The p53 tumor suppressor gene of the marsupial Monodelphis domestica: cloning of exons 4-11 and mutations in exons 5-8 in ultraviolet radiation-induced corneal sarcomas.

Inactivating p53 mutations are found in many ultraviolet radiation (UVR)-induced skin tumors. We examined 12 UVR-induced corneal tumors of the marsupial Monodelphis domestica for mutations in exons 5-8 of p53 and compared their mutational spectrum with that of UVR-induced skin tumors of other species. First we cloned and characterized a cDNA extending from the middle of exon 4 through exon 11 of the Monodelphis p53 gene. Based on the sequence information obtained, primers were designed to amplify introns 4-9 of the gene; intron primers to amplify individually exons 5-8 were subsequently developed. 'Cold' single strand conformational polymorphism analysis followed by reamplification of DNA with altered mobility and cycle sequencing revealed single p53 mutations in four of 12 tumors (33%), including one mutation in exon 5, two identical mutations in exon 7 and one mutation in exon 8. All mutations were at dipyrimidine sites and occurred on the non-transcribed strand. Three of the four were hallmark UVR-induced C-->T alterations. Three of the mutations were found at sites corresponding to human codons 248 and 273, which are mutational hotspots in human and murine UVR-induced squamous cell carcinomas. Our findings suggest that UVR-induced corneal sarcomas in Monodelphis will be valuable in studying mechanisms of p53 mutation in UVR-induced tumors.

Cloning and characterization of the CDKN2A and p19ARF genes from Monodelphis domestica.

The tumor suppressor gene, CDKN2A (p16), encodes a cyclin-dependent kinase inhibitor and functions as a negative regulator in the retinoblastoma pathway that blocks cell cycle progression from the G1 phase. The gene has been found to be deleted, truncated, mutated, or silenced by promoter methylation in a wide range of tumor types. Where melanoma CDKN2A mutations have been characterized, C --> T and CC --> TT transitions were found, indicating a direct role for ultraviolet radiation (UVR)-induced pyrimidine dimers in the formation of some tumors. The South American opossum, Monodelphis domestica, has been shown by our group and others to be susceptible to the induction of melanoma on chronic exposure to UVR alone. The CDKN2A gene and its exon 1beta alternate transcript p19ARF were cloned and sequenced from M. domestica to investigate the role of these genes in the development of UVR-induced melanoma and non-melanoma tumors. Both genes were first amplified by polymerase chain reaction (PCR) using cDNA from an opossum corneal-tumor cell-line library and degenerate primers based on human, mouse, and rat CDKN2A gene sequences. To verify these as normal sequences, both genes were then RT-PCR amplified from cultured normal opossum melanocyte mRNA. When comparing the tumor and melanocyte sequences, we found a UVR signature point mutation, a C --> T transition, within exon 2 in the corneal tumor cell line. The same mutation at this site in other tumors has been shown to alter the CDKN2A protein's ability to bind CDK4 kinase, which may lead to uncontrolled cell cycling. A comparison of the amino acid sequence of opossum CDKN2A showed identities relative to human, mouse, and rat between 57% and 63%, and when conserved amino acid substitutions are considered (similarity), the range is 63% to 67%. The amino acid identity and similarity for p19ARF ranged from 39% to 49%.

Altered UV resistance and UV mutational spectrum in repair-proficient murine fibroblasts expressing endonuclease V.

In previously reported studies, we transfected repair-proficient murine fibroblasts with the denV gene of bacteriophage T4 and showed that expression of encoded endonuclease V markedly enhanced cyclobutane pyrimidine dimer (CPD) repair and reduced the frequency of ultraviolet radiation (UV)-induced mutations. In the present studies, we compared the spectra of UV-induced mutations at the hprt locus in denV-transfected and control cells. A significant difference in mutation types was observed. While multiple base deletions and single base insertions were found in denV-transfected but not control cells, multiple tandem and non-tandem point mutations identified in control cells were absent in denV-transfected cells. When we compared colony survival following UV exposure in the two cell lines, it appeared that endonuclease V expression did not enhance UV resistance, instead denV-transfected cells had increased susceptibility to low fluences of UV. The effects of endonuclease V expression on UV resistance and on UV mutational spectrum are likely to be due both to the removal of CPDs and to the novel enzymatic activity of endonuclease V.

H-ras oncogene activation in invasive UVR-induced corneal sarcomas of the opossum Monodelphis domestica.

Chronic exposure to ultraviolet radiation (UVR) induces corneal sarcomas in the South American opossum Monodelphis domestica. Cell lines are readily established from these tumors. Northern blotting of mRNA from six such cell lines revealed high expression of the H-ras oncogene. H-ras cDNA from an eye tumor cell line was cloned and characterized; the germline sequence of codons 12, 13, and 61 was confirmed by examination of H-ras sequences amplified from liver DNA by the polymerase chain reaction. The Monodelphis H-ras coding sequence is 84-89% identical to that of other vertebrates at the nucleotide level, and the predicted 189-amino-acid sequence differs by 2-12 amino acids from that of other vertebrates. Analysis of 12 primary invasive corneal sarcomas induced by chronic UVR exposure revealed no evidence of H-ras gene amplification or rearrangement. One tumor was heterozygous for an activating point mutation in codon 61 of the H-ras gene; the tumor was also homozygous for a point mutation at an adjacent site in codon 62. These results provide additional evidence for the functional importance and consequent evolutionary conservation of the ras oncogenes.

Characterization of cDNA encoding basic fibroblast growth factor of the marsupial Monodelphis domestica.

We have isolated and characterized a 1,593-bp cDNA containing the coding region of the basic fibroblast growth factor (BFGF) gene of a marsupial, the opossum Monodelphis domestica. The encoded protein is 156 amino acids long. The BFGF gene of M. domestica is 82-87% identical to the BFGF genes of placental mammals at the nucleotide level and 92-93% identical to these genes at the level of the amino acids encoded. Regions of the BFGF molecule important in heparin binding, high-affinity receptor binding, and biologic function are highly conserved between placental mammals and this marsupial. There are several AUG and CUG codons in the 5' region of the marsupial cDNA that may serve as alternate sites of translation initiation; use of these sites would produce amino-terminally extended BFGF proteins. Amino-terminal extensions of BFGF in other species serve as nuclear localization signals. Conserved A+T-rich motifs in the 3' untranslated region of the marsupial mRNA probably serve to regulate mRNA stability. The high degree of evolutionary conservation of BFGF in mammals suggests that the molecule plays an important role in normal growth and development and that stringent control of its activity is essential.

Preservation of sensory cells by placing stumps of transected nerve in an impermeable tube.

It is known that transection of a major peripheral nerve results in the loss of a significant number of sensory cells whose axons travel in that nerve. The present study confirms this observation and shows that placement of the stump of such a transected nerve into an impermeable tube prevents this loss. We further show that this preservation does not depend on axonal regeneration. Further experiments to define the phenomenon and to obtain beginning insight into mechanisms are discussed. If these findings can be generalized to humans, they may have clinical significance.