ALBERT

Description: Due to its position in the coagulation cascade, factor X (fX), a circulating zymogen is activated during hemostatic challenges to its serine protease fXa first via the extrinsic pathway’s tissue factor/factor VIIa complex and next by the intrinsic Xase complex of factors Ixa and VIIIa on phospholipids membranes. Among the congenital factor abnormalities manifesting as hemorrhagic predispositions, fX deficiency states, which are often autosomal recessive and associated with consanguinity, are among the rarest. Since concurrent studies on the unrelated Stuart and Prower kindreds in the southeastern United States and London (England), respectively, led to the discovery of fX, it is also known as the Stuart-Prower factor. Only 59 distinct fX gene mutations have been described worldwide since its discovery in the 1950s. We report a novel mutation within the encoding structural locus that we have designated FX-Augusta. The phenotype and genotype of the proband, a 14 year-old African-American boy, were studied and we are currently in the process of obtaining samples from the patient’s parents and siblings. The proband has experienced severe bleeding throughout his life with his first episode occurring three days after birth following circumcision. He experiences ~30 bleeds per year, mainly into joints and muscles, which occur spontaneously or following minor trauma. Although the patient appears to be mildly mentally retarded a formal workup has not occurred. On laboratory testing, a severely prolonged PT of 137.4 seconds and aPTT of 112.8 seconds were observed. While clotting-based fX activity (fX:C) levels were consistently 1kb of the flanking 3′-genomic DNA failed to identify consensus AAUAAA polyadenylation signals or variants of this highly conserved element. Second, the native fX 3′-end signals appear to be “strong” or efficiently utilized, as no alternative polyadenylation was found in a comprehensive review of the fX cDNAs in the NCBI database, which included 6 full-length cDNAs and 〉20 3′-ESTs containing polyA-stretches on the 3′-end of high-quality fX mRNA sequence. Finally, neither the causative 5-bp deletion nor the 8-bp insertion disrupts these native 3′-end signals. Nevertheless, the molecular studies underway, including fX:Ag measurements, 3′-end characterization of the mutant mRNA via 3′-RACE and western blotting, should help to distinguish between the possible molecular mechanisms.

