T Brockmeyer scite author profile

T Brockmeyer

4Publications

15Citation Statements Received

99Citation Statements Given

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University of Pennsylvania

Publications

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Adult Rat Bone Marrow-Derived Stem Cells Promote Late Fetal Type II Cell Differentiation in a Co-Culture Model

Knoll¹,

Brockmeyer²,

Chevalier³

et al. 2013

TORMJ

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Bronchopulmonary dysplasia develops in preterm infants due to a combination of lung immaturity and lung injury. Cultured pluripotent bone marrow stem cells (BMSC) are known to reduce injury and induce repair in adult and in immature lungs, possibly through paracrine secretion of soluble factors. The paracrine relationship between BMSC and primary fetal lung epithelial type II cells is unknown. We determined the effects of BMSC on type II cell and fibroblast behavior using an in vitro co-culture model. Rat BMSC were isolated and co-cultured with primary fetal E21 rat type II cells or lung fibroblasts in a Transwell® system without direct cell contact. Effects of BMSC conditioned media (CM) on type II cell and fibroblast proliferation and on type II cell surfactant phospholipid (DSPC) synthesis and mRNA expression of surfactant proteins B and C (sftpb and sftpc) were studied. We also determined the effect of fibroblast and type II cell CM on BMSC proliferation and surface marker expression. Co-culture with BMSC significantly decreased type II cell and fibroblast proliferation to 72.5% and 83.7% of controls, respectively. Type II cell DSPC synthesis was significantly increased by 21% and sftpb and sftpc mRNA expressions were significantly induced (2.1 fold and 2.4 fold, respectively). BMSC proliferation was significantly reduced during the co-culture. Flow cytometry confirmed that BMSC retained the expression of undifferentiated stem cell markers despite their exposure to fetal lung cell CM. We conclude that BMSC induce fetal type II cell differentiation through paracrine release of soluble factors. These studies provide clues for how BMSC may act in promoting alveolar repair following injury.

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The effects of demineralized bone matrix and direct current on an “in vivo” culture of bone marrow cells

Friedenberg

Brighton

Michelson

et al. 1989

Journal Orthopaedic Research

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Bone marrow cells (BMCs) from rabbit femora and tibiae were grown in diffusion chambers implanted in rabbit muscle. At 42 days 80% of the BMC chambers exhibited cartilage formation within them. Demineralized bone matrix added to the marrow cell suspension in the chamber accelerated the appearance and increased the number of chambers with cartilage. Mineralization of the cartilage also occurred earlier in the chambers with bone matrix. In a second experiment, a 5-microA direct current cathode in the bone marrow chamber increased the number of chambers containing cartilage from 50 to 80% at day 25. Mineralization also occurred earlier in the chambers with direct current.

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Epithelial-Mesenchymal Transition in Fetal Type-II Epithelial Cells.

Brockmeyer¹,

Pham²,

Zscheppang³

et al. 2009

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Effects of Fetal Rat Lung Type II Cells and Fibroblasts on Bone Marrow Mesenchymal Stem Cell Behavior.

Brockmeyer¹,

Williams²,

Knoll

et al. 2009

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T Brockmeyer

Adult Rat Bone Marrow-Derived Stem Cells Promote Late Fetal Type II Cell Differentiation in a Co-Culture Model

The effects of demineralized bone matrix and direct current on an “in vivo” culture of bone marrow cells

Epithelial-Mesenchymal Transition in Fetal Type-II Epithelial Cells.

Effects of Fetal Rat Lung Type II Cells and Fibroblasts on Bone Marrow Mesenchymal Stem Cell Behavior.

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