David Schwarz scite author profile

The Schlafen (Slfn) family of genes are differentially regulated during thymocyte maturation and are preferentially expressed in the lymphoid tissues. Ectopic expression of the prototype member Slfn1 early in the T lineage profoundly alters cell growth and development. In these mice, the DP thymocytes fail to complete maturation, and, depending on the transgene dosage, the number of thymocytes is reduced to 1%-30% of normal. Furthermore, expression of the Schlafen family members in fibroblasts and thymoma cells either retards or ablates cell growth. The conceptual protein sequences deduced for each of the family members have no similarity to characterized proteins and must therefore participate in a heretofore unknown regulatory mechanism guiding both cell growth and T cell development.

show abstract

Chronic, wireless recordings of large-scale brain activity in freely moving rhesus monkeys

Schwarz

et al. 2014

View full text Add to dashboard Cite

Advances in techniques for recording large-scale brain activity contribute to both the elucidation of neurophysiological principles and the development of brain-machine interfaces (BMIs). Here we describe a neurophysiological paradigm for performing tethered and wireless large-scale recordings based on movable volumetric three-dimensional (3D) multielectrode implants. This approach allowed us to isolate up to 1,800 units per animal and simultaneously record the extracellular activity of close to 500 cortical neurons, distributed across multiple cortical areas, in freely behaving rhesus monkeys. The method is expandable, in principle, to thousands of simultaneously recorded channels. It also allows increased recording longevity (5 consecutive years), and recording of a broad range of behaviors, e.g. social interactions, and BMI paradigms in freely moving primates. We propose that wireless large-scale recordings could have a profound impact on basic primate neurophysiology research, while providing a framework for the development and testing of clinically relevant neuroprostheses.

show abstract

The Influence of the MAPK Pathway on T Cell Lineage Commitment

et al. 1997

View full text Add to dashboard Cite

During development, progenitor thymocytes differentiate into either CD4 or CD8 T cells, and this fate decision depends on the specificity of the T cell antigen receptor (TCR) for MHC class II or class I molecules. Based on the mechanisms of fate specification known for simple metazoan organisms, we sought to determine whether the extracellular signal-related kinases (ERKs) play a role in T cell differentiation and lineage commitment. Using a dominant gain-of-function mutant of the erk2 gene, we show that differentiation into the CD4 lineage is favored. We also show that, conversely, the addition of a pharmacological inhibitor of the ERK pathway favors differentiation into the CD8 lineage. We present a quantitative selection model that incorporates these results as well as those of recent reports on the role of Notch in T cell lineage specification.

show abstract

Ligand Affinity for Amino-Terminal and Juxtamembrane Domains of the Corticotropin Releasing Factor Type I Receptor: Regulation by G-Protein and Nonpeptide Antagonists

et al. 2004

View full text Add to dashboard Cite

Peptide ligands bind the CRF(1) receptor by a two-domain mechanism: the ligand's carboxyl-terminal portion binds the receptor's extracellular N-terminal domain (N-domain) and the ligand's amino-terminal portion binds the receptor's juxtamembrane domain (J-domain). Little quantitative information is available regarding this mechanism. Specifically, the microaffinity of the two interactions and their contribution to overall ligand affinity are largely undetermined. Here we measured ligand interaction with N- and J-domains expressed independently, the former (residues 1-118) fused to the activin IIB receptor's membrane-spanning alpha-helix (CRF(1)-N) and the latter comprising residues 110-415 (CRF(1)-J). We also investigated the effect of nonpeptide antagonist and G-protein on ligand affinity for N- and J-domains. Peptide agonist affinity for CRF(1)-N was only 1.1-3.5-fold lower than affinity for the whole receptor (CRF(1)-R), suggesting the N-domain predominantly contributes to peptide agonist affinity. Agonist interaction with CRF(1)-J (potency for stimulating cAMP accumulation) was 12000-1500000-fold weaker than with CRF(1)-R, indicating very weak direct agonist interaction with the J-domain. Nonpeptide antagonist affinity for CRF(1)-J and CRF(1)-R was indistinguishable, indicating the compounds bind predominantly the J-domain. Agonist activation of CRF(1)-J was fully blocked by nonpeptide antagonist, suggesting antagonism results from inhibition of agonist-J-domain interaction. G-protein coupling with CRF(1)-R (forming RG) increased peptide agonist affinity 92-1300-fold, likely resulting from enhanced agonist interaction with the J-domain rather than the N-domain. Nonpeptide antagonists, which bind the J-domain, blocked peptide agonist binding to RG, and binding of peptide antagonists, predominantly to the N-domain, was unaffected by R-G coupling. These findings extend the two-domain model quantitatively and are consistent with a simple equilibrium model of the two-domain mechanism: (1) The N-domain binds peptide agonist with moderate-to-high microaffinity, substantially increasing the local concentration of agonist and so allowing weak agonist-J-domain interaction. (2) Agonist-J-domain interaction is allosterically enhanced by receptor-G-protein interaction and inhibited by nonpeptide antagonist.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

David Schwarz

Schlafen, a New Family of Growth Regulatory Genes that Affect Thymocyte Development

Chronic, wireless recordings of large-scale brain activity in freely moving rhesus monkeys

The Influence of the MAPK Pathway on T Cell Lineage Commitment

Ligand Affinity for Amino-Terminal and Juxtamembrane Domains of the Corticotropin Releasing Factor Type I Receptor: Regulation by G-Protein and Nonpeptide Antagonists

Contact Info

Product

Resources

About