Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.5.1.61 (porphobilinogen deaminase)
 637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

All nucleated animal cells synthesize heme to provide the prosthetic group of respiratory cytochromes. Large amounts of heme are synthesized by erythroid cells for hemoglobin production and by liver cells for drug-induced cytochromes P450. This review focuses on the first enzyme of the heme biosynthetic pathway, 5-aminolevulinate synthase (ALAS), which catalyzes the rate-controlling step in liver and possibly other tissues. We report that there are two distinct human genes for ALAS: one, a housekeeping gene, is probably ubiquitously expressed while the other is active only in erythroid tissue. By contrast it has been reported that, for porphobilinogen deaminase, the third enzyme of the heme pathway, there is a single human gene with two promoters; one functional in all tissues, the other erythroid specific. In liver, transcription of the housekeeping ALAS gene is induced by drugs and repressed by heme. Heme also acts in a novel way to prevent transport of ALAS into mitochondria, its site of function. Porphyrias result from inherited defects in enzymes of the heme pathway subsequent to ALAS and the molecular abnormality is now known for the most common subtype of acute intermittent porphyria. In developing red cells, levels of ALAS are regulated by increased gene transcription and by a post-transcriptional mechanism, in which iron most probably controls translation of erythroid ALAS mRNA through an iron-responsive element identified in the 5' untranslated region of the mRNA. The human erythroid ALAS gene is located on the X-chromosome, suggesting that a defect in this gene may be responsible for X-linked sideroblastic anemias.
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PMID:Molecular regulation of 5-aminolevulinate synthase. Diseases related to heme biosynthesis. 209 58

Tetrapyrroles like hemes, chlorophylls, and cobalamin are complex macrocycles which play essential roles in almost all living organisms. Heme serves as prosthetic group of many proteins involved in fundamental biological processes like respiration, photosynthesis, and the metabolism and transport of oxygen. Further, enzymes such as catalases, peroxidases, or cytochromes P450 rely on heme as essential cofactors. Heme is synthesized in most organisms via a highly conserved biosynthetic route. In humans, defects in heme biosynthesis lead to severe metabolic disorders called porphyrias. The elucidation of the 3D structures for all heme biosynthetic enzymes over the last decade provided new insights into their function and elucidated the structural basis of many known diseases. In terms of structure and function several rather unique proteins were revealed such as the V-shaped glutamyl-tRNA reductase, the dipyrromethane cofactor containing porphobilinogen deaminase, or the "Radical SAM enzyme" coproporphyrinogen III dehydrogenase. This review summarizes the current understanding of the structure-function relationship for all heme biosynthetic enzymes and their potential interactions in the cell.
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PMID:Structure and function of enzymes in heme biosynthesis. 2050 25

Environmental pollutants including halogenated aromatic hydrocarbons and polycyclic aromatic hydrocarbons, including benzo[a]pyrene, exert their deleterious effects through the activation of the aryl hydrocarbon receptor (AHR) and by the resulting transcription of genes not yet fully identified. Ligand-bound AHR translocates from cytoplasm to nucleus, where it dimerizes with the aryl hydrocarbon receptor nuclear translocator (ARNT) protein. The AHR/ARNT dimer binds to enhancer regions of responsive genes to activate transcription. AHR also mediates carcinogenesis caused by PAHs, likely via CYP1A1, CYP1A2, and CYP1B1, which are massively induced by activated AHR in many tissues and generate carcinogenic electrophilic derivatives of PAHs. In the current study, we have used the mouse GeCKOv2 genome-wide CRISPR/Cas9 library to identify novel genes in the AHR pathway by taking advantage of a B[a]P selection assay that we previously used to identify core AHR pathway genes in Hepa-1c1c7 murine hepatoma cells. Besides Ahr, Arnt, and Cyp1a1, we report the identification of multiple additional putative AHR pathway genes including several that we validated. These include cytochrome P450 reductase (Por), which mediates redox regeneration of cytochromes P450, and 5 genes of the heme biosynthesis pathway: delta-aminolevulinate synthase 1 (Alas1), porphobilinogen deaminase (Hmbs), uroporphyrinogen decarboxylase (Urod), coproporphyrinogen oxidase (Cpox), and ferrochelatase (Fech): heme being an essential prosthetic group of cytochrome P450 proteins. Notably, several of these genes were identified by GeCKO screening, despite not being identifiable by reverse genetics approaches. This indicates the power of high-sensitivity genome-wide genetic screening for identifying genes in the AHR pathway.
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PMID:A CRISPR/Cas9 Whole-Genome Screen Identifies Genes Required for Aryl Hydrocarbon Receptor-Dependent Induction of Functional CYP1A1. 3108 89