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30 results on '"Snyder, Pamela J."'

1. Age-dependent SMN expression in disease-relevant tissue and implications for SMA treatment

Author

Ramos, Daniel M., d'Ydewalle, Constantin, Gabbeta, Vijayalakshmi, Dakka, Amal, Klein, Stephanie K., Norris, Daniel A., Matson, John, Taylor, Shannon J., Zaworski, Phillip G., Prior, Thomas W., Snyder, Pamela J., Valdivia, David, Hatem, Christine L., Waters, Ian, Gupte, Nikhil, Swoboda, Kathryn J., Rigo, Frank, Bennett, C. Frank, Naryshkin, Nikolai, Paushkin, Sergey, Crawford, Thomas O., and Sumner, Charlotte J.

Subjects
Thermo Fisher Scientific Inc., Nusinersen, Pregnant women, RNA, Scientific equipment industry, Spinal muscular atrophy, Messenger RNA, Neurons, Muscular atrophy, Brain, Retirement benefits, Health care industry, Johns Hopkins University. School of Medicine
Abstract

BACKGROUND. Spinal muscular atrophy (SMA) is caused by deficient expression of survival motor neuron (SMN) protein. New SMN-enhancing therapeutics are associated with variable clinical benefits. Limited knowledge of baseline and drug-induced SMN levels in disease-relevant tissues hinders efforts to optimize these treatments. METHODS. SMN mRNA and protein levels were quantified in human tissues isolated during expedited autopsies. RESULTS. SMN protein expression varied broadly among prenatal control spinal cord samples, but was restricted at relatively low levels in controls and SMA patients after 3 months of life. A 2.3-fold perinatal decrease in median SMN protein levels was not paralleled by comparable changes in SMN mRNA. In tissues isolated from nusinersen-treated SMA patients, antisense oligonucleotide (ASO) concentration and full-length (exon 7 including) SMN2 (SMN2-FL) mRNA level increases were highest in lumbar and thoracic spinal cord. An increased number of cells showed SMN immunolabeling in spinal cord of treated patients, but was not associated with an increase in whole-tissue SMN protein levels. CONCLUSIONS. A normally occurring perinatal decrease in whole-tissue SMN protein levels supports efforts to initiate SMN-inducing therapies as soon after birth as possible. Limited ASO distribution to rostral spinal and brain regions in some patients likely limits clinical response of motor units in these regions for those patients. These results have important implications for optimizing treatment of SMA patients and warrant further investigations to enhance bioavailability of intrathecally administered ASOs. FUNDING. SMA Foundation, SMART, NIH (R01-NS096770, R01-NS062869), Ionis Pharmaceuticals, and PTC Therapeutics. Biogen provided support for absolute real-time RT-PCR., Introduction The neuromuscular disease spinal muscular atrophy (SMA), affecting approximately 1 in 10,000 individuals, is the most common inherited cause of infant death (1). The most frequent and severe type [...]

Published
2019
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2. Complete sequencing of the SMN2 gene in SMA patients detects SMN gene deletion junctions and variants in SMN2 that modify the SMA phenotype

Author

Ruhno, Corey, McGovern, Vicki L., Avenarius, Matthew R., Snyder, Pamela J., Prior, Thomas W., Nery, Flavia C., Muhtaseb, Abdurrahman, Roggenbuck, Jennifer S., Kissel, John T., Sansone, Valeria A., Siranosian, Jennifer J., Johnstone, Alec J., Nwe, Pann H., Zhang, Ren Z., Swoboda, Kathryn J., and Burghes, Arthur H. M.

Published
2019
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7. Comparison of Cytogenetic and Molecular Genetic Detection of t(8;21) and inv(16) in a Prospective Series of Adults With De Novo Acute Myeloid Leukemia: A Cancer and Leukemia Group B Study

Author

Mrózek, Krzysztof, Prior, Thomas W., Edwards, Colin, Marcucci, Guido, Carroll, Andrew J., Snyder, Pamela J., . Koduru, Prasad R.K, Theil, Karl S., Pettenati, Mark J., Archer, Kellie J., Caligiuri, Michael A., Vardiman, James W., Kolitz, Jonathan E., Larson, Richard A., and Bloomfield, Clara D.

Published
2001

10. Variable phenotypic expression and onset in MYH14 distal hereditary motor neuropathy phenotype in a large, multigenerational North American family

Author

Iyadurai, Stanley, primary, Arnold, W. David, additional, Kissel, John T., additional, Ruhno, Corey, additional, Mcgovern, Vicki L., additional, Snyder, Pamela J., additional, Prior, Thomas W., additional, Roggenbuck, Jennifer, additional, Burghes, Arthur H., additional, and Kolb, Stephen J., additional

Published
2017
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14. Newborn and Carrier Screening for Spinal Muscular Atrophy

Author

Prior, Thomas W., primary, Snyder, Pamela J., additional, Rink, Britton D., additional, Pearl, Dennis K., additional, Pyatt, Robert E., additional, Mihal, David C., additional, Conlan, Todd, additional, Schmalz, Betsy, additional, Montgomery, Laura, additional, Ziegler, Katie, additional, Noonan, Carolee, additional, Hashimoto, Sayaka, additional, and Garner, Shannon, additional

Published
2010
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15. Phase II Clinical Trial of Sorafenib in Metastatic Medullary Thyroid Cancer

Author

Lam, Elaine T., primary, Ringel, Matthew D., additional, Kloos, Richard T., additional, Prior, Thomas W., additional, Knopp, Michael V., additional, Liang, Jiachao, additional, Sammet, Steffen, additional, Hall, Nathan C., additional, Wakely, Paul E., additional, Vasko, Vasyl V., additional, Saji, Motoyasu, additional, Snyder, Pamela J., additional, Wei, Lai, additional, Arbogast, Daria, additional, Collamore, Minden, additional, Wright, John J., additional, Moley, Jeffrey F., additional, Villalona-Calero, Miguel A., additional, and Shah, Manisha H., additional

Published
2010
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28. Hybrids monosomal for human chromosome 5 reveal the presence of a spinal muscular atrophy (SMA) carrier with two SMN1 copies on one chromosome.

