Karen Rockwell scite author profile

The T cell leukemia oncoprotein SCL/tal-1, a basic-helix-loop-helix transcription factor, is required for production of embryonic red blood cells in the mouse yolk sac. To define roles in other lineages, we studied the hematopoietic potential of homozygous mutant SCL/tal-1 -/- embryonic stem cells upon in vitro differentiation and in vivo in chimeric mice. Here we show that in the absence of SCL/tal-1, hematopoiesis, Including the generation of red cells, myeloid cells, megakaryocytes, mast cells, and both T and B lymphoid cells, is undetectable. These findings suggest that SCL/tal-1 functions very early in hematopoietic development, either in specification of ventral mesoderm to a blood cell fate, or in formation or maintenance of immature progenitors.

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Palmitoyl ascorbate-modified liposomes as nanoparticle platform for ascorbate-mediated cytotoxicity and paclitaxel co-delivery

Sawant

Vaze

Rockwell

et al. 2010

European Journal of Pharmaceutics and Biopharmaceutics

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Targeting Glioma Cells in Vitro with Ascorbate-Conjugated Pharmaceutical Nanocarriers

et al. 2009

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6-Ascorbate-PEG-1,2-distearoyl-sn-glycero-3-phosphoethanolamine (6-ascorbate-PEG-PE) was synthesized according to a two-step procedure: (1) activation of ascorbic acid with bromine, and (2) synthesis of 6-ascorbate-PEG-PE by reacting 1,2-distearoyl-sn-glycero-3-phosphoethanolamine-N-[amino (poly(ethylene glycol))-2000] with an excess of 6-Br-ascorbic acid. The 6-ascorbate-PEG-PE was recovered by precipitation in diethyl ether and purified by gel permeation chromatography. The analysis of the product by 1H NMR and UV-vis spectroscopy confirmed the identity of the conjugate. Liposomes and PEG-PE-based lipid-core micelles were prepared by thin film hydration technique incorporating 6-ascorbate-PEG-PE as targeting moiety. The targeting properties of the ascorbate-decorated nanosystems were tested by fluorescence-activated cell sorting (FACS) analysis and fluorescent microscopy on a panel of tumor cell lines preliminary selected for their ability to express the SVCT2 ascorbate transporter. Cell lines had been selected on the basis of the immunological properties assessed by FACS, which showed that two glioma cell lines, C6 and F98, and fibroblasts NIH/3T3 express plasma membrane-associated SVCT2 transporter for reduced ascorbic acid. Ascorbate-decorated pharmaceutical nanocarriers were endowed with selective targeting properties toward the SVCT2 transporter expressed in glioma cell models. This study shows that SVCT2 transporter for ascorbic acid expressed both in peculiar epithelial cells of the choroid plexus responsible for the filtering of vitamin C into the central nervous system (CNS) and, in some brain tumor cell lines, can be conceivably exploited as a potential target for delivery of drug-loaded pharmaceutical nanocarriers to the brain.

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Palmitoyl Ascorbate-Loaded Polymeric Micelles: Cancer Cell Targeting and Cytotoxicity

et al. 2010

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Surface Modification of Pharmaceutical Nanocarriers with Ascorbate Residues Improves their Tumor-Cell Association and Killing and the Cytotoxic Action of Encapsulated Paclitaxel In Vitro

et al. 2008

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Palmitoyl Ascorbate Liposomes and Free Ascorbic Acid: Comparison of Anticancer Therapeutic Effects Upon Parenteral Administration

et al. 2011

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Biologically distinct conformations of Bcl-x can be resolved using 2D isoelectric focusing

Rockwell

Huber

2009

Molecular Immunology

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Bcl-x, a potent regulator of cellular decisions of life and death, has multiple survival-enhancing activities that rely on distinct protein regions. Evidence suggests that depending on the local environment and the binding of protein or peptide partners, Bcl-x can take on several conformations that expose different protein regions. However, biological occurrence of conformational forms has been very difficult to study, because structure determination techniques use large quantities of protein, purified under conditions that change Bcl-x conformation. We show here that standard 2D isoelectric focusing techniques can be used to distinguish conformationally distinct forms of Bcl-x in cell lysates. Conformational isoelectric forms were manipulated through the use of detergents and buffers of differing pH. Our data indicate that post-translational modifications are not needed for or associated with conformational changes, distinguishing the dominant isoelectric forms of Bcl-x. We found that Bcl-x conformational isoelectric forms have preferred subcellular localization patterns. Moreover, conformational forms are differently regulated in certain locations during cytokine starvation of IL-3 dependant cells. Therefore, we provide evidence that 2DIEF can be used to view biologically distinct conformational differences in Bcl-x on minute quantities of unpurified protein from cells or lysates.

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Mouse Models for Experimental Cancer Therapy

Rockwell

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Karen Rockwell

The T Cell Leukemia Oncoprotein SCL/tal-1 Is Essential for Development of All Hematopoietic Lineages

Palmitoyl ascorbate-modified liposomes as nanoparticle platform for ascorbate-mediated cytotoxicity and paclitaxel co-delivery

Targeting Glioma Cells in Vitro with Ascorbate-Conjugated Pharmaceutical Nanocarriers

Palmitoyl Ascorbate-Loaded Polymeric Micelles: Cancer Cell Targeting and Cytotoxicity

Surface Modification of Pharmaceutical Nanocarriers with Ascorbate Residues Improves their Tumor-Cell Association and Killing and the Cytotoxic Action of Encapsulated Paclitaxel In Vitro

Palmitoyl Ascorbate Liposomes and Free Ascorbic Acid: Comparison of Anticancer Therapeutic Effects Upon Parenteral Administration

Biologically distinct conformations of Bcl-x can be resolved using 2D isoelectric focusing

Mouse Models for Experimental Cancer Therapy

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