Literature DB >> 34321534

Impacts of lipid-related metabolites, adiposity, and genetic background on blood eosinophil counts: the Nagahama study.

Kenta Nishi1, Hisako Matsumoto2, Noriyuki Tashima1, Satoru Terada1, Natsuko Nomura1, Mariko Kogo1, Chie Morimoto1, Hironobu Sunadome3, Tadao Nagasaki3, Tsuyoshi Oguma1, Yoshinari Nakatsuka3, Kimihiko Murase3, Takahisa Kawaguchi4, Yasuharu Tabara4, Kazuhiro Sonomura4, Fumihiko Matsuda4, Kazuo Chin3, Toyohiro Hirai1.   

Abstract

Blood eosinophil count is a useful measure in asthma or COPD management. Recent epidemiological studies revealed that body mass index (BMI) is positively associated with eosinophil counts. However, few studies focused on the role of adiposity and fatty acid-related metabolites on eosinophil counts, including the effect of genetic polymorphism. In this community-based study involving 8265 participants (30-74 year old) from Nagahama city, we investigated the relationship between eosinophil counts and serum levels of fatty acid-related metabolites. The role of MDC1, a gene that is related to eosinophil counts in our previous study and encodes a protein that is thought to be involved in the repair of deoxyribonucleic acid damage, was also examined taking into account its interaction with adiposity. Serum levels of linoleic acid (LA) and β-hydroxybutyric acid (BHB) were negatively associated with eosinophil counts after adjustment with various confounders; however, there were positive interactions between serum LA and BMI and between serum BHB and BMI/body fat percentages in terms of eosinophil counts. In never-smokers, there was positive interaction for eosinophil counts between the CC genotype of MDC1 rs4713354 and BMI/body fat percentages. In conclusion, both serum LA and BHB have negative impacts on eosinophil counts, while adiposity shows robust positive effects on eosinophil counts, partly via genetic background in never-smokers.
© 2021. The Author(s).

Entities:  

Year:  2021        PMID: 34321534     DOI: 10.1038/s41598-021-94835-9

Source DB:  PubMed          Journal:  Sci Rep        ISSN: 2045-2322            Impact factor:   4.379


  46 in total

1.  Correlation between eosinophil count, its genetic background and body mass index: The Nagahama Study.

Authors:  Hironobu Sunadome; Hisako Matsumoto; Yumi Izuhara; Tadao Nagasaki; Yoshihiro Kanemitsu; Yumi Ishiyama; Chie Morimoto; Tsuyoshi Oguma; Isao Ito; Kimihiko Murase; Shigeo Muro; Takahisa Kawaguchi; Yasuharu Tabara; Kazuo Chin; Fumihiko Matsuda; Toyohiro Hirai
Journal:  Allergol Int       Date:  2019-07-02       Impact factor: 5.836

2.  Blood eosinophil count in the general population: typical values and potential confounders.

Authors:  Sylvia Hartl; Marie-Kathrin Breyer; Otto C Burghuber; Alina Ofenheimer; Andrea Schrott; Matthias H Urban; Alvar Agusti; Michael Studnicka; Emiel F M Wouters; Robab Breyer-Kohansal
Journal:  Eur Respir J       Date:  2020-05-14       Impact factor: 16.671

3.  Group 2 innate lymphoid cells promote beiging of white adipose tissue and limit obesity.

Authors:  Jonathan R Brestoff; Brian S Kim; Steven A Saenz; Rachel R Stine; Laurel A Monticelli; Gregory F Sonnenberg; Joseph J Thome; Donna L Farber; Kabirullah Lutfy; Patrick Seale; David Artis
Journal:  Nature       Date:  2014-12-22       Impact factor: 49.962

Review 4.  Diagnostic accuracy of minimally invasive markers for detection of airway eosinophilia in asthma: a systematic review and meta-analysis.

Authors:  Daniël A Korevaar; Guus A Westerhof; Junfeng Wang; Jérémie F Cohen; René Spijker; Peter J Sterk; Elisabeth H Bel; Patrick M M Bossuyt
Journal:  Lancet Respir Med       Date:  2015-03-20       Impact factor: 30.700

5.  Smoking attenuates the age-related decrease in IgE levels and maintains eosinophilic inflammation.

Authors:  T Nagasaki; H Matsumoto; H Nakaji; A Niimi; I Ito; T Oguma; S Muro; H Inoue; T Iwata; T Tajiri; Y Kanemitsu; M Mishima
Journal:  Clin Exp Allergy       Date:  2013-06       Impact factor: 5.018

6.  Blood eosinophil count and exacerbations in severe chronic obstructive pulmonary disease after withdrawal of inhaled corticosteroids: a post-hoc analysis of the WISDOM trial.

Authors:  Henrik Watz; Kay Tetzlaff; Emiel F M Wouters; Anne Kirsten; Helgo Magnussen; Roberto Rodriguez-Roisin; Claus Vogelmeier; Leonardo M Fabbri; Pascal Chanez; Ronald Dahl; Bernd Disse; Helen Finnigan; Peter M A Calverley
Journal:  Lancet Respir Med       Date:  2016-04-07       Impact factor: 30.700

7.  Associations Between Individual Characteristics and Blood Eosinophil Counts in Adults with Asthma or COPD.

Authors:  Herve Caspard; Christopher S Ambrose; Trung N Tran; Bradley E Chipps; Robert S Zeiger
Journal:  J Allergy Clin Immunol Pract       Date:  2019-12-28

8.  Blood eosinophil count and prospective annual asthma disease burden: a UK cohort study.

Authors:  David B Price; Anna Rigazio; Jonathan D Campbell; Eugene R Bleecker; Christopher J Corrigan; Mike Thomas; Sally E Wenzel; Andrew M Wilson; Mary Buatti Small; Gokul Gopalan; Valerie L Ashton; Anne Burden; Elizabeth V Hillyer; Marjan Kerkhof; Ian D Pavord
Journal:  Lancet Respir Med       Date:  2015-10-19       Impact factor: 30.700

9.  Blood Eosinophils and Response to Maintenance Chronic Obstructive Pulmonary Disease Treatment. Data from the FLAME Trial.

Authors:  Nicolas Roche; Kenneth R Chapman; Claus F Vogelmeier; Felix J F Herth; Chau Thach; Robert Fogel; Petter Olsson; Francesco Patalano; Donald Banerji; Jadwiga A Wedzicha
Journal:  Am J Respir Crit Care Med       Date:  2017-05-01       Impact factor: 21.405

10.  Eosinophil function in adipose tissue is regulated by Krüppel-like factor 3 (KLF3).

Authors:  Alexander J Knights; Emily J Vohralik; Peter J Houweling; Elizabeth S Stout; Laura J Norton; Stephanie J Alexopoulos; Jinfen J Yik; Hanapi Mat Jusoh; Ellen M Olzomer; Kim S Bell-Anderson; Kathryn N North; Kyle L Hoehn; Merlin Crossley; Kate G R Quinlan
Journal:  Nat Commun       Date:  2020-06-10       Impact factor: 14.919
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