical trials and case studies.

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“…Dental epithelial progenitor cells give rise to ameloblasts to produce enamel (Zeichner‐David et al, 1995). Dental mesenchymal progenitor cells can differentiate into odontoblasts and dental pulp cells to produce dentin and dental pulp tissues (Li, Zhang, et al, 2021). Disturbance of these progenitor cell maintenance triggers the abnormal function of ameloblasts and odontoblasts, causing developmental defects of enamel and dentin (Katsuragi et al, 2013; Seow, 2014).…”

Section: Introductionmentioning

confidence: 99%

Ptip is essential for tooth development via regulating Wnt pathway

Liang

Wang

et al. 2023

Oral Diseases

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ObjectiveEpigenetic regulation plays important role in stem cell maintenance. Ptip was identified as epigenetic regulator, but the role in dental progenitor cells remains unclear.Subjects and MethodsDental mesenchymal progenitor cells were targeted by Sp7‐icre and visualized in mTmG; Sp7‐icre mice. The Ptipf/f; Sp7‐icre mice were generated and the phenotype of incisors and molars were shown by micro‐computerized tomography, scanning electron microscope, hematoxylin & eosin staining, and immunofluorescence. Dental mesenchymal progenitor cells were sorted by fluorescence‐activated cell sorting from lower incisors and RNA sequencing was performed.ResultsThe Sp7‐icre targets dental mesenchymal progenitor cells in incisors and molars. The Ptipf/f; Sp7‐icre mice showed spontaneous fractures in the cusp of upper incisors and lower incisors at 3 weeks (w), compensative overgrowth of lower incisors at 1 month (M), and overgrowth extended to the outside at 2 M. The molars showed shortened roots. The functions of odontoblasts and dental mesenchymal progenitor cells were impaired. Mechanically, loss of Ptip activates the Wnt pathway and upregulates the expression of Wls in dental mesenchymal progenitor cells. Also, the regenerative ability of lower incisors was significantly impaired.ConclusionWe first demonstrated that Ptip was crucial for tooth development via regulating Wnt signaling.

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Dental Pulp Mesenchymal Stem Cells Attenuate Limb Ischemia via Promoting Capillary Proliferation and Collateral Development in a Preclinical Model

Cited by 5 publications

References 46 publications

With a Little Help From My Friends: the Role of the Renal Collateral Circulation in Atherosclerotic Renovascular Disease

With a Little Help From My Friends: the Role of the Renal Collateral Circulation in Atherosclerotic Renovascular Disease

Botanicals and Oral Stem Cell Mediated Regeneration: A Paradigm Shift from Artificial to Biological Replacement

Ptip is essential for tooth development via regulating Wnt pathway

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