TY - JOUR
T1 - Metformin inhibits polyphosphate-induced hyper-permeability and inflammation
AU - Asgharzadeh, Fereshteh
AU - Barneh, Farnaz
AU - Fakhraie, Maryam
AU - Adel barkhordar, Seyede leili
AU - Shabani, Mohammad
AU - Soleimani, Atena
AU - Rahmani, Farzad
AU - Ariakia, Fatemeh
AU - Mehraban, Saeedeh
AU - Avan, Amir
AU - Hashemzehi, Milad
AU - Arjmand, Mohammad Hassan
AU - Behnam-Rassouli, Reyhaneh
AU - Jaberi, Najmeh
AU - Sayyed-Hosseinian, Sayyed Hadi
AU - Ferns, Gordon A.
AU - Ryzhikov, Mikhail
AU - Jafari, Mohieddin
AU - Khazaei, Majid
AU - Hassanian, Seyed Mahdi
N1 - Publisher Copyright:
© 2021 Elsevier B.V.
PY - 2021/10
Y1 - 2021/10
N2 - Circulating inflammatory factor inorganic polyphosphate (polyP) released from activated platelets could enhance factor XII and bradykinin resulted in increased capillary leakage and vascular permeability. PolyP induce inflammatory responses through mTOR pathway in endothelial cells, which is being reported in several diseases including atherosclerosis, thrombosis, sepsis, and cancer. Systems and molecular biology approaches were used to explore the regulatory role of the AMPK activator, metformin, on polyP-induced hyper-permeability in different organs in three different models of polyP-induced hyper-permeability including local, systemic short- and systemic long-term approaches in murine models. Our results showed that polyP disrupts endothelial barrier integrity in skin, liver, kidney, brain, heart, and lung in all three study models and metformin abrogates the disruptive effect of polyP. We also showed that activation of AMPK signaling pathway, regulation of oxidant/anti-oxidant balance, as well as decrease in inflammatory cell infiltration constitute a set of molecular mechanisms through which metformin elicits it's protective responses against polyP-induced hyper-permeability. These results support the clinical values of AMPK activators including the FDA-approved metformin in attenuating vascular damage in polyP-associated inflammatory diseases.
AB - Circulating inflammatory factor inorganic polyphosphate (polyP) released from activated platelets could enhance factor XII and bradykinin resulted in increased capillary leakage and vascular permeability. PolyP induce inflammatory responses through mTOR pathway in endothelial cells, which is being reported in several diseases including atherosclerosis, thrombosis, sepsis, and cancer. Systems and molecular biology approaches were used to explore the regulatory role of the AMPK activator, metformin, on polyP-induced hyper-permeability in different organs in three different models of polyP-induced hyper-permeability including local, systemic short- and systemic long-term approaches in murine models. Our results showed that polyP disrupts endothelial barrier integrity in skin, liver, kidney, brain, heart, and lung in all three study models and metformin abrogates the disruptive effect of polyP. We also showed that activation of AMPK signaling pathway, regulation of oxidant/anti-oxidant balance, as well as decrease in inflammatory cell infiltration constitute a set of molecular mechanisms through which metformin elicits it's protective responses against polyP-induced hyper-permeability. These results support the clinical values of AMPK activators including the FDA-approved metformin in attenuating vascular damage in polyP-associated inflammatory diseases.
KW - AMPK signaling
KW - Inorganic polyphosphate
KW - Metformin
KW - Vascular permeability
UR - https://www.scopus.com/pages/publications/85109906960
U2 - 10.1016/j.intimp.2021.107937
DO - 10.1016/j.intimp.2021.107937
M3 - Article
C2 - 34271418
AN - SCOPUS:85109906960
SN - 1567-5769
VL - 99
JO - International Immunopharmacology
JF - International Immunopharmacology
M1 - 107937
ER -