Congenital erythropoietic porphyria.

Congenital erythropoietic porphyria (CEP) is a rare autosomal recessive disease due to the deficient, but not absent, activity of uroporphyrinogen III synthase (UROS), the fourth enzyme in the heme biosynthesis pathway. Biallelic variants in the UROS gene result in decreased UROS enzymatic activity and the accumulation of non-physiologic Type I porphyrins in cells and fluids. Overproduced uroporphyrins in haematopoietic cells are released into the circulation and distributed to tissues, inducing primarily hematologic and dermatologic symptoms. The clinical manifestations vary in severity ranging from non-immune hydrops fetalis in utero to mild dermatologic manifestations in adults. Here, the biochemical, molecular and clinical features of CEP as well as current and new treatment options, including the rescue of UROS enzyme activity by chaperones, are presented.

The uroS and yifB Genes Conserved among Tetrapyrrole Synthesizing-Deficient Bacteroidales Are Involved in Bacteroides fragilis Heme Assimilation and Survival in Experimental Intra-abdominal Infection and Intestinal Colonization.

The human intestinal anaerobic commensal and opportunistic pathogen Bacteroides fragilis does not synthesize the tetrapyrrole protoporphyrin IX in order to form heme that is required for growth stimulation and survival in vivo Consequently, B. fragilis acquires essential heme from host tissues during extraintestinal infection. The absence of several genes necessary for de novo heme biosynthesis is a common characteristic of many anaerobic bacteria; however, the uroS gene, encoding a uroporphyrinogen III synthase for an early step of heme biosynthesis, is conserved among the heme-requiring Bacteroidales that inhabit the mammalian gastrointestinal tract. In this study, we show that the ability of B. fragilis to utilize heme or protoporphyrin IX for growth was greatly reduced in a ΔuroS mutant. This growth defect appears to be linked to the suppression of reverse chelatase and ferrochelatase activities in the absence of uroS In addition, this ΔuroS suppressive effect was enhanced by the deletion of the yifB gene, which encodes an Mg2+-chelatase protein belonging to the ATPases associated with various cellular activities (AAA+) superfamily of proteins. Furthermore, the ΔuroS mutant and the ΔuroS ΔyifB double mutant had a severe survival defect compared to the parent strain in competitive infection assays using animal models of intra-abdominal infection and intestinal colonization. This shows that the presence of the uroS and yifB genes in B. fragilis seems to be linked to pathophysiological and nutritional competitive fitness for survival in host tissues. Genetic complementation studies and enzyme kinetics assays indicate that B. fragilis UroS is functionally different from canonical bacterial UroS proteins. Taken together, these findings show that heme assimilation and metabolism in the anaerobe B. fragilis have diverged from those of aerobic and facultative anaerobic pathogenic bacteria.

Congenital erythropoietic porphyria and erythropoietic protoporphyria: Identification of 7 uroporphyrinogen III synthase and 20 ferrochelatase novel mutations.

The erythropoietic porphyrias are inborn errors of heme biosynthesis with prominent cutaneous manifestations. They include autosomal recessive Congenital Erythropoietic Porphyria (CEP) due to loss-of-function (LOF) mutations in the Uroporphyrinogen III Synthase (UROS) gene, Erythropoietic Protoporphyria (EPP) due to LOF mutations in the ferrochelatase (FECH) gene, and X-Linked Protoporphyria (XLP) due to gain-of-function mutations in the terminal exon of the Aminolevulinic Acid Synthase 2 (ALAS2) gene. During the 11-year period from 01/01/2007 through 12/31/2017, the Mount Sinai Porphyrias Diagnostic Laboratory provided molecular diagnostic testing for one or more of these disorders in 628 individuals, including 413 unrelated individuals. Of these 628, 120 patients were tested for CEP, 483 for EPP, and 331 for XLP, for a total of 934 tests. For CEP, 24 of 78 (31%) unrelated individuals tested had UROS mutations, including seven novel mutations. For EPP, 239 of 362 (66%) unrelated individuals tested had pathogenic FECH mutations, including twenty novel mutations. The IVS3-48 T > C low-expression allele was present in 231 (97%) of 239 mutation-positive EPP probands with a pathogenic FECH mutation. In the remaining 3%, three patients with two different FECH mutations in trans were identified. For XLP, 24 of 250 (10%) unrelated individuals tested had ALAS2 exon 11 mutations. No novel ALAS2 mutations were identified. Among family members referred for testing, 33 of 42 (79%) CEP, 62 of 121 (51%) EPP, and 31 of 81 (38%) XLP family members had the respective family mutation. Mutation-positive CEP, EPP, and XLP patients who had been biochemically tested had marked elevations of the disease-appropriate porphyrin intermediates. These results expand the molecular heterogeneity of the erythropoietic porphyrias by adding a total of 27 novel mutations. The results document the usefulness of molecular testing to confirm the positive biochemical findings in these patients and to identify heterozygous family members.

