Christine McBride scite author profile

Previously we described a reliable method based on immunodepletion for isolating mesenchymal stem cells (MSCs) from murine bone marrow and showed that, after intracranial transplantation, the cells migrated throughout forebrain and cerebellum and adopted neural cell fates. Here we systemically administered MSCs purified by immunodepletion from male bleomycin (BLM)-resistant BALB͞c mice into female BLM-sensitive C57BL͞6 recipients and quantified engraftment levels in lung by real-time PCR. Male DNA accounted for 2.21 ؋ 10 ؊5 % of the total lung DNA in control-treated mice but was increased 23-fold (P ‫؍‬ 0.05) in animals exposed to BLM before MSC transplantation. Fluorescence in situ hybridization revealed that engrafted male cells were localized to areas of BLM-induced injury and exhibited an epithelium-like morphology. Moreover, purification of type II epithelial cells from the lungs of transplant recipients resulted in a 3-fold enrichment of male, donor-derived cells as compared with whole lung tissue. MSC administration immediately after exposure to BLM also significantly reduced the degree of BLM-induced inflammation and collagen deposition within lung tissue. Collectively, these studies demonstrate that murine MSCs home to lung in response to injury, adopt an epithelium-like phenotype, and reduce inflammation and collagen deposition in lung tissue of mice challenged with BLM.

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Quantifying levels of transplanted murine and human mesenchymal stem cells in vivo by realtime PCR

McBride

2003

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Adipose-Derived Stem Cells on Hyaluronic Acid–Derived Scaffold

Espandar

Bunnell²,

Wang³

et al. 2012

Arch Ophthalmol

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Laparoscopic oviductal transfer of in vitro matured and in vitro fertilized bovine oocytes

Fayrer-Hosken¹,

Younis²,

Brackett³

et al. 1989

Theriogenology

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Evaluation of rabbit sperm acrosomal integrity and fertilizing ability by use of vital stains

McBride¹,

Fayrer-Hosken²,

Srivastava

et al. 1990

Molecular Reproduction Devel

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Three staining procedures to detect sperm acrosome integrity were compared via electron microscopy. Stains were applied to epididymal, freshly ejaculated, in vivo capacitated, and sonicated sperm cells in addition to spermatozoa displaying sequentially removed plasma and outer and inner acrosomal membranes. Sequential membrane removal procedures resulted in removal of plasma membranes from 73% of all sperm cells, removal of plasma and outer acrosomal membranes from 74% of all sperm cells, and removal of plasma and outer and inner acrosomal membranes from 87% of all sperm cells as determined by electron microscopy. Live/dead staining results were not statistically different from subjective microscopic motility evaluations (P less than 0.005) for epididymal, sonicated, freshly ejaculated, and in vivo capacitated sperm samples. All three stains assessed were similarly capable of detecting the acrosome status of freshly ejaculated and of sonicated spermatozoa compared to data obtained by electron microscopy (P = 0.010). However, only the Bryan-Akruk stain afforded data that were closely correlated with data obtained via electron microscopy for all sperm types assessed; the latter included in vivo capacitated spermatozoa and sperm cells rendered free of plasma membranes. Results confirmed an earlier report by successfully effecting sequential removal of rabbit acrosomal membranes and documented use of the Bryan-Akruk acrosomal stain for evaluation of sperm cell populations for fertilizing ability. These findings should prove useful in further investigations of mechanisms involved in achievement of fertilizing ability by rabbit spermatozoa.

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