BACKGROUND: Granulocyte-colony-stimulating factor (GM-CSF) is a pleiotropic factor for hematopoiesis that stimulates myeloblasts, monoblasts and mobilization of bone marrow stem cells. Therefore, the GM-CSF gene is a potential candidate for vessel formation and tissue remodeling in the treatment of ischemic diseases. METHODS: A new mouse limb ischemia was established by surgery and gene transfer was performed by injection of 100 microg of a plasmid carrying GM-CSF. Muscle force and weight, histology, capillary density, circulating stem cells and monocytes were determined after 3-4 weeks. RESULTS: More than 60% of nontreated ischemic animals showed gangrene below the heel after 4 weeks, whereas the GM-CSF gene-treated animals showed only darkening of nails or toes. These animals demonstrated a full recovery of the affected muscles in terms of weight, force and muscle fiber structure, but the muscles of nontreated ischemic animals lost approximately 50% weight, 86% force and their regular structure. When the GM-CSF gene was injected into the contralateral limb, only partial loss was observed, demonstrating a distant effect of GM-CSF. The capillary density in the GM-CSF-treated group was 52% higher in relation to the nontreated group. Blood analysis by flow cytometry showed that the GM-CSF-treated group had 10-20% higher levels of circulating monocytes and Sca-1(+). CONCLUSIONS: We conclude that the direct administration of GM-CSF gene in limb ischemia had a strong therapeutic effect because it promoted the recovery of muscle mass, force and structure by mobilizing therapeutic cells and augmenting the number of vessels.
BACKGROUND:Granulocyte-colony-stimulating factor (GM-CSF) is a pleiotropic factor for hematopoiesis that stimulates myeloblasts, monoblasts and mobilization of bone marrow stem cells. Therefore, the GM-CSF gene is a potential candidate for vessel formation and tissue remodeling in the treatment of ischemic diseases. METHODS: A new mouselimb ischemia was established by surgery and gene transfer was performed by injection of 100 microg of a plasmid carrying GM-CSF. Muscle force and weight, histology, capillary density, circulating stem cells and monocytes were determined after 3-4 weeks. RESULTS: More than 60% of nontreated ischemic animals showed gangrene below the heel after 4 weeks, whereas the GM-CSF gene-treated animals showed only darkening of nails or toes. These animals demonstrated a full recovery of the affected muscles in terms of weight, force and muscle fiber structure, but the muscles of nontreated ischemic animals lost approximately 50% weight, 86% force and their regular structure. When the GM-CSF gene was injected into the contralateral limb, only partial loss was observed, demonstrating a distant effect of GM-CSF. The capillary density in the GM-CSF-treated group was 52% higher in relation to the nontreated group. Blood analysis by flow cytometry showed that the GM-CSF-treated group had 10-20% higher levels of circulating monocytes and Sca-1(+). CONCLUSIONS: We conclude that the direct administration of GM-CSF gene in limb ischemia had a strong therapeutic effect because it promoted the recovery of muscle mass, force and structure by mobilizing therapeutic cells and augmenting the number of vessels.
Authors: Bianca Ferrarini Zanetti; Camila Pontes Ferreira; José Ronnie Carvalho Vasconcelos; Sang Won Han Journal: Gene Ther Date: 2021-06-09 Impact factor: 5.250
Authors: Yuan-Chi Teng; Alfredo Leonardo Porfírio-Sousa; Giulia Magri Ribeiro; Marcela Corso Arend; Lindolfo da Silva Meirelles; Elizabeth Suchi Chen; Daniela Santoro Rosa; Sang Won Han Journal: Stem Cell Res Ther Date: 2021-03-16 Impact factor: 6.832
Authors: Joseph Poole; Kreton Mavromatis; José N Binongo; Ali Khan; Qunna Li; Mohamed Khayata; Elizabeth Rocco; Matthew Topel; Xin Zhang; Charlene Brown; Matthew A Corriere; Jonathan Murrow; Salman Sher; Stephanie Clement; Khuram Ashraf; Amr Rashed; Tarek Kabbany; Robert Neuman; Alanna Morris; Arshad Ali; Salim Hayek; John Oshinski; Young-sup Yoon; Edmund K Waller; Arshed A Quyyumi Journal: JAMA Date: 2013-12-25 Impact factor: 157.335
Authors: Leonardo Martins; Camila Congentino Gallo; Tâmisa Seeko Bandeira Honda; Patrícia Terra Alves; Roberta Sessa Stilhano; Daniela Santoro Rosa; Timothy Jon Koh; Sang Won Han Journal: Stem Cell Res Ther Date: 2020-11-06 Impact factor: 6.832