Advances in understanding the pathogenesis of congenital erythropoietic porphyria.

Congenital erythropoietic porphyria (CEP) is a rare genetic disease resulting from the remarkable deficient activity of uroporphyrinogen III synthase, the fourth enzyme of the haem biosynthetic pathway. This enzyme defect results in overproduction of the non-physiological and pathogenic porphyrin isomers, uroporphyrin I and coproporphyrin I. The predominant clinical characteristics of CEP include bullous cutaneous photosensitivity to visible light from early infancy, progressive photomutilation and chronic haemolytic anaemia. The severity of clinical manifestations is markedly heterogeneous among patients; and interdependence between disease severity and porphyrin amount in the tissues has been pointed out. A more pronounced endogenous production of porphyrins concomitant to activation of ALAS2, the first and rate-limiting of the haem synthesis enzymes in erythroid cells, has also been reported. CEP is inherited as autosomal recessive or X-linked trait due to mutations in UROS or GATA1 genes; however an involvement of other causative or modifier genes cannot be ruled out.

Congenital erythropoietic porphyria with two mutations of the uroporphyrinogen III synthase gene (Cys73Arg, Thr228Met).

Congenital erythropoietic porphyria (CEP) is an autosomal recessive inborn error of metabolism that results from the markedly deficient activity of uroporphyrinogen III synthase (UROS). We describe a 14-year-old girl with red urine since infancy, progressive blistering and scarring of the skin, and moderate hemolytic anemia. After years of skin damage, her face is mutilated; she has a bald patch on the scalp, hypertrichosis of the neck, areas of skin darkening, and limited joint movements of the hands. Total urine excretion and fecal total porphyrin were both markedly raised above normal levels. Sequencing of the UROS gene identified two mutations causing CEP (Cys73Arg, Thr228Met). The patient lesions are progressing. Bone marrow transplantation and/or gene therapy are proposed as the next steps in her treatment. In brief, we describe a CEP with confirmed two pathogenic mutations, severe phenotype and discuss the various treatment options available.

Congenital Erythropoietic Porphyria with Undescended Testis.

Hereditary porphyrias are a group of metabolic disorders of heme biosynthesis pathway that are characterized by acute neurovisceral symptoms, skin lesions, or both. Congenital erythropoietic porphyria (CEP) is an extremely rare disease with a mutation in the gene that codes for uroporphyrinogen III synthase leading to accumulation of porphyrin in different tissues and marked cutaneous photosensitivity. We report a case of CEP with infancy onset blistering, photosensitivity, red colored urine, and teeth along with scarring. Examination revealed an undescended testis of the left side. Mutation analysis revealed mutation in the uroporphyrinogen III synthase gene (UROS) resulting in c. 56 A > G (Tyr19Cys). The presence of undescended testis with a rare mutation in a case of CEP which itself is an extremely rare condition make the case interesting.

Porfiria eritropoyética. presentración de un caso / Erythropoietic porphyria. a case report

RESUMEN Las porfirias constituyen un grupo de trastornos, causados por defectos en la vía de síntesis del grupo hemo. En la porfiriaeritropoyética congénita, existe deficiencia de la uroporfirinógenosintetasa, lo que a su vez provoca acumulación de grandes cantidades de uroporfirina I en todos los tejidos, dando lugar a fotosensibilidad con lesiones mutilantes de la piel,eritrodoncia, anemia hemolítica, esplenomegalia y fragilidad ósea. El diagnóstico definitivo se fundamenta en la demostración de la actividad deficiente de la uroporfirinógenosintetasa o la determinación de mutaciones específicas en el gen respectivo;su tratamiento requiere colaboración multidisciplinaria. En el presente artículo se describe un caso de porfiriaeritropoyética, con la presentación clínica dermatológica muy característica.

SUMMARY Porphyrias are a group of disorders caused by defects in the synthesis pathway of heme. Congenital erythropoietic porphyria is characterized by uroporphyrinogen synthase deficiency, which causes accumulation of large amounts of uroporphyrin Iin all tissues; resulting in photosensitivity with mutilating skin lesions, erythrodontia, hemolytic anemia, splenomegaly, and bone fragility. Definitive diagnosis is based on demonstrating poor uroporphyrinogen synthase activity or determination of specific mutations in the respective gene; treatment requires multidisciplinary collaboration. A case of erythropoietic porphyria, with classical dermatological clinical presentation is reported.

