Gian L. Scapoli

Low Folate Levels and Thermolabile Methylenetetrahydrofolate Reductase as Primary Determinant of Mild Hyperhomocystinemia in Normal and Thromboembolic Subjects

Several studies have indicated that mild to moderate hyperhomocystinemia is a common cause of arterial occlusive disease. Whether hyperhomocystinemia per se is an independent risk factor for vein thromboembolism (VTE) is still somewhat controversial. Both genetic and nutritional factors influence plasma homocysteine levels. Therefore, we evaluated plasma total homocysteine (tHcy), folate, and vitamin B12 levels and established, by polymerase chain reaction, the presence of the C677T mutation (A223V) in the methylenetetrahydrofolate reductase (MTHFR) gene in 220 cases with VTE without well-established prothrombotic defects. As a control group, 220 healthy subjects from the same geographic area as the cases were investigated. Hyperhomocystinemia was defined as a plasma tHcy level above the 95th percentile in the controls (18.05 micromol/L). Hyperhomocystinemia was found in 16% of cases (odds ratio=3.59; P<0.001); deficiencies of folate (<2.47 ng/mL) or vitamin B12 (<165 pg/mL), defined as values below the 5th percentile in controls, were found in 17.7% (P<0.001) and 12.3% (P=0.015) of cases, respectively. The homozygous condition for the MTHFR mutation (VV) was present in 28.2% of cases and 17.7% of controls (odds ratio=1.82; P=0.013). Comparing only the idiopathic forms of VTE (n=80/220; 36.3%) with normal controls, individuals with hyperhomocystinemia, or individuals homozygous for MTHFR mutation increased the odds ratios to 4.03 (P=0.005) and 2.11 (P=0.018), respectively. No statistically significant difference was observed in the MTHFR genotype distribution of cases and controls with hyperhomocystinemia (P=0.386); however, the normal MTHFR genotype (AA) appeared in control subjects only when tHcy levels were below the 80th percentile (10.57 micromol/L) of the distribution, whereas in case patients, it was present at the highest tHcy levels. A strong association between mutated homozygosity (VV), low folate levels, and hyperhomocystinemia was found in both groups. We conclude that in patients with VTE who do not have coexisting prothrombotic defects, hyperhomocystinemia increases the risk of developing idiopathic and venous thrombosis; the homozygous condition for the MTHFR mutation confers a moderate risk but, together with low folate levels, it is the main determinant of mild hyperhomocystinemia in normal and thromboembolic populations.

DNA-array of gene variants in venous leg ulcers: Detection of prognostic indicators

OBJECTIVE Wound healing in venous leg ulcer (VLU) is a multi-step process involving complex pathways. Scanty knowledge at molecular level hinders clinical assessment and treatment. Anomalous handling of local iron overload, as well as unbalancing in matrix metalloproteinases (MMPs) and transglutaminase, has a recognized role in VLU establishment. We selected a number of single nucleotide polymorphisms (SNPs) in candidate genes (HFE, FPN1, MMP12, and FXIII) involved in VLU to identify potentially prognostic markers by means of DNA-array technology. METHODS AND RESULTS The DNA-array-genotyping was assessed in 638 subjects for the following SNPs: HFE (C282Y, H63D), FPN1 (-8CG), MMP12 (-82AG) and FXIII (V34L). Of the subjects, 221 were affected by VLU (171 primary and 50 post-thrombosis), 112 by severe chronic venous disease (CVD) (CEAP, C3-C4), while 305 were matched healthy controls. The HFE and FXIII SNPs had been previously genotyped by conventional polymerase chain reaction (PCR)-methods on the same group of subjects (J Vasc Surg 2005;42:309; J Vasc Surg 2006;44:554; J Vasc Surg 2006;44:815). For the purpose of DNA-array, they were re-genotyped by means of array-techniques resulting in a 100% matching. Intergroup statistical comparisons were performed. In the risk computation, the FPN1 -8GG genotype had an overall CVD risk of 4.3 (95% CI, 1.6-12) and a VLU risk of 5.2 (95% CI, 1.9-15) virtually the same among primary VLU (4.98; 95% CI, 1.82-14.9). The MMP12-82AA genotype had a VLU risk of 1.96 (95% CI, 1.18-3.2) only in primary VLU (P = .01). In the genotype-ulcer size association studies, from a subgroup of 167 cases, we observed a smaller mean ulcer size in the MMP12 GG-genotype compared with the other genotypes (P = .001). Combining the present results with our previous published data on the same population, we suggest them to apply as tentative prognostic indicators in primary CVD. CONCLUSION By analyzing simultaneously selected SNPs, it might be possible to glean precious information in predicting VLU onset or in stratifying patients according to their potential to heal. Although significant, our findings must be considered preliminary and the proposed prognostic indicators considered with caution, before ulterior more extensive studies in different populations can eventually confirm the present findings.

