The rad3 gene of Schizosaccharomyces pombe is required for checkpoint pathways that respond to DNA damage and replication blocks. We report the complete rad3 gene sequence and show that rad3 is the homologue of Saccharomyces cerevisiae ESR1 (MEC1/SAD3) and Drosophila melanogaster mei‐41 checkpoint genes. This establishes Rad3/Mec1 as the only conserved protein which is required for all the DNA structure checkpoints in both yeast model systems. Rad3 is an inessential member of the ‘lipid kinase’ subclass of kinases which includes the ATM protein defective in ataxia telangiectasia patients. Mutational analysis indicates that the kinase domain is required for Rad3 function, and immunoprecipitation of overexpressed Rad3 demonstrates an associated protein kinase activity. The previous observation that rad3 mutations can be rescued by a truncated clone lacking the kinase domain may be due to intragenic complementation. Consistent with this, biochemical data suggest that Rad3 exists in a complex containing multiple copies of Rad3. We have identified a novel human gene (ATR) whose product is closely related to Rad3/Esr1p/Mei‐41. ATR can functionally complement esr1–1 radiation sensitivity in S. cerevisiae. Together, the structural conservation and functional complementation suggest strongly that the mechanisms underlying the DNA structure checkpoints are conserved throughout evolution.
A number of cell-cycle checkpoint genes have been shown to play important roles in meiosis. We have characterized the human and mouse counterpart of the Schizosaccharomyces pombe Rad3 protein, named Atr (for ataxia-telangiectasia-and rad3-related), and the protein that is mutated in ataxia-telangiectasia, Atm. We demonstrate that ATR mRNA and protein are expressed in human and mouse testis. More detailed analysis of specific cells in seminiferous tubules shows localization of Atr to the nuclei of cells in the process of meiosis I. Using immunoprecipitation and immunoblot analysis, we show that Atr and Atm proteins are-300 and 350 kD relative molecular mass, respectively, and further demonstrate that both proteins have associated protein kinase activity. Further, we demonstrate that Atr and Atm interact directly with meiotic chromosomes and show complementary localization patterns on synapsing chromosomes. Atr is found at sites along unpaired or asynapsed chromosomal axes, whereas Atm is found along synapsed chromosomal axes. This is the first demonstration of a nuclear association of Atr and Atm proteins with meiotic chromosomes and suggests a direct role for these proteins in recognizing and responding to DNA strand interruptions that occur during meiotic recombination. [ Mitotic cells guard against genetic instability and increase their survival following DNA damage both by direct DNA repair mechanisms and by delaying progression through the cell cycle. Depending on the position of the cell within the cell cycle at the time of irradiation, DNA damage in mammalian cells can effect specific checkpoints that prevent passage from G 1 to S phase, progression through S phase, or passage from G 2 into mitosis. These checkpoints are thought to prevent dele-terious events such as replication of damaged DNA or the segregation of fragmented chromosomes during mi-tosis (Hartwell and Kastan 1994) and therefore assure the accurate transmission of the genetic material.
Melanoma growth stimulatory activity (MGSA) is a mitogenic polypeptide secreted by Hs294T human melanoma cells. Comparison of the N‐terminal sequences of the 13 and 16 kd MGSA species with the cDNA sequence revealed that the mature form of human MGSA is maximally 73 amino acids long. Expression of the cDNA in mammalian cells results in the secretion of this peptide with mitogenic activity. MGSA is structurally related to the platelet‐derived beta‐thromboglobulin and to several other polypeptides. These factors may constitute a family of growth factors. MGSA mRNA was detected in a variety of cell types. The level of MGSA mRNA in melanoma cells is strongly elevated by treatment with MGSA. MGSA is the gene product of a recently detected gene gro. The gene was mapped to chromosome 4 (region q13––q21). This same region also contains genes for two of the structurally related factors, for c‐kit, a receptor for an as yet unidentified ligand, and for ‘piebald trait’, an inherited skin pigmentation disorder.
The Atm-dependent presence of Chk1 in mouse cells and along meiotic chromosomes, and the late pachynema co-localization of Atr and Chk1 on the unsynapsed axes of the paired X and Y chromosomes, suggest that Chk1 acts as an integrator for Atm and Atr signals and may be involved in monitoring the processing of meiotic recombination. Furthermore, mapping of the CHK1 gene to a region of frequent loss of heterozygosity in human tumors at 11q22-23 indicates that the CHK1 gene is a candidate tumor suppressor gene.
Chromosome 3q alterations occur frequently in many types of tumours. In a genetic screen for loci present in rhabdomyosarcomas, we identified an isochromosome 3q [i(3q)], which inhibits muscle differentiation when transferred into myoblasts. The i(3q) inhibits MyoD function, resulting in a non-differentiating phenotype. Furthermore, the i(3q) induces a 'cut' phenotype, abnormal centrosome amplification, aneuploidy and loss of G1 arrest following gamma-irradiation. Testing candidate genes within this region reveals that forced expression of ataxia-telangiectasia and rad3-related (ATR) results in a phenocopy of the i(3q). Thus, genetic alteration of ATR leads to loss of differentiation as well as cell-cycle abnormalities.
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