Development of molecular diagnostic platform for α<sup>0</sup>-thalassemia 44.6 kb (Chiang Rai, --<sup>CR</sup>) deletion in individuals with microcytic red blood cells across Thailand
Issued Date
2023-05-01
Resource Type
ISSN
00034800
eISSN
14691809
Scopus ID
2-s2.0-85147270534
Pubmed ID
36709419
Journal Title
Annals of Human Genetics
Volume
87
Issue
3
Start Page
137
End Page
145
Rights Holder(s)
SCOPUS
Bibliographic Citation
Annals of Human Genetics Vol.87 No.3 (2023) , 137-145
Suggested Citation
Khamphikham P., Hanmanoviriya O., Wongpalee S.P., Munkongdee T., Paiboonsukwong K., Jopang Y., Wangchauy C., Sancharernsook C., Jinorose N., Pornprasert S. Development of molecular diagnostic platform for α<sup>0</sup>-thalassemia 44.6 kb (Chiang Rai, --<sup>CR</sup>) deletion in individuals with microcytic red blood cells across Thailand. Annals of Human Genetics Vol.87 No.3 (2023) , 137-145. 145. doi:10.1111/ahg.12496 Retrieved from: https://repository.li.mahidol.ac.th/handle/20.500.14594/81600
Title
Development of molecular diagnostic platform for α<sup>0</sup>-thalassemia 44.6 kb (Chiang Rai, --<sup>CR</sup>) deletion in individuals with microcytic red blood cells across Thailand
Other Contributor(s)
Abstract
Introduction: The α0-thalassemia 44.6 kb or Chiang Rai (--CR) deletion has been reported in northern Thailand and is capable of causing hemoglobin (Hb) H disease and a lethal α-thalassemia genotype, Hb Bart's hydrops fetalis, in this region. However, there are no current data regarding the frequency of --CR nationwide due to a lack of effective diagnostic assay. Therefore, this study aimed to develop a reliable platform for simultaneous genotyping of --CR and two common α0-thalassemias in Thailand (--SEA and --THAI) and investigate the frequency of --CR across Thailand. Methods: Multiplex gap-PCR assay and five renewable plasmid DNA controls for --CR, --SEA, --THAI, α2-globin (HBA2), and β-actin (ACTB) were newly developed and validated with reference methods. The developed assay was further tested on 1046 unrelated individuals with a reduced mean corpuscular volume (MCV) of less than 75 fl for investigating genotypic and allelic spectrum of --CR. Results: Our developed assay showed 100% concordance with reference methods. The results were valid and reproducible throughout hundreds of reactions. Comparison of the genotypic and allelic spectra revealed that heterozygous --SEA (--SEA/αα) and --SEA alleles were dominant with the frequency of 22.85% (239/1046) and 13.34% (279/2092), respectively. Of these, --THAI and --CR were relatively rare in this population and comparable to each other with the allelic frequency of 0.14% (3/2092). Conclusion: This study successfully established a reliable molecular diagnostic platform for genotyping of --CR, --SEA, and --THAI in a single reaction. Additionally, we demonstrated the frequency of --CR in Thailand for the first time and provided knowledge basis for the planning of severe α-thalassemia prevention and control programs in Thailand, where thalassemia is endemic.