To the Editor:

Factor V Leiden (R506Q mutation) is the most common hereditary risk factor for venous thrombosis, with a prevalence of heterozygous carriers of 20%1 (normal carrier frequency, 3% to 5%2). Recently, the presence of homozygous mutation C282Y in HLA-HFE gene has been shown in almost all patients with hereditary hemochromatosis (HH).3,4 In a recently published letter inBlood, Xie et al5 reported data about a possible association between C282Y mutation and factor V Leiden mutation in a population of patients with thrombosis. To see if heterozygous C282Y mutation is a trait that may enhance thrombotic risk in a patient with factor V Leiden mutation, they described a genetic analysis of these two variants in 192 patients with venous thrombosis. They found 18.7% to carry the heterozygous C282Y mutation among 87 patients heterozygous for factor V Leiden mutation and only 3% to carry the mutation among 105 patients negative for factor V Leiden mutation (χ2 test, P < .001).

We report here 246 patients referred for genetic study after deep vein thrombosis. Fifty-five (22%) patients were heterozygous for factor V Leiden mutation and 45 (18%) were heterozygous (n = 43) or homozygous (n = 2) for C282Y mutation (Table1). Among the 55 patients heterozygous for factor V Leiden mutation, 14 (25%) carried C282Y mutation and, among 191 patients negative for factor V Leiden mutation, 31 (16%) were positive for C282Y mutation (χ2 test, P = .158; odds ratio, 1.69 [0.76 to 3.73]).

Table 1.

Incidence of C282Y and Factor V Leiden Mutations in 246 Patients With Venous Thrombosis

Factor V Genotype HFE Genotype
N/N N/C282Y C282Y/C282Y
N/N  160 (65%) 30 (12.2%)  1 (0.4%)  
N/Leiden  41 (16.6%) 13 (5.8%)  1 (0.4%) 
Factor V Genotype HFE Genotype
N/N N/C282Y C282Y/C282Y
N/N  160 (65%) 30 (12.2%)  1 (0.4%)  
N/Leiden  41 (16.6%) 13 (5.8%)  1 (0.4%) 

In our study, we found no significant association between C282Y mutation and factor V Leiden mutation in a population observed for history of venous thrombosis. We are not surprised, because HH has not been reported as being a prothrombotic state.6 The speculation of Xie et al5 is based in part on the observation of high incidence of thrombosis in a mouse model of hereditary spherocytosis with secondary hemochromatosis.7The first remark is that patients with hemolytic anemias are at risk for venous thrombosis because of platelet activation (probably due in part to release of ADP).8 Another observation is that, in Xie et al’s study,5 the incidence of factor V Leiden variant is much higher (45%) than usually observed in patients with usual deep venous thrombosis (we retrieved 22%). In our study, we have shown a very high incidence of C282Y mutation (18%) that is in agreement with the previously described very high frequency of HH in the southwest region of Brittany (Finistère sud).9 In conclusion, our results cannot support the hypothesis that the heterozygous state for C282Y mutation enhances the risk of venous thrombosis even in patients with another genetic influence such as factor V Leiden trait. A hypothesis of such an association should be used very cautiously before drawing any conclusion.

We appreciate the comments made by Lellouche et al about our preliminary report concerning a potential association between the common C282Y hemochromatosis mutation and factor V Leiden in producing thrombosis. As we had suggested in this report, our preliminary observation should now be evaluated in larger and more stringently defined populations, such as that assembled by Lellouche et al. We have two points of clarification with regards to the letter by Lellouche et al. First, our study population differed from the group studied by Lellouche et al in that it represented an unselected population with a history of both venous and arterial thrombosis. Second, the information relating to our positive rate for factor V Leiden heterozygosity has been misinterpreted from the presentation of what amounted to a subgroup study. Overall, after testing 1,424 thrombotic patients in the past 4 years, we have found a 14% rate of heterozygosity for factor V Leiden in this group.

Finally, we have recently submitted a second report addressing this potential association in a case control study of 481 venous thromboembolism patients. In this population, our findings agree with those of Lellouche et al and show no association between the C282Y hemochromatosis mutation, factor V Leiden, and thrombosis.

1
Koster
 
T
Rosendaal
 
FR
Ronde
 
H de
Briët
 
E
Vandenbroucke
 
JP
Bertina
 
RM
Venous thrombosis due to poor anticoagulant response to activated protein C: Leiden Thrombophilia Study.
Lancet
342
1993
1503
2
Bertina
 
RM
Koeleman
 
RPC
Koster
 
T
Rosendaal
 
FR
Dirven
 
RJ
de Ronde
 
H
Van der Velden
 
PA
Reitsma
 
PH
Mutation in blood coagulation factor V associated with resistance to activated protein. C.
Nature
369
1994
64
3
Feder
 
JN
Gnirke
 
A
Thomas
 
W
Tsuchihashi
 
Z
Ruddy
 
DA
Basava
 
A
Dormishian
 
F
Domingo
 
R
Ellis
 
MC
Fullan
 
A
Hinton
 
LM
Jones
 
NL
Kimmel
 
BE
Kronmal
 
GS
Lauer
 
P
Lee
 
VK
Loeb
 
DB
Mapa
 
FA
McClelland
 
E
Meyer
 
NC
Mintier
 
GA
Moeller
 
N
Moore
 
T
Morikang
 
E
Prass
 
CE
Quintana
 
L
Starnes
 
SM
Schatzman
 
RC
Brunke
 
KJ
Drayna
 
DT
Rish
 
NJ
Bacon
 
BR
Wolff
 
TK
A novel MHC class I-like gene is mutated in patients with hereditary haemochromatosis.
Nat Genet
13
1996
399
4
Jouanolle
 
AM
Gandon
 
G
Jézéquel
 
P
Blayau
 
M
Campion
 
ML
Mosser
 
J
Fergelot
 
P
Chauvel
 
B
Bouric
 
P
Carn
 
G
Andrieux
 
N
Gicquel
 
I
Le Gall
 
JY
David
 
V
Haemochromatosis and HLA-H.
Nat Genet
14
1996
251
5
Xie
 
YG
Lillicrap
 
DP
Taylor
 
SAM
An association between the common hereditary hemochromatosis mutation and the factor V Leiden allele in a population with thrombosis.
Blood
92
1998
1461
6
Barisani
 
D
Green
 
RM
Gollan
 
JL
Genetic hemochromatosis: Pathogenesis, diagnosis and therapy.
Digestive Dis
14
1996
304
7
Kaysser
 
TM
Wandersee
 
NJ
Bronson
 
RT
Barker
 
JE
Thrombosis and secondary hemochromatosis play major roles in the pathogenesis of jaundice in spherocytic mice, murine models for hereditary spherocytosis.
Blood
90
1997
4610
8
Eldor
 
A
Lellouche
 
F
Goldfarb
 
A
Rachmilewitz
 
EA
Maclouf
 
J
In vivo platelet activation in β-thalassemia major reflected by increased platelet-thromboxane urinary metabolites.
Blood
77
1991
1749
9
Jézéquel
 
P
Bargain
 
M
Lellouche
 
F
Geffroy
 
F
Dorval
 
I
Allele frequencies of hereditary hemochromatosis gene mutations in a local population of west Brittany.
Hum Genet
102
1998
332
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