Porphyria cutanea tarda (PCT) typically presents with complaints of fragile skin, dorsal hand vesicles, erosions, and scars, and increased levels of uroporphyrins. A case of PCT caused by iron overload associated with hereditary hemochromatosis (HH) is reported. The laboratory workup revealed the patient was homozygous for the Cys282Tyr mutation in the HFE (hemochromatosis) gene. The associated diagnosis of HH was critical because without early treatment, damage to vital organs and premature death could occur. This report highlights the important association of PCT with HH and reviews the role of key genetic and hormonal factors in iron regulation.
Case Report
A 41-year-old white woman presented with a 3-month history of fragile skin and blisters on her hands. She took oral contraceptives and occasionally consumed alcoholic beverages. There was no family history of liver disease. A full skin examination revealed erosions; scars; and 1-mm, firm, white papules consistent with milia on the dorsal hands. Based on the complaint of fragile skin and the physical findings, porphyria cutanea tarda (PCT) was suspected. To confirm this suspicion, porphyrin levels were obtained. The level of uroporphyrin was elevated and the coproporphyrin level was within reference range, consistent with PCT. The patient was advised to discontinue her use of oral contraceptives and alcohol, and to protect herself from the sun. Because PCT can be associated with iron overload and liver disease, the patient underwent additional testing. Her serum ferritin level was elevated, but other liver studies, including transaminases and hepatitis serologies, were within reference range. To further characterize the iron overload, additional studies were performed, including genetic testing for hereditary hemochromatosis (HH). These studies revealed that the patient was homozygous for the Cys282Tyr mutation in the HFE (hemochromatosis) gene; therefore, the cause of the patient's PCT was almost certainly HH. A phlebotomy treatment program was instituted, both to treat the PCT-associated skin lesions and to prevent sequelae of systemic iron overload (eg, diabetes mellitus, cirrhosis of the liver, hepatocellular carcinoma, cardiomyopathy, early death). Lifelong monitoring of iron stores was recommended.
Comment
This patient's laboratory workup for PCT identified HH, an autosomal recessive disease associated with iron overload. HH was almost certainly responsible for the PCT because iron overload causes decreased uroporphyrinogen decarboxylase activity. HH is common; it is the most frequent genetic disease in individuals of Northern European descent. Because the patient described here had no family history of HH, iron overload was not suspected prior to the diagnosis of PCT. HH should be suspected when the serum ferritin level is elevated and when the transferrin saturation exceeds 55%. Early clinical symptoms of HH generally are nonspecific, such as fatigue, arthralgia, and arthritis. Later findings can include generalized metallic gray hyperpigmentation of the skin, diabetes mellitus, cirrhosis of the liver, hepatocellular carcinoma, and congestive heart failure, all of which are secondary to iron overload.1 Premenopausal women with HH are partially protected from end-organ damage because of the loss of iron during menstruation. Early diagnosis and treatment can prevent serious end-organ damage,2 and individuals with HH can expect a normal lifespan if the excess iron stores are depleted prior to the development of cirrhosis. Environmental factors are important in hemochromatosis; for example, ethanol intake accentuates the risk of morbid complications of HH, including cirrhosis of the liver and cancer.3 Life expectancy is reduced if there is a delay in diagnosis and treatment.4 HH caused this patient's PCT. Strongly suggestive of PCT are complaints of fragile skin worsened by trauma or sunlight, along with the findings of vesicles or bullae on the hands or evidence of resolution of these lesions, such as erosions, scars, or milia.5 Other bullous diseases, including bullous pemphigoid and epidermolysis bullosa acquisita, also should be considered, but these diagnoses generally are excluded by the physical examination and histologic results. Two hereditary porphyrias—variegate porphyria and hereditary coproporphyria—as well as pseudoporphyria can present with skin findings similar to PCT.5 However, both variegate porphyria and hereditary coproporphyria commonly are associated with extracutaneous manifestations, and pseudoporphyria is associated with renal failure. In addition, different porphyrin profiles make it possible to distinguish PCT from the other porphyrias. PCT is the most common porphyria, with an incidence of approximately 1 per 70,000 people.6,7 PCT is caused by decreased activity of uroporphyrinogen decarboxylase.8 Estrogens, iron, alcohol, hepatitis C,9 and human immunodeficiency virus10 can be associated with PCT. It is poorly understood how they interfere with the activity of uroporphyrinogen decarboxylase, but iron overload is thought to be a common feature.5 When PCT is suspected, a laboratory evaluation is obtained to assess iron stores and liver function. Serum ferritin levels usually are at the upper limits of the reference range or elevated in patients with PCT.11 The understanding of iron overload has been enhanced by the identification of the HFE gene12 and the genes for the transferrin receptor 2 (TFR2) and hemojuvelin (HJV)(Table). The locus that most frequently accounts for HH is HFE, the class I major histocompatibility complex–related protein on chromosome 6p21.3.13 At least 37 different HFE mutations causing HH have been detected,14 including Cys282Tyr, Hys63Asp, and Ser65Cys. The most common mutation, the substitution of a tyrosine for a cysteine at protein residue 282 (Cys282Tyr), is caused by a G-to-A substitution at nucleotide 845 of the HFE transcript.15