Am J Hematol 84 (2009) 492-8 The following are the supplement

Am. J. Hematol. 84 (2009) 492-8. The following are the supplementary data related to this article. Figure S1.  Targeted

disruption of mouse Xk gene. Partial 5′ end of exon 3 and its flanking intron 2 of wild type mouse Xk are replaced by neomycin resistant gene cassette, which is marked PGK-neo in reverse direction. EcoRV digested Southern blot positive fragments of wild type Xk and disrupted Xk are shown in the linear diagrams on the bottom of the figure. The probe used in the Southern blot is shown as a filled oval circle on the top. “
“The complications of sickle cell disease (SCD) are two-fold: a Avasimibe cost chronic anaemia subsequent to increased red blood cell (RBC) destruction and acute ischaemic signs following blockage of the microvasculature [1], [2] and [3]. Signs depend on the organ involved and can be numerous. Severity, however, varies considerably between individuals. Notwithstanding this variability, all complications result from polymerisation of the abnormal form of haemoglobin, HbS, present in patients’ RBCs. HbS has a single amino acid substitution at a critical site on the haemoglobin molecule [4] and [5].

At the β6 position, glutamic acid is replaced by valine and the loss of negative charge enables neighbouring HbS molecules to aggregate on deoxygenation, forming long rigid polymers which distort RBC shape and cause other deleterious abnormalities, including altered rheology, elevated membrane Tobramycin permeability and increased Pexidartinib order fragility [5]. At present, no specific treatment is available and management is usually supportive depending on whatever complication is most pronounced [1] and [3]. Recently, hydroxyurea has received attention as a drug of choice for ameliorating SCD complications [6], [7] and [8]. Hydroxyurea’s efficacy appears to depend on its ability to increase expression of fetal Hb, HbF—although other mechanisms may also be involved. HbF is not incorporated into HbS polymers

and also serves to dilute the intracellular concentration of HbS, thereby reducing the tendency to polymerisation and sickling. Hydroxyurea is not without risks, however, being potentially teratogenic, with variable response, and also having issues of non-compliance [8]—factors which restrict its use to more severely affected individuals. As a result, there is a continued search for other effective therapies. An alternative approach has been to reduce directly the tendency for HbS to polymerise on deoxygenation. In this context, a variety of aromatic aldehydes (and related compounds) have been tested, of which o-vanillin is a well known member [9], [10] and [11]. These reagents form Schiff bases with HbS, increasing its oxygen affinity, and thereby reducing polymerisation and RBC sickling.

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