Predictive role of coagulation-balance gene polymorphisms in the efficacy of photodynamic therapy with verteporfin for classic choroidal neovascularization secondary to age-related macular degeneration

Objectives Age-related macular degeneration (AMD) represents the leading cause of blindness in Western populations. The majority of severe vision loss occurs in the exudative form of AMD, characterized by the development of choroidal neovascularization (CNV) beneath the fovea. Photodynamic therapy with verteporfin (PDT-V) represents one of the most largely employed modality that maybe achieves the subfoveal CNV inactivation in AMD patients. Although several ocular factors have been hitherto investigated as predictors, these researches have weakly contributed to PDT-V optimization. As PDT-V benefit is determined by CNV photothrombosis, we have retrospectively studied several coagulation-balance gene polymorphisms as predictors of PDT-V efficacy. Methods Ninety Caucasian patients with neovascular AMD were subdivided in responder and nonresponder, on the basis of CNV responsiveness to PDT-V application. Six gene polymorphisms, that is factor V G1691A, prothrombin G20210A, factor XIII-A G185T, methylenetetrahydrofolate reductase C677T, methionine synthase A2756G, and methionine synthase reductase A66G, were genotyped in the entire cohort. Results Logistic regression models showed that PDT-V responders were more prevalent within patients with prothrombin G20210A mutation [odds ratio (OR)=5.6, 95% confidence interval (CI) (1.2, 27.2), P=0.03], and within methylenetetrahydrofolate reductase 677T carriers [OR=6.9, 95% CI (2.7, 18.1), P<0.001]. Conversely, PDT-V nonresponders were overrepresented in carriers for factor XIII-A 185T [OR=0.13, 95% CI (0.05, 0.36), P<0.001]. Conclusion These results provide evidences for the presence of pharmacogenetic relationship between peculiar coagulation-balance gene polymorphisms and different levels of PDT-V effectiveness in patients with AMD-related CNV.

Factor XIII V34L polymorphism modulates the risk of chronic venous leg ulcer progression and extension

Low Factor XIII (FXIII) activity has been reported in the blood of patients with chronic venous leg ulcer (CVU). In vivo studies have described increased wound healing in CVU patients treated with FXIII concentrate, and in vitro studies have shown increased regenerative capacity in FXIII‐treated fibroblasts. In addition, a common G‐to‐T polymorphism in the FXIIIA‐subunit gene (V34L) significantly increases the activity and modifies the cross‐linking properties of the FXIII molecule and this variant has been investigated as a protective factor against thrombosis, a recognized risk factor for CVU establishment. Therefore, the role of FXIII levels, FXIII V34L, FVR506Q, and FIIG20210A, common gene polymorphisms in the pathogenesis of CVU was investigated. Ninety‐one patients with CVU and 195 healthy controls (91 of them sex‐ and age‐matched) were PCR‐genotyped for the FXIIIV34L, FVR506Q, and FIIG20210A substitutions and FXIIIA‐subunit levels were determined by immuno‐electrophoresis. The extent of the venous ulcer surface in patients was measured by computer software. The allele frequency and the genotype distribution of the FXIII polymorphism did not show significant differences between the whole group of cases and controls as well as prothrombin variants did. On the contrary, the FVR506Q variant (FV Leiden) allele was more frequent in patients, yielding a significant OR value of 5.93 (95 percent CI, 1.83–19.17; p= 0.003). Considering only CVU cases secondary to a post–thrombotic syndrome (n= 24), FV Leiden yielded a greater OR value of 16.08 (95 percent CI, 4.33‐59.6; p < 0.0001). When the CVU cases were stratified by the three possible FXIII genotypes, a significant trend toward a lower mean value of the ulcerated area was clearly evident as the number of the polymorphic alleles (L34) increased in the genotype of patients (VV = 11.9 cm2,± 23.6; VL = 6.1 cm2,± 6.9; LL = 4.1 cm2,± 2.8; p= 0.01). On the other hand, FXIIIA antigen levels were similar between CVU cases and matched controls, but 11 percent of cases had FXIII deficiency (FXIIIA ≤ 0.65 U/ml; p= 0.003) and they showed a greater mean extension of the lesion if compared with the remaining cases without FXIIIA deficiency (14.5 cm2, ± 20.2 vs. 9.0 cm2, ± 6.3; p= 0.08). We conclude that FXIII antigen levels and FXIII V34L polymorphism may play a crucial role in the complex cascade of CVU pathophysiology, being significantly related to the CVU progression and extension because of the direct effects they have on the FXIII molecular activity.

