Mutation analysis of the MDM4 gene in German breast cancer patients.

BACKGROUND: MDM4 is a negative regulator of p53 and cooperates with MDM2 in the cellular response to DNA damage. It is unknown, however, whether MDM4 gene alterations play some role in the inherited component of breast cancer susceptibility. METHODS: We sequenced the whole MDM4 coding region and flanking untranslated regions in genomic DNA samples obtained from 40 German patients with familial breast cancer. Selected variants were subsequently screened by RFLP-based assays in an extended set of breast cancer cases and controls. RESULTS: Our resequencing study uncovered two MDM4 coding variants in 4/40 patients. Three patients carried a silent substitution at codon 74 that was linked with another rare variant in the 5'UTR. No association of this allele with breast cancer was found in a subsequent screening of 133 patients with bilateral breast cancer and 136 controls. The fourth patient was heterozygous for the missense substitution D153G which is located in a less conserved region of the MDM4 protein but may affect a predicted phosphorylation site. The D153G substitution only partially segregated with breast cancer in the family and was not identified on additional 680 chromosomes screened. CONCLUSION: This study did not reveal clearly pathogenic mutations although it uncovered two new unclassified variants at a low frequency. We conclude that there is no evidence for a major role of MDM4 coding variants in the inherited susceptibility towards breast cancer in German patients.

ATM missense variant P1054R predisposes to prostate cancer.

BACKGROUND: Prostate cancer is associated with defective DNA strand break repair after DNA damage leading to genetic instability and prostate cancer progression. The ATM (ataxia-telangiectasia mutated) gene product is known to play an important role in cell cycle regulation and maintenance of genomic integrity. We investigated whether the prevalence of the ATM missense substitution P1054R is increased in a hospital-based series of prostate cancer patients and whether carriers are at increased risk for treatment-related side effects. MATERIALS AND METHODS: A consecutive series of 261 patients treated for early-stage prostate cancer with I-125 brachytherapy (permanent seed implantation) between 10/2000 and 04/2006 at our institution and a comparison group of 460 male control individuals were screened for the presence of the P1054R variant. Outcome of therapy regarding morbidity was assessed prospectively and compared between carriers vs. non-carriers with the International Prostate Symptom Score (IPSS), a Quality-of-Life-index (QoL) and the International Index of Erectile Function (IIEF-15) with its subgroups (IIEF-5 and EF). RESULTS: The proportion of carriers of the P1054R variant was significantly higher among prostate cancer patients than in the general population (25 out of 261 vs. 22 out of 460; OR 2.1; 95% CI 1.2-3.8, p<0.01). A subgroup of the carriers additionally harboured the ATM missense variant F858L that was associated with a similar risk (OR=2.2; 95% CI 1.1-4.6; p=0.03). After a mean follow-up of 18 months there were no statistically significant differences regarding IPSS (p=0.48), QoL (p=0.61), IIEF-15 score (p=0.78), IIEF-5 score (p=0.83), and EF score (p=0.80), respectively. CONCLUSIONS: The ATM missense variant P1054R confers an about twofold increased risk for prostate cancer in our series. The subgroup of patients with the second-site variant F858L is not at significantly higher risk. After 18 months, there was no evidence for an increased adverse radiotherapy response in P1054R carriers.

Identification of K(+) channels in the plasma membrane of maize subsidiary cells.

The stomatal complex of Zea mays consists of two guard cells with the pore in between them and two flanking subsidiary cells. Both guard cells and subsidiary cells are important elements for stoma physiology because a well-coordinated transmembrane shuttle transport of potassium and chloride ions occurs between these cells during stomatal movement. To shed light upon the corresponding transport systems from subsidiary cells, subsidiary cell protoplasts were enzymatically isolated and in turn, analyzed with the patch-clamp technique. Thereby, two K(+)-selective channel types were identified in the plasma membrane of subsidiary cells. With regard to their voltage-dependent gating behavior, they may act as hyperpolarization-dependent K(+) uptake and depolarization-activated K(+) release channels during stomatal movement. Interestingly, the K(+) channels from subsidiary cells and guard cells similarly responded to membrane voltage as well as to changes in the K(+) gradient. Further, the inward- and outward-rectifying K(+) current amplitude decreased upon a rise in the intracellular free Ca(2+) level from 2 nM to the micro M-range. The results indicate that the plasma membrane of subsidiary cells and guard cells has to be inversely polarized in order to achieve the anti-parallel direction of K(+) fluxes between these cell types during stomatal movement.