To the Editor:

A 52-year-old white woman was referred for additional evaluation because she was intolerant of phlebotomy therapy of her presumed hemochromatosis and iron overload, and her serum ferritin concentration had not changed significantly. Her diagnosis was based on serum iron 122 μg/dL, transferrin saturation 28%, serum ferritin 1,188 ng/mL, normal complete blood count and serum concentrations of hepatic enzymes, and heterozygosity for a hemochromatosis-associated mutation. Evidence of presumed iron overload included persistent hyperferritinemia and dual-energy computed tomography (CT) scanning densitometry and volumetry estimates of hepatic iron concentration (4.3 mg Fe/cc3 liver; normal ∼0.8 mg/cc3; “typical” range for hemochromatosis patients 5 to 15 mg/cc3) and total hepatic iron content (4,400 mg). After 5.5 units of phlebotomy (∼1,100 mg Fe), she developed severe weakness, hematocrit 23%, and mean corpuscular volume 66 fL. Her serum ferritin concentration remained in the range of 836 to 1,200 ng/mL (mean, 1,064 ng/mL; n = 5). She reported no blood loss (other than therapeutic phlebotomy), and had no history of receiving blood transfusions, donating blood, or using medicinal iron. She and her brother had bilateral congenital cataracts. Her father, from Alsace-Lorraine, had apparently good health but died due to a motor vehicle accident during her infancy; her mother, of German-Swiss ancestry, did not have cataracts. There was no other family history of iron-associated disorders. We found that our patient did not have the “major” 845G → A (C282Y) mutation, but was compound heterozygote for the 187C → G (H63D) mutation of the hemochromatosis-associated HFE gene on 6p1 and the A → G mutation of the CAGUGU motif of the iron-responsive element (IRE) loop of the ferritin L-chain gene on 19q13.1 associated with hereditary hyperferritinemia-cataract syndrome.2Restoration of her iron stores relieved her weakness and corrected her microcytic anemia, but did not change her serum ferritin concentration.

The clinical findings and coincidental inheritance of mutations of the HFE and L ferritin genes in our patient show several important principles. The transferrin saturation values of persons with hemochromatosis, particularly those with iron overload, are usually elevated3; normal or subnormal values suggest that patients have other complications or disorders.3-5 Regardless of the L ferritin gene mutation that causes hereditary hyperferritinemia-cataract syndrome, affected patients do not have iron overload.2,6,7 This emphasizes that the demonstration of hyperferritinemia does not necessarily verify that iron overload is present,3 and well-intended therapeutic phlebotomy of patients with hereditary hyperferritinemia-cataract syndrome does not alter their serum ferritin concentrations significantly.6,7CT scanning suggested that far more iron was stored in our patient’s liver than could be mobilized by phlebotomy, indicating that this noninvasive technique lacks sufficient sensitivity for the measurement of normal or near-normal quantities of hepatic iron.8 Iron stores and responses of serum iron concentration, transferrin saturation, and erythropoiesis to iron depletion and subsequent repletion were normal in our patient, like most persons with hereditary hyperferritinemia-cataract syndrome.2,6,7 Our patient, like ∼25% of normal whites of western European descent, is heterozygous for the H63D mutation9,10; therefore, coinheritance of the H63D mutation and mutations on other chromosomes should occur relatively frequently. However, persons who inherit a single hemochromatosis allele infrequently have a hemochromatosis clinical phenotype.1,3,9 10 Taken together, these observations suggest that there was no interaction between these two iron-associated mutations or their gene products in our patient that significantly affected routine clinical parameters of iron metabolism.

Supported in part by the Southern Iron Disorders Center.

1
Feder
 
JN
Gnirke
 
A
Thomas
 
W
Tsuchihashi
 
Z
Ruddy
 
DE
Basava
 
A
Dormishiam
 
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
Risch
 
NJ
Bacon
 
BR
Wolff
 
RK
A novel MHC class-I-like gene is mutated in patients with hereditary hemochromatosis.
Nat Genet
14
1996
399
2
Beaumont
 
C
Leneuve
 
P
Devaux
 
I
Scoazec
 
JY
Berthier
 
M
Loiseau
 
MN
Grandchamp
 
B
Bonneau
 
D
Mutation in the iron responsive element of L ferritin mRNA in a family with dominant hyperferritinaemia and cataract.
Nat Genet
11
1995
444
3
Witte
 
DL
Crosby
 
WH
Edwards
 
CQ
Fairbanks
 
VF
Mitros
 
FA
Practice parameter for hereditary hemochromatosis.
Clin Chim Acta
245
1996
139
4
Barton
 
JC
Bertoli
 
LF
Janich
 
MR
Arthur
 
MW
Alford
 
TJ
Normal transferrin saturation in hemochromatosis.
Hosp Pract
26
1991
46
5
Moirand
 
R
Mortaji
 
AM
Loreal
 
O
Paillard
 
F
Brissot
 
P
Deugnier
 
Y
A new syndrome of liver iron overload with normal transferrin saturation.
Lancet
349
1997
95
6
Arnold
 
JD
Mumford
 
AD
Lindsay
 
JO
Hedge
 
U
Hagan
 
M
Hawkins
 
JR
Hyperferritinemia in absence of iron overload.
Gut
41
1997
408
7
Martin
 
ME
Fargion
 
S
Brissot
 
P
Pellat
 
B
Beaumont
 
C
A point mutation in the bulge of the iron-responsive element of the L ferritin gene in two families with the hereditary hyperferritinemia cataract syndrome.
Blood
91
1998
319
8
Bonkovsky
 
HL
Slaker
 
DP
Bills
 
EB
Wolf
 
DC
Usefulness and limitations of laboratory and hepatic imaging studies in iron-storage disease.
Gastroenterology
99
1990
1079
9
Beutler
 
E
Gelbart
 
T
West
 
C
Lee
 
P
Adams
 
M
Blackstone
 
R
Pockros
 
P
Kosty
 
M
Venditti
 
C
Phathak
 
P
Seese
 
N
Chorney
 
K
Ten Elshof
 
A
Gerhard
 
G
Chorney
 
M
Mutation analysis in hereditary hemochromatosis.
Blood Cells Mol Dis
22
1996
187
10
Barton
 
JC
Shih
 
WWH
Sawada-Hirai
 
R
Acton
 
RT
Harmon
 
L
Rivers
 
C
Rothenberg
 
BE
Genetic and clinical description of hemochromatosis probands and heterozygotes: Evidence that multiple genes linked to the major histocompatibility complex are responsible for hemochromatosis.
Blood Cells Mol Dis
23
1997
135
Sign in via your Institution