Person: Kazani, S
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Kazani
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Kazani, S
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Publication Estradiol and mTORC2 cooperate to enhance prostaglandin biosynthesis and tumorigenesis in TSC2-deficient LAM cells(The Rockefeller University Press, 2014) Li, Chenggang; Lee, Po-Shun; Sun, Yang; Gu, Xiaoxiao; Zhang, Erik; Guo, Yanan; Wu, Chin-Lee; Auricchio, Neil; Priolo, Carmen; Li, Jing; Csibi, Alfredo; Parkhitko, Andrey; Morrison, Tasha; Planaguma, Anna; Kazani, S; Israel, Elliot; Xu, Kai-Feng; Henske, Elizabeth; Blenis, John; Levy, Bruce; Kwiatkowski, David; Yu, Jane JLymphangioleiomyomatosis (LAM) is a progressive neoplastic disorder that leads to lung destruction and respiratory failure primarily in women. LAM is typically caused by tuberous sclerosis complex 2 (TSC2) mutations resulting in mTORC1 activation in proliferative smooth muscle–like cells in the lung. The female predominance of LAM suggests that estradiol contributes to disease development. Metabolomic profiling identified an estradiol-enhanced prostaglandin biosynthesis signature in Tsc2-deficient (TSC−) cells, both in vitro and in vivo. Estradiol increased the expression of cyclooxygenase-2 (COX-2), a rate-limiting enzyme in prostaglandin biosynthesis, which was also increased at baseline in TSC-deficient cells and was not affected by rapamycin treatment. However, both Torin 1 treatment and Rictor knockdown led to reduced COX-2 expression and phospho-Akt-S473. Prostaglandin production was also increased in TSC-deficient cells. In preclinical models, both Celecoxib and aspirin reduced tumor development. LAM patients had significantly higher serum prostaglandin levels than healthy women. 15-epi-lipoxin-A4 was identified in exhaled breath condensate from LAM subjects and was increased by aspirin treatment, indicative of functional COX-2 expression in the LAM airway. In vitro, 15-epi-lipoxin-A4 reduced the proliferation of LAM patient–derived cells in a dose-dependent manner. Targeting COX-2 and prostaglandin pathways may have therapeutic value in LAM and TSC-related diseases, and possibly in other conditions associated with mTOR hyperactivation.Publication LTC4 synthase polymorphism modifies efficacy of botanical seed oil combination in asthma(Springer International Publishing, 2014) Kazani, S; Arm, Jonathan P; Boyce, Joshua; Chhay, Heng; Dutile, Stefanie; Wechsler, Michael E; Govindarajulu, Usha; Ivester, Priscilla; Ainsworth, Hannah C; Sergeant, Susan; Chilton, Floyd H; Israel, ElliotBotanical seed oils reduce the generation of leukotrienes in patients with asthma. Our objective was to determine the efficacy of a botanical seed oil combination against airflow obstruction in asthma, and to determine the pharmacogenomic effect of the leukotriene C4 synthase (LTC4S) polymorphism A-444C. We conducted a randomized, double-blind, placebo-controlled, cross-over clinical trial in mild to moderate asthmatics to determine the change in FEV1 after 6 weeks of therapy with borage and echium seed oils versus corn oil placebo. We also examined the effect of the variant LTC4S -444C allele on the change in lung function. We did not identify a difference in FEV1 in the study cohort as a whole (n = 28), nor in the group of A homozygotes. In the C allele carriers (n = 9), FEV1 improved by 3% after treatment with borage and echium seed oils and declined by 4% after placebo corn oil (p = 0.02). All 9 C allele carriers demonstrated an improvement in their FEV1 on active treatment compared to placebo as compared to only 7 out of 19 A allele homozygotes (p = 0.007). We observed transient differences in ex vivo leukotriene generation from circulating basophils and granulocytes. We did not observe significant differences in urinary LTE4 levels. We conclude that compared to corn oil, a combination of borage and echium seed oils improves airflow obstruction in mild to moderate asthmatics who carry the variant allele in the LTC4S