BACKGROUND: Human multipotent mesenchymal stromal cells (MSCs) are promising candidates for a growing spectrum of regenerative and immunomodulatory cellular therapies. Translation of auspicious experimental results into clinical applications has been limited by the dependence of MSC propagation from fetal bovine serum (FBS). STUDY DESIGN AND METHODS: The capacity of human platelet lysate (HPL) to replace FBS for clinical-scale MSC propagation was analyzed. RESULTS: HPL could be efficiently produced from buffy coats. Multiplex analyses allowed a distinct HPL growth factor profile to be delineated. With a previously established two-step clinical-scale procedure, HPL was reproducibly more efficient than FBS in supporting MSC outgrowth. With only 3 x 10(5) primary culture-derived MSCs, a mean of 4.36 x 10(8) HPL-MSCs (range, 3.01 x 10(8)-5.40 x 10(8)) was obtained within a single secondary 11- to 13-day culture step. Although morphologically distinct, HPL-MSCs and FBS-MSCs did not differ significantly in terms of immunophenotype, differentiation potential in vitro, and lack of tumorigenicity in nude mice in vivo. CONCLUSIONS: Replacing FBS with HPL prevents bovine prion, viral, and zoonose contamination of the stem cell product. This new efficient FBS-free two-step procedure for clinical-scale MSC propagation may represent a major step toward challenging new stem cell therapies.
BACKGROUND:Human multipotent mesenchymal stromal cells (MSCs) are promising candidates for a growing spectrum of regenerative and immunomodulatory cellular therapies. Translation of auspicious experimental results into clinical applications has been limited by the dependence of MSC propagation from fetal bovine serum (FBS). STUDY DESIGN AND METHODS: The capacity of human platelet lysate (HPL) to replace FBS for clinical-scale MSC propagation was analyzed. RESULTS:HPL could be efficiently produced from buffy coats. Multiplex analyses allowed a distinct HPL growth factor profile to be delineated. With a previously established two-step clinical-scale procedure, HPL was reproducibly more efficient than FBS in supporting MSC outgrowth. With only 3 x 10(5) primary culture-derived MSCs, a mean of 4.36 x 10(8) HPL-MSCs (range, 3.01 x 10(8)-5.40 x 10(8)) was obtained within a single secondary 11- to 13-day culture step. Although morphologically distinct, HPL-MSCs and FBS-MSCs did not differ significantly in terms of immunophenotype, differentiation potential in vitro, and lack of tumorigenicity in nude mice in vivo. CONCLUSIONS: Replacing FBS with HPL prevents bovineprion, viral, and zoonose contamination of the stem cell product. This new efficient FBS-free two-step procedure for clinical-scale MSC propagation may represent a major step toward challenging new stem cell therapies.
Authors: Wan Kamarul Zaman Wan Safwani; Chin Wei Wong; Kar Wey Yong; Jane Ru Choi; Noor Azmi Mat Adenan; Siti Zawiah Omar; Wan Abu Bakar Wan Abas; Belinda Pingguan-Murphy Journal: Cytotechnology Date: 2016-01-04 Impact factor: 2.058
Authors: Mark P Chao; Andrew J Gentles; Susmita Chatterjee; Feng Lan; Andreas Reinisch; M Ryan Corces; Seethu Xavy; Jinfeng Shen; Daniel Haag; Soham Chanda; Rahul Sinha; Rachel M Morganti; Toshinobu Nishimura; Mohamed Ameen; Haodi Wu; Marius Wernig; Joseph C Wu; Ravindra Majeti Journal: Cell Stem Cell Date: 2017-01-12 Impact factor: 24.633
Authors: Andreas Reinisch; Nicole A Hofmann; Anna C Obenauf; Karl Kashofer; Eva Rohde; Katharina Schallmoser; Karin Flicker; Gerhard Lanzer; Werner Linkesch; Michael R Speicher; Dirk Strunk Journal: Blood Date: 2009-03-25 Impact factor: 22.113
Authors: Katharina Schallmoser; Christina Bartmann; Eva Rohde; Simone Bork; Christian Guelly; Anna C Obenauf; Andreas Reinisch; Patrick Horn; Anthony D Ho; Dirk Strunk; Wolfgang Wagner Journal: Haematologica Date: 2010-01-06 Impact factor: 9.941