Author

Mailman, Matthew D., Hemingway, Tamara, Darsey, Rebecca L., Glasure, Carol E., Ying Huang, Chadwick, Robert B., Heinz, John W., Papp, Audrey C., Snyder, Pamela J., Sedra, Mary S., Schafer, Robert W., Abuelo, Dianne N., Reich, Elsa W., Theil, Karl S., Burghes, Arthur H. M., de la Chapelle, Albert, and Prior, Thomas W.

Subjects
MUSCULAR atrophy in children, HUMAN chromosomes, MOTOR neurons, CELL fusion, GENETIC mutation, FAMILY counseling
Abstract

We have analyzed the survival motor neuron gene (SMN1) dosage in 100 parents of children with homozygous SMN1 deletions. Of these parents, 96 (96%) demonstrated the expected one-copy SMN1 carrier genotype. However, four parents (4%) were observed to have a normal two-copy SMN1 dosage. The presence of two intact SMN1 genes in the parent of an affected child indicates either the occurrence of a de novo mutation event or a situation in which one chromosome has two copies of SMN1, whereas the other is null. We have separated individual chromosomes from two of these parents with two-copy SMN1 dosage by somatic cell hybridization and have employed a modified quantitative dosage assay to provide direct evidence that one parent is a two-copy/zero-copy SMN1 carrier, whereas the other parent had an affected child as the result of a de novo mutation. These findings are important for assessing the recurrence risk of parents of children with spinal muscular atrophy and for providing accurate family counseling. [ABSTRACT FROM AUTHOR]

Published
2001
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29. Sphingosine-1-phosphate stimulates human glioma cell proliferation through Gi-coupled receptors: role of ERK MAP kinase and phosphatidylinositol 3-kinase β

Author

Van Brocklyn, James R., Letterle, Catherine A., Snyder, Pamela J., Prior, Thomas W., Van Brocklyn, James, Letterle, Catherine, Snyder, Pamela, and Prior, Thomas

Subjects
*CELL proliferation, *PHOSPHATASES
Abstract

The regulation of glioma cell proliferation by sphingosine-1-phosphate (S1P) was studied using the human glioblastoma cell line U-373 MG. U-373 MG cells responded mitogenically to nanomolar concentrations of S1P, and express mRNA encoding the S1P receptors S1P1/endothelial differentiation gene (EDG)-1, S1P3/EDG-3 and S1P2/EDG-5. S1P-induced proliferation required extracellular signal-regulated kinase activation and was partially sensitive to pertussis toxin and wortmannin, indicating involvement of a Gi-coupled receptor and phosphatidylinositol 3-kinase. Moreover, S1P1, S1P3 and S1P2 receptors are expressed in the majority of human glioblastomas as determined by reverse transcriptase-polymerase chain reaction analysis. Thus, S1P signaling through EDG receptors may contribute to glioblastoma growth in vivo. [Copyright &y& Elsevier]

Published
2002
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30. Evaluation of the human fragile X mental retardation 1 polymerase chain reaction reagents to amplify the FMR1 gene: testing in a clinical diagnostic laboratory.

Author

Nahhas FA, Monroe TJ, Prior TW, Botma PI, Fang J, Snyder PJ, Talbott SL, and Feldman GL

Subjects
Alleles, Blotting, Southern, DNA Methylation, Electrophoresis, Capillary methods, Female, Fragile X Syndrome diagnosis, Fragile X Syndrome genetics, Humans, Male, Mutation, Reagent Kits, Diagnostic, Trinucleotide Repeat Expansion genetics, Clinical Laboratory Techniques methods, Fragile X Mental Retardation Protein genetics, Indicators and Reagents, Polymerase Chain Reaction methods
Abstract

Fragile X syndrome (FXS) is caused by the absence of a functional fragile X mental retardation protein (FMRP). In most cases, the molecular mutation is an expansion and consequent methylation of the CGG trinucleotide repeat in the 5' end of the FMR1 gene. Polymerase chain reaction (PCR)-based assays that overcome the limitations of amplifying >100-150 CGG repeats have been designed. One such product, Human FMR1 PCR Reagents, can detect expanded mutation alleles without determining methylation status. We used this assay to amplify 70 clinical samples previously tested in three clinical laboratories, including 28 full mutation alleles, 17 premutation alleles, 6 gray zone alleles, and 21 normal samples (51 normal alleles including 5 homozygous females). The results were concordant with previously reported results. All full and premutation alleles were identifiable: repeat sizes are not assigned when the CGG repeat number is >200 and all full and premutation alleles were scored in the same category using this assay. All normal and gray zone alleles were within 0-1 repeat of their previously reported allele sizes. This method identified a mosaic premutation/full mutation pattern in 12/21 samples previously identified as full mutation only and in 5/7 samples previously reported as mosaic premutation/full mutation. These results demonstrate that this assay provides comparable results to the combination of PCR/Southern blot methodologies. Additional issues such as technologist time, reagent costs, turnaround times, and sample requirements are comparable to the PCR/Southern blotting assays currently utilized; however, methylation status cannot be determined using this assay. It is likely that PCR-only based assays will eventually replace previous methods for FXS and that Southern blotting or another methylation assay will only be utilized when determination of methylation status is necessary. This type of assay may also be utilized for other nucleotide expansion disorders.

Published
2012
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