Factor XIII contrasts the effects of metalloproteinases in human dermal fibroblast cultured cells

Matrix metalloproteinases (MMPs) are overexpressed in venous leg ulcers, determining a breakdown of the main extracellular matrix (ECM) components owing mainly to collagenase activities, and so playing a crucial role in ulcer pathogenesis. The authors studied the effects of coagulation factor XIII (FXIII), which cross-links collagen and other ECM components, in human fibroblast cultured cells in the presence and in the absence of matrix metalloproteinases from Clostridium histolyticum collagenase. Clostridium collagenase at concentrations of 2.0, 1.0, and 0.5 mg/mL was added to normal human dermal fibroblasts cultured in the presence of 0.0, 1.0, and 5.0 U/mL of FXIII concentrate (Fibrogammin P, Aventis Behring). Cell counting and metabolically active fibroblast evaluation in the cultures were monitored for 72 hours, by means of trypan-blue dye and MTT test, respectively. The MTT test showed that at the highest collagenase concentration (2.0 mg/mL), the cell number decreased more than 95% in 72 hours of treatment and no significant differences were observed regardless of the FXIII concentrations utilized. At lower collagenase concentration (1.0 mg/mL), in absence or in presence of FXIII (1.0 U/mL), the cell number decreased by about 80% in 72 hours. In contrast, in the presence of higher FXIII levels (5.0 U/mL), cells suffered globally significantly less collagenase effects (p=0.011) and the gain was appreciable at each time tested. Finally, at 0.5 mg/mL of collagenase concentration, in the absence of FXIII, the cell number decreased by about 60% in 72 hours, whereas in presence of FXIII 1.0 U/mL and 5.0 U/mL, cells decreased significantly less, by about 35% and 20%, respectively (p<0.025 and p<0.01, respectively). These data were also confirmed by direct cell counting utilizing the trypan-blue test. Factor XIII contrasts effectively the detrimental action of Clostridium collagenases in human fibroblast cultured cells. These results support several in vivo reports about the effectiveness of its topical application in order to enhance the venous ulcer healing processes.

A Modified Functional Global Test to Measure Protein C, Protein S Activities and the Activated Protein C-Resistance Phenotype

Identifying a defect affecting the protein C/protein S (PC/PS) anticoagulant system, using a single global test, has recently become possible thanks to a new methodological approach based on the activation of endogenous plasma PC by Protac, derived from Agkistrodon Contortix snake venom (ACV). The introduction of a commercial test (ProC Global), ACV-based, provides a useful tool for the screening of thrombotic patients since the most frequent causes of inherited thrombophilia are found in the PC/PS system. The test provides information only on the global activity of the anticoagulant pathway but not on PC and PS activity or on the factor V related conditions (e.g., FV Leiden). The present study shows that by carrying out the test alternating the presence of PC-, PS-, or FV-deficient plasma and using appropriate amounts of ACV, it is possible to increase the specificity of the test to correctly evaluate respectively the PC or PS activities or the activated protein C resistance condition (APC-R). These simple modifications applied to the original commercial test allow to detect exactly, using a single, basic methodology, the principal defects affecting the PC/PS anticoagulant pathway. Furthermore, carrying out the tests on an automated coagulometer, in combination or not with the classic ProC Global assay, it is possible to use a unique reagent profile to simultaneously investigate in the same or different samples, the PC, PS, and APC-R defect.

