The peripheral chimerism of bone marrow–derived stem cells after transplantation: regeneration of gastrointestinal tissues in lethally irradiated mice

Filip, Stanislav; Mokrý, Jaroslav; Vávrová, Jiřina; Šinkorová, Zuzana; Mičuda, Stanislav; Šponer, Pavel; Filipová, Alžběta; Hrebíková, Hana; Dayanithi, Govindan

doi:10.1111/jcmm.12227

Cited by 16 publications

(10 citation statements)

References 45 publications

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“…Trafficking and reconstitution of hematopoietic cell subsets following TBI is likely to be a generalized phenomenon that is independent of a given gene modification strategy (i.e., CD4CAR). This model is consistent with previous small animal studies from our group and others, demonstrating that donor HSC–derived cells traffic to lymphoid GCs ( 59 , 67 ), CNS tissues ( 61 , 68 – 71 ), and GIT ( 59 , 72 ). Lower-dose lymphodepleting chemotherapy regimens for CAR T cells are designed to activate cytokine expression in vivo to facilitate maintenance and expansion of the T cell compartment (including CAR T cells) ( 73 , 74 ).…”

Section: Discussionsupporting

confidence: 92%

Stem cell–derived CAR T cells traffic to HIV reservoirs in macaques

Barber-Axthelm¹,

Barber-Axthelm²,

Sze³

et al. 2021

JCI Insight

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Section: Discussionsupporting

confidence: 92%

Stem cell–derived CAR T cells traffic to HIV reservoirs in macaques

Barber-Axthelm¹,

Barber-Axthelm²,

Sze³

et al. 2021

JCI Insight

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“…Interestingly, the levels of Sca1+/CXCR4+ BMDAC in the spleen are independent of donor age. By transplanting GFP + donor cells into GFP − recipient mice, Filip et al reported that N 40% of the recipient's own cells remained in the spleen after the bone marrow transplantation, while b 20% of the recipient's cells are found in the bone marrow and circulating blood [46]. The chimerism in the spleen may explain the similar levels of Sca1 +/CXCR4 + progenitor cells found in recipients with either young or old bone marrow.…”

Section: Discussionmentioning

confidence: 91%

Aging impairs ischemia-induced neovascularization by attenuating the mobilization of bone marrow-derived angiogenic cells

Lam

Lecce

Clayton

et al. 2016

IJC Metabolic & Endocrine

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Background: Aging is associated with impaired ischemia-induced neovascularization. However, the effects of aging on bone marrow-derived angiogenic cell (BMDAC)-mediated vasculogenesis and on angiogenesis at the ischemic sites remain incompletely understood. Methods and results: Two-and 24-month old male C57Bl/6J mice were subjected to hindlimb ischemia. The levels of Sca1+/CXCR4+ BMDACs were determined post-ischemia by flow cytometry. In young mice, ischemia increased Sca1+/CXCR4+ BMDAC levels in the bone marrow and spleen at day 3 (p b 0.001) and in the circulating blood at day 7 (p b 0.01) post-ischemia. However, ischemia-induced elevation of progenitor cells was attenuated in the bone marrow, spleen and blood of old mice despite a preserved HIF-1α-mediated angiogenic response in the ischemic tissues. Irradiated young recipient mice engrafted with old bone marrow displayed reduced levels of Sca1+/CXCR4+ BMDACs in the bone marrow and circulating blood post-ischemia compared to recipients with young bone marrow. Ex vivo cultured BMDACs from old mice exhibited reduced SDF-1-stimulated migration (p b 0.01) and a decrease in JAK-2 and AKT activation. However, the intrinsic angiogenic function of BMDACs, including VEGF secretion and promotion of endothelial cell tubule formation, was preserved with aging. Furthermore, facilitated mobilization of old bone marrow-derived mononuclear cells to the ischemic hindlimb by intramuscular injection enhanced ischemia-induced neovascularization in old mice in vivo (p b 0.001). Conclusions: The age-related impairment in ischemia-induced neovascularization is largely attributable to a marked attenuation of BMDAC mobilization with a preservation of intrinsic angiogenic function with age.

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“…Recently, a preparation of acellular muscle grafts has been optimized (Gillies et al 2011), and their reseeding with myoblasts gave rise to engineered muscle constructs with histomorphological characteristics resembling native muscle which, under in vitro conditions, were capable of generating contractile force (Borschel et al 2004, Valentin et al 2010. Furthermore, we have demonstrated that high doses of whole-body irradiation also induce myeloablation and chimerism in tissues, and the entry of transplanted cells into the small intestine and liver (Filip et al 2014). However, other functional characteristics of these grafts reoccupied with myogenic and non-myogenic cells after implantation have yet to be determined in animal models.…”

Section: Skeletal Musclesmentioning

confidence: 96%

“…Thus, to understand the roles played by myogenic Ca 2+ signaling we must first consider: 1) the triggers and targets within these signaling domains; 2) interdomain signaling, and 3) how these Ca 2+ signals integrate with other signaling networks involved in myogenesis (Pubill et al 2001, Dayanithi et al 2012. Currently available imaging techniques that provide direct visualization and evaluation of these Ca 2+ signals have also been described (Dayamithi et al 2012, Forostyak et al 2013, including stem cells of various origins (Dayanithi and Verkhratsky 2016).…”

Section: Role Of Intracellular Ca 2+mentioning

confidence: 99%

The extracellular matrix and Ca(2+)signaling mechanisms

Filip

Mokrý²,

Forostyak³

et al. 2019

Physiol Res

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The extracellular matrix (ECM) consists of proteins, glycosaminoglycans and glycoproteins, that support the dynamic interactions between cells, including intercellular communication, cell attachment, cell differentiation, cell growth and migration. As such, the ECM represents an essential and very sensitive system within the tissue microenvironment that is involved in processes such as tissue regeneration and carcinogenesis. The aim of the present review is to evaluate its diversity through Ca 2+ signaling and its role in muscle cell function. Here, we discuss some methodological approaches dissecting Ca 2+ handling mechanisms in myogenic and non-myogenic cells, e.g. the importance of Ca 2+ and calpains in muscle dystrophy. We also consider the reconstruction of skeletal muscle by colonization of decellularized ECM with muscle-derived cells isolated from skeletal muscle. Therefore, it is necessary to establish new methodological procedures based on Ca 2+ signaling in skeletal muscle cells and their effect on ECM homeostasis, allowing the monitoring of skeletal muscle reconstruction and organ repair.

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The peripheral chimerism of bone marrow–derived stem cells after transplantation: regeneration of gastrointestinal tissues in lethally irradiated mice

Cited by 16 publications

References 45 publications

Stem cell–derived CAR T cells traffic to HIV reservoirs in macaques

Stem cell–derived CAR T cells traffic to HIV reservoirs in macaques

Aging impairs ischemia-induced neovascularization by attenuating the mobilization of bone marrow-derived angiogenic cells

The extracellular matrix and Ca(2+)signaling mechanisms

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