Sitthichai Panyasai1,2, Goonnapa Fucharoen2, Supan Fucharoen2. 1. 1 Biomedical Science Program, Graduate School, Khon Kaen University , Khon Kaen, Thailand . 2. 2 Centre for Research and Development of Medical Diagnostic Laboratories, Faculty of Associated Medical Sciences, Khon Kaen University , Khon Kaen, Thailand .
Abstract
BACKGROUND: There are limited data on hemoglobin (Hb) variants among peoples of northern Thailand. Hence, we determined the prevalence of Hb variants among a large cohort from this region. METHODS: A study was done on 23,914 subjects recruited from eight provinces during June 2012-January 2014. Hb was analyzed by high performance liquid chromatography (HPLC) and capillary electrophoresis, and corresponding mutations were identified by polymerase chain reaction. RESULTS: Among 23,914 subjects examined, 211 (0.88%) were found to carry 14 different Hb variants. Five α-globin chain variants were identified: Hb Q-Thailand (n = 40; 19.0%), Hb Hekinan (n = 8, 3.8%), Hb Siam (n = 2, 0.9%), Hb Beijing (n = 1, 0.5%), and Hb Kawachi (n = 1, 0.5%), not previously described in the Thai population. Seven β-globin variants, including Hb Hope, Hb Tak, Hb S, Hb J-Bangkok, Hb G-Makassar, Hb C, and Hb Korle-Bu, were found in 115 (54.5%), 30 (14.2%), 3 (1.4%), 3 (1.4%), 1 (0.5%), 1 (0.5%), and 1 (0.5%) subjects, respectively. The remaining five subjects (2.4%) were carriers of two different δ-globin chain variants. A different spectrum and frequencies of Hb variants were noted compared to other geographical areas. Haplotype analysis demonstrated multiple origins for Hbs Hope and Tak and confirmed a non-African origin of Hb C. Several genetic interactions between these variants with other hemoglobinopathies were encountered. Associated hematological phenotypes and novel Hb derivatives formed were presented. CONCLUSIONS: The prevalence and molecular heterogeneities of the Hb variants found in this large cohort of the northern Thai people's should prove useful in developing a screening program, and for the performance of additional population genetics studies of hemoglobinopathy in the region.
BACKGROUND: There are limited data on hemoglobin (Hb) variants among peoples of northern Thailand. Hence, we determined the prevalence of Hb variants among a large cohort from this region. METHODS: A study was done on 23,914 subjects recruited from eight provinces during June 2012-January 2014. Hb was analyzed by high performance liquid chromatography (HPLC) and capillary electrophoresis, and corresponding mutations were identified by polymerase chain reaction. RESULTS: Among 23,914 subjects examined, 211 (0.88%) were found to carry 14 different Hb variants. Five α-globin chain variants were identified: Hb Q-Thailand (n = 40; 19.0%), Hb Hekinan (n = 8, 3.8%), Hb Siam (n = 2, 0.9%), Hb Beijing (n = 1, 0.5%), and Hb Kawachi (n = 1, 0.5%), not previously described in the Thai population. Seven β-globin variants, including Hb Hope, Hb Tak, Hb S, Hb J-Bangkok, Hb G-Makassar, Hb C, and Hb Korle-Bu, were found in 115 (54.5%), 30 (14.2%), 3 (1.4%), 3 (1.4%), 1 (0.5%), 1 (0.5%), and 1 (0.5%) subjects, respectively. The remaining five subjects (2.4%) were carriers of two different δ-globin chain variants. A different spectrum and frequencies of Hb variants were noted compared to other geographical areas. Haplotype analysis demonstrated multiple origins for Hbs Hope and Tak and confirmed a non-African origin of Hb C. Several genetic interactions between these variants with other hemoglobinopathies were encountered. Associated hematological phenotypes and novel Hb derivatives formed were presented. CONCLUSIONS: The prevalence and molecular heterogeneities of the Hb variants found in this large cohort of the northern Thai people's should prove useful in developing a screening program, and for the performance of additional population genetics studies of hemoglobinopathy in the region.