Empowering human cardiac progenitor cells by P2Y 14 nucleotide receptor overexpression

Autologous cardiac progenitor cell (CPC) therapy is a promising approach for treatment of heart failure (HF). There is an unmet need to identify inherent deficits in aged/diseased human CPCs (hCPCs) derived from HF patients in the attempts to augment their regenerative capacity prior to use in the c...

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Published in:The Journal of physiology 2017-12, Vol.595 (23), p.7135-7148
Main Authors: Khalafalla, Farid G, Kayani, Waqas, Kassab, Arwa, Ilves, Kelli, Monsanto, Megan M, Alvarez, Jr, Roberto, Chavarria, Monica, Norman, Benjamin, Dembitsky, Walter P, Sussman, Mark A
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Language:English
Subjects:
Adult
Adult Stem Cells - metabolism
Adult Stem Cells - physiology
Aged
Aged, 80 and over
Cell Proliferation
Cells, Cultured
Cellular Senescence
Female
Heart Failure - genetics
Heart Failure - metabolism
Heart Failure - pathology
Humans
Male
Middle Aged
Mitogen-Activated Protein Kinase 1 - metabolism
Mitogen-Activated Protein Kinase 3 - metabolism
Myocytes, Cardiac - metabolism
Myocytes, Cardiac - physiology
Proto-Oncogene Proteins c-akt - metabolism
Reactive Oxygen Species - metabolism
Receptors, Purinergic P2 - genetics
Receptors, Purinergic P2 - metabolism
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cited_by cdi_FETCH-LOGICAL-c955-14a4e505ee7b82d2c4fcf8220ad1ee0dd42bebdaf94f795a3ed643489b6346df3
cites cdi_FETCH-LOGICAL-c955-14a4e505ee7b82d2c4fcf8220ad1ee0dd42bebdaf94f795a3ed643489b6346df3
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container_issue 23
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container_title The Journal of physiology
container_volume 595
creator Khalafalla, Farid G
Kayani, Waqas
Kassab, Arwa
Ilves, Kelli
Monsanto, Megan M
Alvarez, Jr, Roberto
Chavarria, Monica
Norman, Benjamin
Dembitsky, Walter P
Sussman, Mark A
description Autologous cardiac progenitor cell (CPC) therapy is a promising approach for treatment of heart failure (HF). There is an unmet need to identify inherent deficits in aged/diseased human CPCs (hCPCs) derived from HF patients in the attempts to augment their regenerative capacity prior to use in the clinical setting. Here we report significant functional correlations between phenotypic properties of hCPCs isolated from cardiac biopsies of HF patients, clinical parameters of patients and expression of the P2Y purinergic receptor (P2Y R), a crucial detector for extracellular UDP-sugars released during injury/stress. P2Y R is downregulated in hCPCs derived from HF patients with lower ejection fraction or diagnosed with diabetes. Augmenting P2Y R expression levels in aged/diseased hCPCs antagonizes senescence and improves functional responses. This study introduces purinergic signalling modulation as a potential strategy to rejuvenate and improve phenotypic characteristics of aged/functionally compromised hCPCs prior to transplantation in HF patients. Autologous cardiac progenitor cell therapy is a promising alternative approach to current inefficient therapies for heart failure (HF). However, ex vivo expansion and pharmacological/genetic modification of human cardiac progenitor cells (hCPCs) are necessary interventions to rejuvenate aged/diseased cells and improve their regenerative capacities. This study was designed to assess the potential of improving hCPC functional capacity by targeting the P2Y purinergic receptor (P2Y R), which has been previously reported to induce regenerative and anti-senescence responses in a variety of experimental models. c-Kit hCPCs were isolated from cardiac biopsies of multiple HF patients undergoing left ventricular assist device implantation surgery. Significant correlations existed between the expression of P2Y R in hCPCs and clinical parameters of HF patients. P2Y R was downregulated in hCPCs derived from patients with a relatively lower ejection fraction and patients diagnosed with diabetes. hCPC lines with lower P2Y R expression did not respond to P2Y R agonist UDP-glucose (UDP-Glu) while hCPCs with higher P2Y R expression showed enhanced proliferation in response to UDP-Glu stimulation. Mechanistically, UDP-Glu stimulation enhanced the activation of canonical growth signalling pathways ERK1/2 and AKT. Restoring P2Y R expression levels in functionally compromised hCPCs via lentiviral-mediated overexpression improved prolife
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There is an unmet need to identify inherent deficits in aged/diseased human CPCs (hCPCs) derived from HF patients in the attempts to augment their regenerative capacity prior to use in the clinical setting. Here we report significant functional correlations between phenotypic properties of hCPCs isolated from cardiac biopsies of HF patients, clinical parameters of patients and expression of the P2Y purinergic receptor (P2Y R), a crucial detector for extracellular UDP-sugars released during injury/stress. P2Y R is downregulated in hCPCs derived from HF patients with lower ejection fraction or diagnosed with diabetes. Augmenting P2Y R expression levels in aged/diseased hCPCs antagonizes senescence and improves functional responses. This study introduces purinergic signalling modulation