Coexistence of antithrombin deficiency, factor V Leiden and hyperhomocysteinemia in a thrombotic family

We report a thrombotic family with combined type I antithrombin deficiency and factor V Leiden (factor V-R506Q) in which the proposita, affected by recurrent venous and arterial thrombosis, was also characterized by mild hyperhomocysteinemia (28 micromol/l; normal <18.5 micromol/l). Her two thrombotic sisters, with normal antithrombin levels and factor V molecules, showed hyperhomocysteinemia (51 and 30 micromol/l, respectively). Four other members of the family had the combined antithrombin/factor V Leiden defect and two of them had thrombosis. The common A223V mutation in the methylenetetrahydrofolate reductase gene, responsible for the thermolabile variant of the enzyme, was found to be heterozygous in the proposita; the two sisters were homozygous and heterozygous, respectively. The heterozygous sister also had a high titre of antiphospholipid antibodies (85 units of immunoglobulin G antiphospholipid antibody/ml). Furthermore, low plasma folate levels were found in the three hyperhomocysteinemic subjects of the family. This family with several prothrombotic defects is a clear example of the polyfactorial nature of thrombophilia.

Recurrent episodes of spontaneous subconjunctival hemorrhage in patients with factor XIII Val34Leu mutation

PURPOSE To report on the occurrence of frequent episodes of spontaneous subconjunctival hemorrhage (SCH) in patients with the Leu 34 allele of the coagulation factor XIII (FXIII), known to be associated with high hemorrhagic risk. DESIGN Observational case series. METHODS Five young adults who had suffered from recurrent idiopathic SCH not associated with any recognized ocular and systemic hemorrhagic risk factor were investigated. Accurate anamnestic, ophthalmologic, hematologic, and serologic examinations were performed, together with blood pressure measurements, electrocardiogram (ECG), and 24-hour Holter ECG recordings. FXIII Val34Leu polymorphism was studied by DNA chain polymerase reaction. RESULTS DNA analyses showed that the hemorrhagic mutated Leu34 allele was present in four of our selected patients: two mutated homozygotes (Leu/Leu) and two heterozygotes (Val/Leu). In the last subject this polymorphism was not detected. All the other clinical evaluations did not disclose any significant abnormality. CONCLUSIONS The FXIII Val34Leu mutation may be associated with an increased risk for spontaneous episodes of SCH.

The reduced sensitivity of the ProC Global test in protein S deficient subjects reflects a reduction in the associated thrombotic risk.

To investigate simultaneously a defect affecting the protein C/protein S (PC/PS) anticoagulant pathway is possible thanks to a methodological approach (ProC® Global; Dade Behring) based on the activation of endogenous plasma PC by a snake venom extract. Factor V (FV) Leiden, the most frequent cause of hereditary thrombosis, is well detected by the test with sensitivity of 100% irrespective of the presence/absence of thrombosis in the subjects investigated. The test is also suited to detect PC or PS defect, but in this case the in vitro impairment of the PC/PS pathway is less pronounced particularly for PS defects (sensitivity for PC and PS defect, 85–100 and 30–90%, respectively). In this study, we hypothesized that the lower sensitivity described for PS defect, compared with those of PC and FV Leiden defects, could also be related to the clinical condition of the subject investigated (symptomatic/asymptomatic) rather than solely to the PS plasma activity/level. Therefore, we analyzed 126 subjects with single congenital defects in the PC/PS pathway: 46 subjects with PS deficiency (26 thrombotic cases and 20 asymptomatic relatives), 40 subjects with PC deficiency (25 thrombotic cases and 15 asymptomatic relatives), and 40 heterozygous FV Leiden subjects (25 thrombotic cases and 15 asymptomatic relatives). By a cut-off of normalized Agkistrodon contortix snake venom ratio of 0.84, the sensitivity in the whole group of cases (sensitivity a) was 76.1, 95.0 and 100%, respectively, for PS, PC and FV Leiden defects. The test failed to detect 11 (23.9%) among the 46 PS-deficient subjects, and all these cases except two belonged to the asymptomatic subgroup (9/20; 45%). Excluding the 20 asymptomatic relatives, the new sensitivity (sensitivity b) for the PS defect was 92.3%. The comparison of the sensitivity in the symptomatic PS cases and in the asymptomatic ones was significantly different (P = 0.010). Among the 40 PC-deficient subjects, only two (5.0%) were not detected by the test and they belonged indifferently to the two subgroups. Finally, none of the 40 FV Leiden heterozygotes were misdiagnosed by the test. These results suggest that in symptomatic PS-deficient cases the test could reflect a post-thrombotic effect and/or reveal potential unidentified prothrombotic influences assessing a prothrombotic risk condition.