M.R.S.C. Wenning scite author profile

Kimura

et al. 2001

Braz J Med Biol Res

In order to determine the contribution of a-thalassemia to microcytosis and hypochromia, 339 adult outpatients seen at Unicamp University Hospital (with the exception of the Clinical Hematology outpatient clinics), who showed normal hemoglobin (Hb) levels and reduced mean corpuscular volume and mean corpuscular hemoglobin, were analyzed. Ninety-eight were Blacks (28.9%) and 241 were Caucasians (71.1%). In all cases, Hb A 2 and F levels were either normal or low. The most common deletional and nondeletional forms of a-thalassemia [-a 3.7 , -a 4.2 , --MED , -(a) 20.5 , a HphI a, a NcoI a, aa NcoI and a TSAUDI ] were investigated by PCR and restriction enzyme analyses. A total of 169 individuals (49.9%) presented a-thalassemia: 145 (42.8%) were heterozygous for the -a 3.7 deletion (-a 3.7 /aa) and 18 (5.3%) homozygous (-a 3.7 /-a 3.7 ), 5 (1.5%) were heterozygous for the nondeletional form a HphI a (a HphI a/aa), and 1 (0.3%) was a --MED carrier (--MED /aa). Among the Blacks, 56 (57.1%) showed the -a 3.7 / aa genotype, whereas 12 (12.2%) were -a 3.7 /-a 3.7 and 1 (1.0%) was an a HphI a carrier; among the Caucasians, 89 (36.9%) were -a 3.7 /aa, 6 (2.5%) had the -a 3.7 /-a 3.7 genotype, 4 (1.7%) presented the nondeletional form (a HphI a/aa), and 1 (0.4%) was a --MED carrier. These results demonstrate that a-thalassemia, mainly through the -a 3.7 deletion, is an important cause of microcytosis and hypochromia in individuals without anemia. These data are of clinical relevance since these hematological alterations are often interpreted as indicators of iron deficiency.

alpha-Globin genes: thalassemic and structural alterations in a Brazilian population

Kimura

Costa

et al. 2000

Braz J Med Biol Res

PIP4KIIA and β‐globin: transcripts differentially expressed in reticulocytes and associated with high levels of Hb H in two siblings with Hb H disease

European J of Haematology

Mello

Andrade

et al. 2009

We are reporting here the results of differential gene expression experiments comparing two siblings, a 21-yr-old male and a 19-yr-old female, with the same alpha-thalassemia genotype (-alpha(3.7)/(--SEA)) and quite different levels of Hb H in the peripheral blood (18.7 and 5%, respectively). By using mRNA differential-display reverse-transcription-PCR and suppression subtractive hybridization, two main transcripts were selected in both procedures and validated by qRT-PCR, one corresponding to the phosphatidylinositol phosphate 4-kinase type II-alpha (PIP4KIIA) gene and the other to the beta-globin gene, both over expressed in the patient with the higher percentage of Hb H. Type II PIP kinases produce phosphatidylinositol 4,5 biphosphate, a critical and pleiotropic regulatory molecule involved in diverse cellular activities, including gene expression. Our results suggest that PIP4KIIA may be one of the factors related to the regulation of the beta-globin gene expression and the different levels of Hb H in alpha-thalassemic patients.

European J of Haematology

Hemoglobin H disease resulting from the association of the – α^3.7 rightward deletion and the (αα)^ΜΜ deletion in a Brazilian patient

Wenning¹,

Harteveld

Giordano

et al. 2002

Hb Campinas [α26(B7)Ala→Val]: A Novel, Electrophoretically Silent, Variant

Silva²,

Jorge³

et al. 2000

Hemoglobin