Description: Recombinant factor VIII (r-fVIII) is the most widely-used and effective therapy for hemophilia A (hA). Many patients unfortunately become refractory when the wildtype(wt) protein is seen as foreign and is targeted by functionally neutralizing anti-fVIII antibodies termed inhibitors. While inhibitors occur most often in severe hemophiliacs with complex fVIII mutations and a complete circulating absence of the fVIII protein, recent studies show patients with missense-mutations (mMt) have a higher incidence than previously thought and demonstrate r-fVIII can be immunologically targeted even when differing by only a single amino acid. Because mMt represent the most frequent overall etiology of hA (~39% of cases), common non-hemophilic protein variants of fVIII may represent an important novel modulator of inhibitor development in this setting. To determine the extent of such variation, we resequenced all coding regions of the fVIII loci (F8) in 137 healthy subjects from 7 ethnic groups, including 86 Caucasians and 16 African-Americans (AA). We identified 5 common nonsynonymous single nucleotide polymorphisms (nsSNPs). Surprisingly, whereas 4 were polymorphic in AA only 2 were variable in Caucasians, despite having examined 6x the number AA X-chromosomes. Since recent studies show AA patients have a 2-fold higher inhibitor incidence than Caucasians, thus establishing ethnicity as a risk factor in this complication, we were intrigued to find that minor alleles for 2 nsSNPs are restricted to AA and substitute amino acids in major B-cell inhibitor epitopes located in the A2 and C2 domains. To confirm these findings and accurately define the number and frequency of human haplotypes (H) (eg. distinct combinations in which the alleles of these 5 nsSNPs are linked in vivo) we resequenced F8 in a second study group that included 75 additional healthy AA. Here we show there are at least 7 distinct wt forms of the human fVIII protein by defining 7 haplotypes (H) from the 5 nsSNPs: H1, H2, …, H7. H1 exists in all ethnic groups, is the most common overall form of fVIII and represents 2 of the 3 r-fVIII concentrates used clinically. While H2 is the most common form in AA (44%) and possibly represents the other therapeutic r-fVIII molecule, we found that at least 20% will have AA-restricted fVIII proteins; H4 (4%), H5 (12%) and H7 (4%). Only 2 forms of fVIII were found in Caucasians, H1 (90%) and H2 (10%), in contrast, and neither were ethnically restricted. In summary, when combined with reports of at least 3 other nsSNPs, our findings establish as inaccurate the long held view that fVIII is basically a monomorphic protein in non-hemophiliacs. We hypothesize that greater immunologic barriers exist when r-fVIII is infused into patients with mMt in endogenous fVIII molecules containing one or more minor alleles of these nsSNPs. Moreover, due to the number and frequency of AA-restricted wt fVIII variants, we predict these nsSNPs contribute pharmacogenetically to the higher incidence of inhibitors in this ethnic group. As such, we have established a 6-site multi-center study to test this hypothesis using AA hA patients as the optimal group. So far we have enrolled 34 of 223 total AA hA patients at the participating centers and are obtaining blood samples from each for fVIII:C and fVIII:Ag measurements and F8 mutation detection. Because the allelic basis of hA has not been studied in AA, this mutation scan is essential to rule out the plausible alternative hypothesis that their higher inhibitor incidence is due to a distinct spectrum of molecular abnormalities. Ultimately, all patients with mMt will be tested to determine the presence and titer of anti-fVIII, using both Bethesda and ELISA assays, and the H of their mutant fVIII will be defined. The number of patients with inhibitors and AA-restricted forms (H4, H5 or H7) will then be compared to those with inhibitors but whose mMt are in haplotypes found in r-fVIII molecules (H1 or H2).

Description: Alloantibodies that inhibit the function of wildtype (wt) FVIII molecules constitute the most serious complication of replacement therapy for hemophilia (H)A patients. Although it is not possible to accurately predict which patients will develop inhibitors, ethnicity is a known risk factor as alloimmunization occurs ~2−fold more often in African Americans (AAs) than in Caucasians (Cs). Analysis of data from a resequencing study revealed that the FVIII gene (F8) contains four nonsynonymous−single nucleotide polymorphisms (ns−SNPs) that encode six distinct wt FVIII proteins designated haplotype (H)1−H6. While AAs express all but H6, only H1 and H2, the two recombinant (r)−FVIII proteins used clinically, are expressed by Cs. About 25% of AAs express H3, H4, or H5, proteins that differ structurally from r−FVIII at three ns−SNPs (R484H, D1241E, M2238V), two of which are located in dominant inhibitor epitopes and have AA−restricted minor−alleles. We designed the Pharmacogenetics of Inhibitor Risk (PIR) study to test the hypothesis that these ns−SNPs, when allelically mismatched in replacement therapy, are pharmacogenetic risk factors that contribute to the greater incidence of inhibitor development in patients of African−descent. We enrolled 94 of 223 total AA HA patients from collaborating treatment centers. Table 1 presents characteristics of the first 47 subjects (whose functional F8 regions have been resequenced entirely) including: FVIII haplotype (exposure) − H3/H4/H5 vs H1/H2; inhibitor status (outcome) − yes/no; F8 mutation − high−risk vs low−risk types; other covariates and potential confounders. A preliminary analysis demonstrated an odds ratio of 3.6 for inhibitors developing in the exposed subjects (P=0.10; 95% CI=0.7–17.6). Our finding suggests that pharmacogenetic factors may indeed contribute to the increased incidence of this alloimmune complication in AAs. To increase the power to detect a true association and allow adjustment for confounders, we are currently completing F8 resequencing in the next 47 patients. Table 1. Relevant characteristics of the first 47 African-American hemophilia-A PIR study patients*