Baruch Z. Harris scite author profile

Familial hypercholanemia (FHC) is characterized by elevated serum bile acid concentrations, itching, and fat malabsorption. We show here that FHC in Amish individuals is associated with mutations in tight junction protein 2 (encoded by TJP2, also known as ZO-2) and bile acid Coenzyme A: amino acid N-acyltransferase (encoded by BAAT). The mutation of TJP2, which occurs in the first PDZ domain, reduces domain stability and ligand binding in vitro. We noted a morphological change in hepatic tight junctions. The mutation of BAAT, a bile acid-conjugating enzyme, abrogates enzyme activity; serum of individuals homozygous with respect to this mutation contains only unconjugated bile acids. Mutations in both TJP2 and BAAT may disrupt bile acid transport and circulation. Inheritance seems to be oligogenic, with genotype at BAAT modifying penetrance in individuals homozygous with respect to the mutation in TJP2.

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The guanosine nucleotide (p)ppGpp initiates development and A-factor production in Myxococcus xanthus

Harris¹,

Kaiser²,

Singer³

1998

Genes & Development

154

180

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Guanosine 3-di-5-(tri)di-phosphate nucleotides [(p)ppGpp], synthesized in response to amino acid limitation, induce early gene expression leading to multicellular fruiting body formation in Myxococcus xanthus. A mutant (DK527) that fails to accumulate (p)ppGpp in response to starvation was found to be blocked in development prior to aggregation. By use of a series of developmentally regulated Tn5lac transcriptional fusion reporters, the time of developmental arrest in DK527 was narrowed to within the few hours of development, the period of starvation recognition. The mutant is also defective in the production of A-factor, an early extracellular cell-density signal. The relA gene from Escherichia coli, which encodes a ribosome-dependent (p)ppGpp synthetase, rescues this mutant. We also demonstrate that inactivation of the M. xanthus relA homolog blocks development and the accumulation of (p)ppGpp. Moreover, the wild-type allele of Myxococcus relA rescues DK527. These observations support a model in which accumulation of (p)ppGpp, in response to starvation, initiates the program of fruiting body development, including the production of A-factor.

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Energetic Determinants of Internal Motif Recognition by PDZ Domains

2001

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PDZ domains are protein-protein interaction modules that organize intracellular signaling complexes. Most PDZ domains recognize specific peptide motifs followed by a required COOH-terminus. However, several PDZ domains have been found which recognize specific internal peptide motifs. The best characterized example is the syntrophin PDZ domain which, in addition to binding peptide ligands with the consensus sequence -E-S/T-X-V-COOH, also binds the neuronal nitric oxide synthase (nNOS) PDZ domain in a manner that does not depend on its precise COOH-terminal sequence. In the structure of the syntrophin-nNOS PDZ heterodimer complex, the two PDZ domains interact in a head-to-tail fashion, with an internal sequence from the nNOS PDZ domain binding precisely at the peptide binding groove of the syntrophin PDZ domain. To understand the energetic basis of this alternative mode of PDZ recognition, we have undertaken an extensive mutagenic and biophysical analysis of the nNOS PDZ domain and its interaction with the syntrophin PDZ domain. Our data indicate that the presentation of the nNOS internal motif within the context of a rigid -hairpin conformation is absolutely essential to binding; amino acids crucial to the structural integrity of the hairpin are as important or more important than residues that make direct contacts. The results reveal the general rules of PDZ recognition of diverse ligand types.PDZ 1 domains are protein-protein interaction modules of approximately 100 amino acids that organize intracellular signaling complexes (for reviews, see refs 1-3). Their name derives from the first three proteins in which they were discovered: PSD-95, Dlg-1, and ZO-1. Since their initial discovery, PDZ domains have been found in all eukaryotic organisms studied to date; 157 PDZ domains have been identified in the Caenorhabditis elegans genome, 208 in the Drosophila melanogaster genome, and 394 in the Homo sapiens genome (4, 5). The most important function of PDZ domains appears to be in localization; many PDZ domains play an essential role in gathering receptors, channels, and downstream effectors at cell-cell communication junctions, as exemplified at neuronal synapses (6, 7). Similarly, PDZcontaining proteins play a central role in regulating apicalbasal polarity in epithelial cells (8).PDZ domains mediate organization of signaling complexes by recognizing specific COOH-terminal amino acid sequence motifs (9). Specificity in PDZ domains is most commonly mediated through the recognition of a small number of amino acid side chains that are necessarily followed by a COOHterminus (10). Peptide library studies show that the requirement for the carboxylate at the terminus is very stringent; addition or deletion of even one amino acid from the consensus sequence eliminates binding. Ligand sequence preferences of most PDZ domains can be divided into two major classes. Class I PDZ domains prefer the -S/T-X-Φ-COOH motif whereas class II PDZ domains the -Φ-X-Φ-COOH motif, where Φ is a hydrophobic amino acid. Recent work s...

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Mechanism and role of PDZ domains in signaling complex assembly

2001

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PDZ domains are protein-protein recognition modules that play a central role in organizing diverse cell signaling assemblies. These domains specifically recognize short C-terminal peptide motifs, but can also recognize internal sequences that structurally mimic a terminus. PDZ domains can therefore be used in combination to bind an array of target proteins or to oligomerize into branched networks. Several PDZ-domain-containing proteins play an important role in the transport, localization and assembly of supramolecular signaling complexes. Examples of such PDZ-mediated assemblies exist in Drosophila photoreceptor cells and at mammalian synapses. The predominance of PDZ domains in metazoans indicates that this highly specialized scaffolding module probably evolved in response to the increased signaling needs of multicellular organisms.

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β Strand Peptidomimetics as Potent PDZ Domain Ligands

Hammond

Harris

Lim

et al. 2006

Chemistry & Biology

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The search for general strategies for inhibiting protein-protein interactions has been stimulated by recognition of the key role they play in virtually every process of living systems. Multiprotein complex assembly and localization by PDZ domain-containing proteins exemplify processes critical to cell physiology and function that are mediated by beta strand association. Here we describe the development of substituted "@-tides," protease-resistant peptidomimetics incorporating conformationally restricted amino acid surrogates that reproduce the hydrogen-bonding pattern and side-chain functionality of a beta strand. The synthetic flexibility and generality of the substituted @-tide design was demonstrated by the synthesis of a panel of ligands for the alpha1-syntrophin PDZ domain. The rational design of a small molecule of unprecedented affinity for the PDZ domain suggests that these peptidomimetics may provide a general method for inhibiting protein-protein interactions involving extended peptide chains.

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Baruch Z. Harris

Complex inheritance of familial hypercholanemia with associated mutations in TJP2 and BAAT

The guanosine nucleotide (p)ppGpp initiates development and A-factor production in Myxococcus xanthus

Energetic Determinants of Internal Motif Recognition by PDZ Domains

Mechanism and role of PDZ domains in signaling complex assembly

β Strand Peptidomimetics as Potent PDZ Domain Ligands

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