Mary Blandford scite author profile

Bioluminescent reporter genes are sensitive in situ tools for following disease progression in preclinical models, albeit they are subject to scattering and absorption in deep tissues. We have generated a bicistronic Cre/LoxP reporter mouse line that pairs the expression of firefly luciferase with quantifiable expression of a human placental alkaline phosphatase that is secreted into the serum (SeAP). With the use of this dual-modality bioreporter with a novel, inducible Pax7-CreER line for tracking muscle satellite cells, we demonstrate the longitudinal kinetics of muscle stem cell turnover, accounting for a doubling of the signal from satellite cell and progeny every 3.93 wk in the transition from adolescence to early adulthood. We also show that this dual-modality bioreporter can be incorporated in preclinical cancer models, whereby SeAP activity is reflective of tumor burden. Thus, this dual bioreporter permits both spatial localization and accurate quantification of biological processes in vivo even when the tissue of interest is deep within the animal.

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Ectodomain Shedding and Intramembrane Cleavage of Mammalian Notch Proteins Are Not Regulated through Oligomerization

Vooijs

Schroeter

Pan

et al. 2004

Journal of Biological Chemistry

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Intramembrane cleaving proteases such as site 2 protease, ␥-secretase, and signal peptide peptidase hydrolyze peptide bonds within the transmembrane domain (TMD) of signaling molecules such as SREBP, Notch, and HLA-E, respectively. All three enzymes require a prior cleavage at the juxtamembrane region by another protease. It has been proposed that removing the extracellular domain allows dissociation of substrate TMD, held together by the extracellular domain or loop. Using ␥-secretase as a model intramembrane cleaving protease and Notch as a model substrate, we investigated whether activating and inactivating mutations in Notch modulate ␥-secretase cleavage through changes in oligomerization. We find that although the Notch epidermal growth factor repeats can promote dimer formation, most surface Notch molecules in mammalian cells are monomeric as are constitutively active or inactive Notch1 proteins. Using a bacterial assay for TM dimerization, we find that the isolated TMD of Notch and amyloid precursor protein self-associate and that mutations affecting Notch cleavage by ␥-secretase cleavage do not alter TMD dimerization. Our results indicate that ligand-induced reversal of controlled TMD dimerization by the Notch extracellular domain is unlikely to underlie the regulatory mechanism of intramembranous cleavage.

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Rhabdomyosarcomas utilize developmental, myogenic growth factors for disease advantage: A report from the children's oncology group

Blandford

Barr

Lynch

et al. 2005

Pediatric Blood & Cancer

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High-Throughput Detection of Glutathione S -Transferase Polymorphic Alleles in a Pediatric Cancer Population

Barnette

Scholl²,

Blandford

et al. 2004

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Polymorphisms of glutathione S-transferase (GST) enzymes have been correlated with altered risk of several cancers, as well as altered response and toxicity from cancer chemotherapy. We report a low cost, highly reproducible and specific PCR-based high-throughput assay for genotyping different GSTs designed for use in large clinical trials. In comparison to an alternative genotyping method (single nucleotide extension), the sensitivity and specificity of the high throughput assay was shown to be 92 and 97%, respectively, depending on the source of genomic DNA. Using the high-throughput assay, we demonstrate by multivariate analysis an increased risk of acute lymphoblastic leukemia, glial brain tumors, and osteosarcoma for patients carrying nonnull alleles of GSTM1 and/or GSTT1.

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Mary Blandford

Biomarker system for studying muscle, stem cells, and cancer in vivo

Ectodomain Shedding and Intramembrane Cleavage of Mammalian Notch Proteins Are Not Regulated through Oligomerization

Rhabdomyosarcomas utilize developmental, myogenic growth factors for disease advantage: A report from the children's oncology group

High-Throughput Detection of Glutathione S -Transferase Polymorphic Alleles in a Pediatric Cancer Population

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