BACKGROUND AIMS: For many years the human heart has been considered a terminally differentiated organ with no regenerative potential after injury. Recent studies, however, have cast doubt on this long-standing dogma. The objective of this study was to investigate the presence of and characterize mesenchymal stromal cells (MSC) in the adult mouse heart. The impact of MSC on growth and differentiation of adult cardiac stem cells (CSC) was also analyzed. METHODS: A combination of lineage-negative/c-kit-negative (Lin(-)/c-kit(-)) immunoselection with a plastic-adhesion technique was used to isolate cardiac-derived MSC. The differentiation capacity and expression of surface markers were analyzed. To investigate the impact of MSC on growth and differentiation of adult CSC, Green Fluorescent Protein (GFP(+)) adult CSC were co-cultured with GFP(-) cardiac-derived MSC. RESULTS: MSC were present in the adult mouse heart and they met the criteria established to define mouse MSC. They expressed surface markers and were able to differentiate, in a controlled manner, into multiple lineages. In addition, cardiac-derived MSC promoted the survival and expansion of adult CSC in vitro. CONCLUSIONS: MSC can be isolated from the mouse heart and they promote growth and differentiation of adult CSC. The findings from this study could have a significant beneficial impact on future heart failure treatment. Co-culture and co-implantation of cardiac-derived MSC with adult CSC could provide extensive cardiac regeneration and maintenance of the CSC population after implanted into the heart.
BACKGROUND AIMS: For many years the human heart has been considered a terminally differentiated organ with no regenerative potential after injury. Recent studies, however, have cast doubt on this long-standing dogma. The objective of this study was to investigate the presence of and characterize mesenchymal stromal cells (MSC) in the adult mouse heart. The impact of MSC on growth and differentiation of adult cardiac stem cells (CSC) was also analyzed. METHODS: A combination of lineage-negative/c-kit-negative (Lin(-)/c-kit(-)) immunoselection with a plastic-adhesion technique was used to isolate cardiac-derived MSC. The differentiation capacity and expression of surface markers were analyzed. To investigate the impact of MSC on growth and differentiation of adult CSC, Green Fluorescent Protein (GFP(+)) adult CSC were co-cultured with GFP(-) cardiac-derived MSC. RESULTS: MSC were present in the adult mouse heart and they met the criteria established to define mouse MSC. They expressed surface markers and were able to differentiate, in a controlled manner, into multiple lineages. In addition, cardiac-derived MSC promoted the survival and expansion of adult CSC in vitro. CONCLUSIONS: MSC can be isolated from the mouse heart and they promote growth and differentiation of adult CSC. The findings from this study could have a significant beneficial impact on future heart failure treatment. Co-culture and co-implantation of cardiac-derived MSC with adult CSC could provide extensive cardiac regeneration and maintenance of the CSC population after implanted into the heart.
Authors: James D Richardson; Adam J Nelson; Andrew C W Zannettino; Stan Gronthos; Stephen G Worthley; Peter J Psaltis Journal: Stem Cell Rev Rep Date: 2013-06 Impact factor: 5.739
Authors: Eric G Schmuck; Jill M Koch; Timothy A Hacker; Charles R Hatt; Michael T Tomkowiak; Karl K Vigen; Nicholas Hendren; Cathlyn Leitzke; Ying-Qi Zhao; Zhanhai Li; John M Centanni; Derek J Hei; Denise Schwahn; Jaehyup Kim; Peiman Hematti; Amish N Raval Journal: J Cardiovasc Transl Res Date: 2015-09-15 Impact factor: 4.132
Authors: Jacek Stępniewski; Urszula Florczyk-Soluch; Krzysztof Szade; Karolina Bukowska-Strakova; Justyna Czapla; Sybilla Matuszczak; Magdalena Jarosz-Biej; Agnieszka Langrzyk; Mateusz Tomczyk; Izabela Rumieńczyk; Maria Kulecka; Michał Mikuła; Jerzy Ostrowski; Agnieszka Jaźwa-Kusior; Marian Zembala; Alicja Józkowicz; Michał Oskar Zembala; Józef Dulak Journal: ESC Heart Fail Date: 2019-01-09