Cysteinyl Leukotrienes Pathway Genes, Atopic Asthma and Drug Response: From Population Isolates to Large Genome-Wide Association Studies.

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Cysteinyl Leukotrienes Pathway Genes, Atopic Asthma and Drug Response: From Population Isolates to Large Genome-Wide Association Studies.

Front Pharmacol. 2016;7:299

Authors: Thompson MD, Capra V, Clunes MT, Rovati GE, Stankova J, Maj MC, Duffy DL

Abstract
Genetic variants associated with asthma pathogenesis and altered response to drug therapy are discussed. Many studies implicate polymorphisms in genes encoding the enzymes responsible for leukotriene synthesis and intracellular signaling through activation of seven transmembrane domain receptors, such as the cysteinyl leukotriene 1 (CYSLTR1) and 2 (CYSLTR2) receptors. The leukotrienes are polyunsaturated lipoxygenated eicosatetraenoic acids that exhibit a wide range of pharmacological and physiological actions. Of the three enzymes involved in the formation of the leukotrienes, arachidonate 5 lipoxygenase 5 (ALOX5), leukotriene C4 synthase (LTC4S), and leukotriene hydrolase (LTA4H) are all polymorphic. These polymorphisms often result in variable production of the CysLTs (LTC4, LTD4, and LTE4) and LTB4. Variable number tandem repeat sequences located in the Sp1-binding motif within the promotor region of the ALOX5 gene are associated with leukotriene burden and bronchoconstriction independent of asthma risk. A 444A > C SNP polymorphism in the LTC4S gene, encoding an enzyme required for the formation of a glutathione adduct at the C-6 position of the arachidonic acid backbone, is associated with severe asthma and altered response to the CYSLTR1 receptor antagonist zafirlukast. Genetic variability in the CysLT pathway may contribute additively or synergistically to altered drug responses. The 601 A > G variant of the CYSLTR2 gene, encoding the Met201Val CYSLTR2 receptor variant, is associated with atopic asthma in the general European population, where it is present at a frequency of ?2.6%. The variant was originally found in the founder population of Tristan da Cunha, a remote island in the South Atlantic, in which the prevalence of atopy is approximately 45% and the prevalence of asthma is 36%. In vitro work showed that the atopy-associated Met201Val variant was inactivating with respect to ligand binding, Ca(2+) flux and inositol phosphate generation. In addition, the CYSLTR1 gene, located at Xq13-21.1, has been associated with atopic asthma. The activating Gly300Ser CYSLTR1 variant is discussed. In addition to genetic loci, risk for asthma may be influenced by environmental factors such as smoking. The contribution of CysLT pathway gene sequence variants to atopic asthma is discussed in the context of other genes and environmental influences known to influence asthma.

PMID: 27990118 [PubMed – in process]

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Researchers identify biological pathway that explains why current asthma therapies fail in many cases – News-Medical.net

Researchers identify biological pathway that explains why current asthma therapies fail in many cases
News-Medical.net
Asthma is an enormous public health problem that continues to grow larger, in part because scientists don't fully understand how it is caused. Existing therapies don't cure the disease and often don't even significantly alleviate the symptoms. Now

View full post on asthma – Google News

Researchers discover new pathway that may trigger asthma – Medical Xpress

Researchers discover new pathway that may trigger asthma
Medical Xpress
Asthma is an enormous public health problem that continues to grow larger, in part because scientists don't fully understand how it is caused. Existing therapies don't cure the disease and often don't even significantly alleviate the symptoms. Now
Scientists identify biological pathway that could explain why asthma therapies failScience Codex

all 2 news articles »

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Relation between sonic hedgehog pathway gene polymorphisms and basal cell carcinoma development in the Polish population.

Relation between sonic hedgehog pathway gene polymorphisms and basal cell carcinoma development in the Polish population.

Arch Dermatol Res. 2015 Nov 21;

Authors: Lesiak A, Sobolewska-Sztychny D, Majak P, Sobjanek M, Wodz K, Sygut KP, Majsterek I, Wozniacka A, Narbutt J

Abstract
In recent decades, increases have been observed in the incidence of nonmelanoma skin cancers, including basal cell carcinoma (BCC) and squamous cell carcinoma. BCC is the most common neoplasm in Caucasian populations. Sonic hedgehog (Shh) pathway impairment plays a key role in BCC pathogenesis, and there is evidence that Shh pathway genetic variations may predispose to BCC development. We genotyped 22 single-nucleotide polymorphisms (SNPs) in 4 Shh pathway genes: SHH, GLI, SMO, and PTCH. The study group consisted of 142 BCC patients and 142 age-matched, sex-matched healthy subjects (controls). SNPs were assessed using the PCR-RFLP method. The genotype distribution for the polymorphisms in the rs104894049 331 A/T SHH, rs104894040 349 T/C SHH, and rs41303402 385 G/A SMO genes differed significantly between the BCC patients and the controls. The presence of CC genotype in the SHH rs104894040 349 T/C polymorphism was linked to the highest risk of BCC development (OR 87.9, p < 0.001). Other genotypes, such as the TT in SHH rs104894049 331 A/T and the GG in SMO rs41303402 385 G/A also statistically raised the risk of BCC, but these associations were weaker. Other investigated polymorphisms showed no statistical differences between patients and controls. The results obtained testify to the importance of the SHH and SMO gene polymorphisms in skin cancerogenesis. These results mainly underline the potential role of SHH3 rs104894040 349 T/C gene polymorphism in the development of skin basal cell carcinomas in patients of Polish origin.

PMID: 26590974 [PubMed – as supplied by publisher]

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Scientists Discover Stress-Fighting Pathway Could Help Develop New Asthma … – Lung Disease News


Lung Disease News

Scientists Discover Stress-Fighting Pathway Could Help Develop New Asthma
Lung Disease News
In a recent study published in Nature Immunology, scientists from the Weill Cornell Medical College were able to identify the molecular steps that enable immune cells implicated in certain forms of asthma and allergy to develop and survive in the body.

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Findings reveal new pathway to develop effective treatments and therapies for … – News-Medical.net


News-Medical.net

Findings reveal new pathway to develop effective treatments and therapies for
News-Medical.net
Investigators have discovered the precise molecular steps that enable immune cells implicated in certain forms of asthma and allergy to develop and survive in the body. The findings from Weill Cornell Medical College reveal a new pathway that

View full post on asthma – Google News

Primary Care Pathway for Childhood Asthma

Condition:   Asthma
Interventions:   Other: Primary care clinical pathway;   Other: Asthma education
Sponsors:   University of Alberta;   Alberta Innovates Health Solutions;   Alberta Health Services, Calgary;   Health Quality Council of Alberta (HQCA);   Southern Alberta Primary Care Research Network (SAPCReN);   Northern Alberta Primary Care Research Network (NAPCReN);   University of Calgary;   Ottawa Hospital Research Institute
Not yet recruiting – verified June 2015

View full post on ClinicalTrials.gov: asthma | received in the last 14 days