Phenotype-genotype correlations in hemophilia A carriers are consistent with the binary role of the phase between F8 and X-chromosome inactivation.

BACKGROUND: The recessive X-linked disorder hemophilia A (HA) is rarely expressed in female carriers, most of whom express about half of normal factor VIII activity ( FVIII: C). OBJECTIVE: To propose an integrative assessment model for the binary role of the phase between the mutated F8 and the active X-chromosome (Xa) in FVIII: C in HA carriers. METHODS: We studied 67 females at risk of severe HA, comprising five symptomatic females ( FVIII: C < 1.5 IU dL(-1) ) and 14 controls. A correlation study between FVIII: C (observed vs. expected) and X-chromosome inactivation (XCI) patterns (XIPs; androgen receptor gene [AR] system) in blood leukocyte DNA was performed in carriers, by comparison of a model correlating FVIII: C and XIP with arbitrary models devoid of biological significance, and with FVIII: C levels in non-carriers (mean model) as a proxy from background data dispersion not influenced by XIP. RESULTS: We provide proof-of-concept example from a family presenting with extremely skewed XIPs in which the severe HA phenotype appeared in a heterozygous carrier of a crossover between AR and F8 loci that phased the mutated F8 with the maternally inherited Xa. Furthermore, four cases of severe HA affected women who had a combination of a heterozygous F8 mutation and extremely skewed XIPs in leukocytes or oral mucosa are presented. Correlation analyses between FVIII: C levels and XIPs in carriers (n = 38) but not in non-carriers (n = 20) showed highly significant differences between the proposed correlation model and models without biological significance. The data support a binary influence of XCI, either increasing or decreasing the FVIII: C, subject to the underlying phase set between the F8 mutation and XCI. CONCLUSIONS: Our evidence suggests that the phase between XCI and mutated F8 acts as a molecular switch conditioning FVIII: C levels and HA expression in carriers.

Factor VIII genotype characterization of haemophilia A affected patients with transient and permanent inhibitors: a comprehensive Argentine study of inhibitor risks.

Inhibitor development against exogenous factor VIII is a severe impairment of replacement therapy affecting 18% of Argentine patients with severe haemophilia A (HA). To study the molecular predisposition for inhibitor development, we genotyped 260 HA patients with and without inhibitors, countrywide. The inhibitor-positive population (19 transients, 15 low responders, LR and 70 high responders, HR) of 104 severe-HA patients showed 59 Inv22 (intron 22 inversions), 18 small ins/del-frameshifts, 12 gross deletions, 12 nonsense, one splicing defect and two missense, p.Arg531Pro and p.Leu575Pro, both LR and thought to impair FVIII A2 domain secondary structure. In addition, a patient with mild HA and HR showed the missense p.Glu1704Lys associated with two neutral intronic substitutions potentially affecting the A3 domain. A case/control study (84/143) permitted estimation of F8 genotype-specific inhibitor risks [OR; prevalence (CI)] in severe-HA patients classifying a high-risk group including multi-exon deletions [3.66; 55% (19-100)], Inv22 [1.8; 24% (19-100)] and nonsense in FVIII-LCh [1.2; 21% (7-59)]; an average risk group including single-exon deletions, indel frameshifts and nonsense-HCh; and a low-risk group represented by missense defects [0.14; 3% (0.6-11)]. Analysis of inhibitor concordance/discordance in related patients indicated additional genetic factors other than F8 genotype for inhibitor formation. No significant inhibitor-predisposing factors related to FVIII product exposure were found in age- and F8 genotype-stratified populations of severe-HA patients. In conclusion, the Argentine HA patient series presents similar global and mutation-specific inhibitor risks than the HA database and other published series. This case-specific information will help in designing fitted therapies and follow-up protocols in Argentina.

Developing a new generation of tests for genotyping hemophilia-causative rearrangements involving int22h and int1h hotspots in the factor VIII gene.

BACKGROUND: Inversions of F8-intron 22 (Inv22) and F8-intron 1 (Inv1) are responsible for 45-50% of severe hemophilia A cases. OBJECTIVE: In order to improve the molecular diagnosis of Inv22 and Inv1, and to enable rapid discrimination of Inv22-type 1 and Inv22-type 2 patterns, int22h-mediated deletions (Del22) and duplications (Dup22), we developed a genotyping system based on a novel inverse shifting-polymerase chain reaction (IS-PCR) approach. METHODS: IS-PCR involved BclI restriction, followed by self-ligation to create 'BclI circles', and finally PCR analysis. Three PCR analysis tests were developed: (i) Inv22-diagnostic for a pattern-sensitive detection of deleterious mutations (Inv22 and Del22) from non-deleterious variants (Dup22 and normal); (ii) Inv1-diagnostic; and (iii) Inv22-complementary for discrimination between Inv22 and Del22, and between Dup22 and normal. For rapid molecular analysis of F8, the Inv22 and Inv1 diagnostic tests can be performed simultaneously. The optional Inv22-complementary test need only be used for specific purposes. RESULTS AND CONCLUSIONS: Diagnostic tests were validated using previously studied samples. IS-PCR evaluated carrier mosaicisms and performed robustly over wide ranges of DNA qualities and procedural conditions. IS-PCR improved the molecular diagnosis of hemophilia A. This genotyping strategy may potentially be adapted to virtually all known rearrangements in the human genome.