Phylogenetic analysis of uroporphyrinogen III synthase (UROS) gene.

The uroporphyrinogen III synthase (UROS) enzyme (also known as hydroxymethylbilane hydrolyase) catalyzes the cyclization of hydroxymethylbilane to uroporphyrinogen III during heme biosynthesis. A deficiency of this enzyme is associated with the very rare Gunther's disease or congenital erythropoietic porphyria, an autosomal recessive inborn error of metabolism. The current study investigated the possible role of UROS (Homo sapiens [EC: 4.2.1.75; 265 aa; 1371 bp mRNA; Entrez Pubmed ref NP_000366.1, NM_000375.2]) in evolution by studying the phylogenetic relationship and divergence of this gene using computational methods. The UROS protein sequences from various taxa were retrieved from GenBank database and were compared using Clustal-W (multiple sequence alignment) with defaults and a first-pass phylogenetic tree was built using neighbor-joining method as in DELTA BLAST 2.2.27+ version. A total of 163 BLAST hits were found for the uroporphyrinogen III synthase query sequence and these hits showed putative conserved domain, HemD superfamily (as on 14(th) Nov 2012). We then narrowed down the search by manually deleting the proteins which were not UROS sequences and sequences belonging to phyla other than Chordata were deleted. A repeat phylogenetic analysis of 39 taxa was performed using PhyML and TreeDyn software to confirm that UROS is a highly conserved protein with approximately 85% conserved sequences in almost all chordate taxons emphasizing its importance in heme synthesis.

Porfiria Congénita Eritropoyética en la Argentina: 4 niños y un caso de manifestación tardía / Congenital Erythropoietic Porphyria in Argentina: 4 children and one late onset case

Las porfirias son la consecuencia de fallas en el metabolismo del hemo. La Porfiria Congénita Eritropoyética (PCE) (enfermedad de Günther) es una porfiria cutánea rara que se transmite en forma autosómica recesiva. Se produce debido a la presencia de mutaciones en el gen de la uroporfirinógeno III sintetasa (UROIII-S) que llevan a una marcada disminución de su actividad y a la producción y acumulación de elevadas cantidades de porfirinas de la serie isomérica I en plasma, tejidos y huesos, responsables de la severa sintomatología cutánea que generalmente presentan los pacientes con esta porfiria. Se han descripto sólo alrededor de 200 casos a nivel mundial. Su expresión clínica es muy heterogénea, encontrándose desde casos muy graves con severo compromiso cutáneo, transfusión-dependiente, hasta casos leves con escasa sintomatología cutánea. Se presentan 5 casos de pacientes argentinos con PCE, 4 infantiles y uno de manifestación tardía, diagnosticados en el Centro de Investigaciones sobre Porfirinas y Porfirias (CIPYP), que constituyen, hasta el momento, los únicos registrados en Argentina. Se encontraron elevadas cantidades de porfirinas en plasma, sangre, orina y materia fecal y un patrón de porfirinas con predominio de la serie I. La actividad de la UROIII-S estaba reducida en un 25-44% con respecto al valor normal. El diagnóstico certero y precoz de esta porfiria es fundamental para aplicar tempranamente el tratamiento adecuado en cada caso y brindarle al paciente una mejor calidad de vida.

Porphyrias are metabolism disorders caused by a partial deficiency in one of the heme biosynthetic pathway enzymes. Congenital Erythropoietic Porphyria, also termed Günther disease, is extremely rare and is inherited as an autosomal recessive trait that results from the markedly deficient activity of the fourth enzyme in the heme biosynthetic pathway, Uroporphyrinogen III synthase (UROIII-S). This enzyme deficiency leads to an increased production and accumulation of the nonphysiological and phototoxic type I porphyrins responsible for the typical clinical manifestations. The disease severity is markedly heterogeneous, ranging from severe transfusion dependency throughout life to milder adult cases with only cutaneous photosensitivity. Only 200 cases have been described all over the world so far. In this work five Argentinean CEP patients are presented, 4 infantile and one late onset case, diagnosed in the CIPYP which are, as far as it is known, the only cases described in Argentina. Increased amounts of porphyrins were found in plasma, blood, urine and faeces, together with high amounts of the pathogenic type I isomer. Enzyme activity was reduced to 25-44% respect to normal values. Early diagnosis is important for correct treatment so as to prevent the characteristic mutilation of the disease and to improve patient´s life quality.