Mutation analysis of the AATF gene in breast cancer families.

Background: About 5-10% of breast cancer is due to inherited disease predisposition. Many previously identified susceptibility factors are involved in the maintenance of genomic integrity. AATF plays an important role in the regulation of gene transcription and cell proliferation.

Penetrance analysis of the PALB2 c.1592delT founder mutation.

Purpose: PALB2 is a recently identified breast cancer susceptibility gene. We have previously identified in the Finnish population a PALB2 c.1592delT founder truncation mutation that is associated with an increased risk of breast cancer.

Analysis of large deletions in BRCA1, BRCA2 and PALB2 genes in Finnish breast and ovarian cancer families.

Background: BRCA1 and BRCA2 are the two most important genes associated with familial breast and ovarian cancer susceptibility. In addition, PALB2 has recently been identified as a breast cancer susceptibility gene in several populations. Here we have evaluated whether large genomic rearrangement in these genes could explain some of Finnish breast and/or ovarian cancer families.

Germline alterations in the CLSPN gene in breast cancer families.

About 5-10% of breast cancer is thought to be due to an inherited disease predisposition. Currently known genes account for less than half of the hereditary cases. Claspin, a tumor suppressor protein encoded by the CLSPN gene, is involved in monitoring of replication and sensoring of DNA damage and cooperates with CHK1 and BRCA1.

A recurrent mutation in PALB2 in Finnish cancer families.

BRCA1, BRCA2 and other known susceptibility genes account for less than half of the detectable hereditary predisposition to breast cancer. Other relevant genes therefore remain to be discovered. Recently a new BRCA2-binding protein, PALB2, was identified.

Identification of a common polymorphism in the TopBP1 gene associated with hereditary susceptibility to breast and ovarian cancer.

Besides BRCA1 and BRCA2 other genes are also likely to be involved in hereditary predisposition to breast and/or ovarian cancer. TopBP1 (topoisomerase IIbeta binding protein 1) displays sequence homology as well as functional similarities with BRCA1, and the two proteins have been suggested to function partly in the same cellular processes. TopBP1 is crucial for DNA damage and replication checkpoint controls.

Germline alterations in the 53BP1 gene in breast and ovarian cancer families.

The conserved TP53-binding protein 1 (53BP1) is a central mediator of the DNA damage checkpoint and appears to be one of the sensors of DNA double-strand breaks (DSBs). Improper processing of DSBs can result in loss or rearrangement of genetic information, leading to cell death or tumorigenesis. 53BP1 interacts with both TP53 and ATM, key proteins involved in the monitoring of genomic integrity and regulation of apoptosis.

RAD50 and NBS1 are breast cancer susceptibility genes associated with genomic instability.

The Mre11 complex, composed of RAD50, NBS1 and MRE11, has an essential role in the maintenance of genomic integrity and preventing cells from malignancy. Here we report the association of three Mre11 complex mutations with hereditary breast cancer susceptibility, studied by using a case-control design with 317 consecutive, newly diagnosed Northern Finnish breast cancer patients and 1000 geographically matched healthy controls (P = 0.0004).

Association of common ATM polymorphism with bilateral breast cancer.

The ATM kinase has an essential role in maintaining genomic integrity. Loss of both ATM alleles results in ataxia-telangiectasia (A-T), a rare autosomal recessive neuroimmunologic disorder associated with cancer susceptibility. Individuals heterozygous for germline ATM mutations have been reported to have an increased risk for malignancy, in particular, female breast cancer.