as a potential strategy to rejuvenate and improve phenotypic characteristics of aged/functionally compromised hCPCs prior to transplantation in HF patients. Autologous cardiac progenitor cell therapy is a promising alternative approach to current inefficient therapies for heart failure (HF). However, ex vivo expansion and pharmacological/genetic modification of human cardiac progenitor cells (hCPCs) are necessary interventions to rejuvenate aged/diseased cells and improve their regenerative capacities. This study was designed to assess the potential of improving hCPC functional capacity by targeting the P2Y purinergic receptor (P2Y R), which has been previously reported to induce regenerative and anti-senescence responses in a variety of experimental models. c-Kit hCPCs were isolated from cardiac biopsies of multiple HF patients undergoing left ventricular assist device implantation surgery. Significant correlations existed between the expression of P2Y R in hCPCs and clinical parameters of HF patients. P2Y R was downregulated in hCPCs derived from patients with a relatively lower ejection fraction and patients diagnosed with diabetes. hCPC lines with lower P2Y R expression did not respond to P2Y R agonist UDP-glucose (UDP-Glu) while hCPCs with higher P2Y R expression showed enhanced proliferation in response to UDP-Glu stimulation. Mechanistically, UDP-Glu stimulation enhanced the activation of canonical growth signalling pathways ERK1/2 and AKT. Restoring P2Y R expression levels in functionally compromised hCPCs via lentiviral-mediated overexpression improved proliferation, migration and survival under stress stimuli. Additionally, P2Y R overexpression reversed senescence-associated morphology and reduced levels of molecular markers of senescence p16 , p53, p21 and mitochondrial reactive oxygen species. 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There is an unmet need to identify inherent deficits in aged/diseased human CPCs (hCPCs) derived from HF patients in the attempts to augment their regenerative capacity prior to use in the clinical setting. Here we report significant functional correlations between phenotypic properties of hCPCs isolated from cardiac biopsies of HF patients, clinical parameters of patients and expression of the P2Y purinergic receptor (P2Y R), a crucial detector for extracellular UDP-sugars released during injury/stress. P2Y R is downregulated in hCPCs derived from HF patients with lower ejection fraction or diagnosed with diabetes. Augmenting P2Y R expression levels in aged/diseased hCPCs antagonizes senescence and improves functional responses. This study introduces purinergic signalling modulation as a potential strategy to rejuvenate and improve phenotypic characteristics of aged/functionally compromised hCPCs prior to transplantation in HF patients. Autologous cardiac progenitor cell therapy is a promising alternative approach to current inefficient therapies for heart failure (HF). However, ex vivo expansion and pharmacological/genetic modification of human cardiac progenitor cells (hCPCs) are necessary interventions to rejuvenate aged/diseased cells and improve their regenerative capacities. This study was designed to assess the potential of improving hCPC functional capacity by targeting the P2Y purinergic receptor (P2Y R), which has been previously reported to induce regenerative and anti-senescence responses in a variety of experimental models. c-Kit hCPCs were isolated from cardiac biopsies of multiple HF patients undergoing left ventricular assist device implantation surgery. Significant correlations existed between the expression of P2Y R in hCPCs and clinical parameters of HF patients. P2Y R was downregulated in hCPCs derived from patients with a relatively lower ejection fraction and patients diagnosed with diabetes. hCPC lines with lower P2Y R expression did not respond to P2Y R agonist UDP-glucose (UDP-Glu) while hCPCs with higher P2Y R expression showed enhanced proliferation in response to UDP-Glu stimulation. Mechanistically, UDP-Glu stimulation enhanced the activation of canonical growth signalling pathways ERK1/2 and AKT. Restoring P2Y R expression levels in functionally compromised hCPCs via lentiviral-mediated overexpression improved proliferation, migration and survival under stress stimuli. Additionally, P2Y R overexpression reversed senescence-associated morphology and reduced levels of molecular markers of senescence p16 , p53, p21 and mitochondrial reactive oxygen species. 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source Wiley; PubMed Central
subjects Adult
Adult Stem Cells - metabolism
Adult Stem Cells - physiology
Aged
Aged, 80 and over
Cell Proliferation
Cells, Cultured
Cellular Senescence
Female
Heart Failure - genetics
Heart Failure - metabolism
Heart Failure - pathology
Humans
Male
Middle Aged
Mitogen-Activated Protein Kinase 1 - metabolism
Mitogen-Activated Protein Kinase 3 - metabolism
Myocytes, Cardiac - metabolism
Myocytes, Cardiac - physiology
Proto-Oncogene Proteins c-akt - metabolism
Reactive Oxygen Species - metabolism
Receptors, Purinergic P2 - genetics
Receptors, Purinergic P2 - metabolism
title Empowering human cardiac progenitor cells by P2Y 14 nucleotide receptor overexpression
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