PURA
Pur-alpha is a protein that in humans is encoded by the PURA gene located at chromosome 5, band q31.
Pur-alpha is an ancient, multi-functional DNA- and RNA-binding protein. PURA is expressed in every human tissue, where it exists as a protein of 322 amino acids. According to convention, PURA, the gene, is written italicized in all upper case letters. Pur-alpha, the protein, is written with the first letter capitalized and can be found listed as Pur-alpha, Pur-α, Pura, Puralpha, Pur alpha and Pur1.
Evolutionary conservation and function
Pur-alpha was the first sequence-specific single-stranded DNA-binding protein to be discovered in higher organisms. It binds to both single-stranded and double-stranded DNA, making contact with G residues in the purine-rich strand of its binding site. Cumulative data shows that Pur-alpha preferentially binds to the sequence n, where N is not G. N denotes a nucleotide, and n denotes the number of repeats of this small sequence. N may be repeated up to three times in this sequence. Following the identification of a Pur factor, which specifically bound a purine-rich sequence in the control region of the c-MYC gene, the gene, PURA, encoding the protein, Pur-alpha, was cloned and sequenced for both human and mouse. Pur-alpha belongs to the four-member Pur protein family, which also includes Pur-beta and two forms of Pur–gamma.Pur protein sequences from bacteria through humans contain an amino acid segment that is strongly conserved. Human Pur-alpha contains three repeats of this Pur domain and bacterial Pur-alpha contains one. This evolutionary conservation means that the specific sequence of this domain is important for the survival of most species throughout the spectrum of living organisms. This essential nature of the Pur domain piques interest because the functions of Pur-alpha in lower organisms and in humans differ greatly. For example, Pur-alpha is essential for brain and blood cell development in mammals, but bacteria have no brain and no blood. In humans Pur-alpha functions to activate transcription in the nucleus, to facilitate RNA transport in the cytoplasm and to regulate DNA replication in the cell cycle. In certain functions Pur-alpha interacts with family member Pur-beta. Several cell cycle regulatory functions may be mediated by Pur-alpha binding to Cyclin/Cdk protein kinases, which phosphorylate proteins regulating cell cycle transition points. Requirements for Pur-alpha in all organisms are united by Pur-alpha's ability to bind nucleic acids coupled to its ability to interact with regulatory and transport proteins.
Relevance in human diseases
Genetic perturbation in leukemia and anti-proliferative effect
PURA, located at chromosome 5 band q31, is frequently deleted in myelodysplastic syndrome, a disorder of white blood cells, that may progress to acute myelogenous leukemia. Loss of one copy of chromosome 7 is also frequent in MDS. PURB, the gene encoding Pur-beta, is located at 7p13. A visual fluorescence analysis of chromosomes from MDS patients shows that deletions of PURA at 5q31 are more strongly linked to progression of MDS to AML when combined with deletions of the PURB gene, including complete loss of chromosome 7. All of the PURA deletions noted, involve only one of the two paired, parentally-derived chromosomes. The implication is that Pur-alpha and -beta are each codominantly expressed, and that haploid levels are insufficient for a protective effect against cancer. All known PURA deletions in people occur in only one of the two copies of chromosome 5.Inducing increased levels of Pur-alpha in several different cultured cancer cell lines blocks cell proliferation. It also blocks anchorage-independent colony formation, a hallmark of cancer. This is true whether Pur-alpha is microinjected or expressed after introducing a cloned PURA cDNA into cells. The Pur-alpha inhibition of cancer cell proliferation occurs at specific points in the cell division cycle, primarily at checkpoints for transition to DNA replication or mitosis. These cell cycle effects are consistent with an interaction between Pur-alpha and CDK, cell cycle-dependent protein kinases. They are also consistent with documented interaction between Pur-alpha and the tumor suppressor protein, Rb.