gene (A-444C). Botanical oil supplementation may have therapeutic potential in asthma if used in a personalized manner. Trial registration: This trial was registered at http://www.clinicaltrials.gov as NCT00806442.Publication Cysteinyl Leukotriene Antagonism Inhibits Bronchoconstriction in Respose to Hypertonic Saline Inhalation in Asthma(Elsevier) Kazani, S; Sadeh, J; Bunga, S; Wechsler, ME; Israel, ElliotBackground: In asthma, cysteinyl leukotrienes (CysLTs) play varying roles in the bronchomotor response to multiple provocative stimuli. The contribution of CysLTs on the airway's response to hypertonic saline (HS) inhalation in asthma is unknown. Whether polymorphisms in the leukotriene biosynthetic pathway affect the contribution of CysLTs to this response is also unknown. Methods: In a prospective, randomized, double blind, placebo-controlled cross-over study, mild and moderate asymptomatic asthmatics underwent inhaled 3% HS challenge by doubling the duration of nebulization (0.5, 1, 2, 4, and 8 min) two hours after one dose of montelukast (a CysLT receptor 1 [CysLTR1] antagonist) or placebo, and after three week courses. We examined the effect of the leukotriene C4 synthase (LTC4S) polymorphism (A-444C) on the efficacy of montelukast against HS inhalation in an exploratory manner. Results: In 37 subjects, two hours after administration of montelukast, the mean provocative dose of HS required to cause a 20% drop in FEV1 (HS-PD20) increased by 59% (9.17 after placebo vs. 14.55 ml after montelukast, p = 0.0154). Three weeks of cysLTR1 antagonism increased the HS-PD20 by 84% (10.97 vs. 20.21 ml, p = 0.0002). Three weeks of CysLTR1 antagonism appeared to produce greater effects on blocking bronchial hyper responsiveness (two hour vs. three week HS-PD20 values 14.55 vs. 20.21 ml respectively, p = 0.0898). We did not observe an effect of the LTC4S polymorphism on the response to CysLTR1 antagonism in this cohort. Conclusions: A significant proportion of HS-induced bronchoconstriction is mediated by release of leukotrienes as evidenced by substantial acute inhibition with a CysLTR1 antagonist. There was a trend toward greater inhibition of bronchial responsiveness with three weeks of therapy as opposed to acute CysLTR1 antagonism.Publication Corticosteroid Suppression of Lipoxin A\(_4\) and Leukotriene B\(_4\) from Alveolar Macrophages in Severe Asthma(BioMed Central, 2010) Bhavsar, Pankaj K; Levy, Bruce; Hew, Mark J; Pfeffer, Michael A; Kazani, S; Israel, Elliot; Chung, Kian FanBackground: An imbalance in the generation of pro-inflammatory leukotrienes, and counter-regulatory lipoxins is present in severe asthma. We measured leukotriene B\(_4\) (LTB\(_4\)), and lipoxin A\(_4\) (LXA\(_4\)) production by alveolar macrophages (AMs) and studied the impact of corticosteroids. Methods: AMs obtained by fiberoptic bronchoscopy from 14 non-asthmatics, 12 non-severe and 11 severe asthmatics were stimulated with lipopolysaccharide (LPS,10 \(\mu\)g/ml) with or without dexamethasone (10-6M). LTB\(_4\) and LXA\(_4\) were measured by enzyme immunoassay. Results: LXA\(_4\) biosynthesis was decreased from severe asthma AMs compared to non-severe (p < 0.05) and normal subjects (p < 0.001). LXA\(_4\) induced by LPS was highest in normal subjects and lowest in severe asthmatics (p < 0.01). Basal levels of LTB\(_4\) were decreased in severe asthmatics compared to normal subjects (p < 0.05), but not to non-severe asthma. LPS-induced LTB\(_4\) was increased in severe asthma compared to non-severe asthma (p < 0.05). Dexamethasone inhibited LPS-induced LTB\(_4\) and LXA\(_4\), with lesser suppression of LTB\(_4\) in severe asthma patients (p < 0.05). There was a significant correlation between LPS-induced LXA\(_4\) and FEV\(_1\) (% predicted) (r\(_s\) = 0.60; < 0.01). Conclusions: Decreased LXA\(_4\) and increased LTB4 generation plus impaired corticosteroid sensitivity of LPS-induced LTB\(_4\) but not of LXA\(_4\) support a role for AMs in establishing a pro-inflammatory balance in severe asthma.