Stephen B. Liggett scite author profile

We have recently delineated three naturally occurring polymorphisms of the human beta 2-adrenergic receptor caused by missense mutations encoding for amino acids 16 and 27 of the extracellular N-terminus of the receptor. We have studied the functional consequences of these polymorphisms by site-directed mutagenesis and the recombinant expression of these receptors in Chinese hamster fibroblasts. The polymorphisms consist of substitutions of Gly for Arg at amino acid 16 (Arg16-->Gly), Glu for Gln at amino acid 27 (Gln27-->Glu), and a combination of both substitutions. All three mutated receptors displayed normal agonist binding and functional coupling to Gs, resulting in the stimulation of adenylyl cyclase activity. However, these mutations markedly altered the degree of agonist-promoted downregulation of receptor expression. After 24-h exposure to 10 microM isoproterenol, wild-type beta 2AR underwent a 26 +/- 3% reduction in receptor density. In contrast, Arg16-->Gly underwent a 41 +/- 3% reduction. Gln27-->Glu, on the other hand, was found to be completely resistant to downregulation. Arg16-->Gly+Gln27-->Glu also underwent an increased downregulation compared to wild-type beta 2AR (39 +/- 4%). The rates of new receptor synthesis after irreversible alkylation were not different between these receptors, nor were the rates of agonist-promoted receptor internalization to the intracellular pool. Gln27-->Glu cellular mRNA minimally increased during agonist exposure, and wild-type beta 2AR and the other mutated receptor mRNAs did not change, which infer that the aberrant downregulation patterns of these polymorphisms may be due to the altered degradation of receptor protein.(ABSTRACT TRUNCATED AT 250 WORDS)

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Sequencing and Analyses of All Known Human Rhinovirus Genomes Reveal Structure and Evolution

Palmenberg

Spiro

Kuzmickas

et al. 2009

Science

434

470

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Infection by human rhinovirus (HRV) is a major cause of upper and lower respiratory tract disease worldwide and displays considerable phenotypic variation. We examined diversity by completing the genome sequences for all known serotypes (n = 99). Superimposition of capsid crystal structure and optimal-energy RNA configurations established alignments and phylogeny. These revealed conserved motifs; clade-specific diversity, including a potential newly identified species (HRV-D); mutations in field isolates; and recombination. In analogy with poliovirus, a hypervariable 5′ untranslated region tract may affect virulence. A configuration consistent with nonscanning internal ribosome entry was found in all HRVs and may account for rapid translation. The data density from complete sequences of the reference HRVs provided high resolution for this degree of modeling and serves as a platform for full genome-based epidemiologic studies and antiviral or vaccine development.

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Mutations in the Gene Encoding for the β₂-adrenergic Receptor in Normal and Asthmatic Subjects

Reihsaus

Innis

MacIntyre

et al. 1993

Am J Respir Cell Mol Biol

604

405

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It has long been hypothesized that a defective beta 2-adrenergic receptor (beta 2AR) may be a pathogenic factor in bronchial asthma. We examined the gene encoding the beta 2AR to assess the frequency of polymorphisms in 51 patients with moderate to severe asthma and 56 normal subjects. Nine different point mutations were found in both heterozygous and homozygous forms at nucleic acid residues 46, 79, 100, 252, 491, 523, 1053, 1098, and 1239. No mutations resulting in large deletions or frame shifts were detected. Of these nine polymorphisms, four were found to cause changes in the encoded amino acids at residues 16, 27, 34, and 164. The most frequent polymorphisms were arginine 16 to glycine (Arg16-->Gly) and glutamine 27 to glutamic acid (Gln27-->Glu). The other two polymorphisms, valine 34 to methionine, and threonine 164 to isoleucine, occurred in only four subjects. The incidence of beta 2AR homozygous polymorphisms was no greater in asthmatic patients as compared with controls (Arg16-->Gly: 53% versus 59%, Gln27-->Glu: 24% versus 29%, respectively; P = NS). Some subjects were found to have both of these polymorphisms simultaneously, but there was no difference in incidence between the two groups, with 23% of asthmatics and 28% of normal subjects being homozygous for both polymorphisms. The apparently normal subjects with both polymorphisms did not have subclinical hyperreactive airways disease as determined by methacholine challenge testing. In the asthma group, one mutation (Arg16-->Gly) identified a subset of patients with a distinct clinical profile.(ABSTRACT TRUNCATED AT 250 WORDS)

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