Janice D. Rone

Pluripotent Stem Cells Derived From Adult Human Testes

Recent reports have demonstrated that adult tissue cells can be induced to pluripotency, the iPS cells, mostly with the addition of genes delivered using viruses. Also, several publications both in mouse and in human have demonstrated that spermatogonial stem cells (SSCs) from testes can convert back to embryonic stem (ES)-like cells without the addition of genes. Furthermore, these pluripotent ES-like cells can differentiate into all three germ layers and organ lineages. Thus, SSCs have great potential for cell-based, autologous organ regeneration therapy for various diseases. We obtained testes from organ donors and using 1 g pieces of tissue (biopsy size) we demonstrate that testis germ cells (putative SSCs and/or their progenitors) reprogram to pluripotency when removed from their stem cell niche and when appropriate growth factors and reagents in embryonic stem cell medium are added. In addition, our method of obtaining pluripotent ES-like cells from germ cells is simpler than the described methods and may be more suitable if this procedure is developed for the clinic to obtain pluripotent cells to cure disease.

Overexpression of the Nuclear Receptor Coactivator AIB1 (SRC-3) during Progression of Pancreatic Adenocarcinoma

Purpose: The nuclear receptor coactivator amplified in breast cancer 1 (AIB1) was found to be amplified and overexpressed in breast and some other epithelial tumors. We have reported that expression of AIB1 is rate limiting for growth factor, as well as hormone signaling. Here, we assess the involvement of AIB1 in the development of pancreatic adenocarcinoma. Experimental Design: We investigated expression levels of AIB1 protein and mRNA in pancreatic cancer cell lines and in a series of archival pancreatic adenocarcinoma (n = 78), pancreatic intraepithelial neoplasia (n = 93), pancreatitis (n = 28), and normal pancreas tissues (n = 52). We also determined AIB1 gene copy numbers by fluorescence in situ hybridization in a subset of cases. Results: In normal pancreas ducts, we rarely found detectable levels of AIB1 mRNA or protein (<6% of the samples). In pancreatitis and low-grade intraepithelial neoplasia, we found an increased frequency of AIB1 expression (>14 and >23%, respectively) relative to normal tissues (P < 0.01). Adenocarcinoma, as well as high-grade intraepithelial neoplasia, showed increased levels as well as the highest frequency of AIB1 expression with >65% of samples positive for mRNA and protein (P < 0.0001 relative to the other groups). An increased copy number of the AIB1 gene, observed in 37% of cancers, may account for a portion of the increase in expression. Conclusions: AIB1 overexpression is frequent in pancreatic adenocarcinoma and its precursor lesions. On the basis of its rate-limiting role for the modulation of growth factor signals, we propose a major role of AIB1 in the multistage progression of pancreatic cancer.

Detection of LOH and mitochondrial DNA alterations in ductal lavage and nipple aspirate fluids from high-risk patients

We describe a method for the isolation of free DNA from ductal lavage (DL) and nipple aspirate fluid (NAF), and its evaluation for the presence of LOH at the BRCA1 and FHIT genes and for mitochondrial DNA (mtDNA) mutations at the D310 marker, to improve early detection of breast cancer. We evaluated 26 DL and six NAF samples from 14 women of known BRCA1 status, who have no clinical evidence of breast tumors: nine mutation carriers and five non-carriers. LOH studies at the BRCA1 locus were possible in 19/26 DL samples, and at the FHIT locus in 16/26 samples. In 4/9 mutation carriers we found LOH at the BRCA1 allele, and in two of these we also found LOH at the FHIT allele. In one of the mutation carriers with BRCA1 LOH, invasive breast cancer was subsequently detected, and the tumor showed the same LOH as the DL. In one of the true negatives, BRCA1 and FHIT LOH were detected. The mitochondrial studies were possible in all 26 DL samples and a somatic mutation was found in 3/9 carriers, two of whom also had LOH at the BRCA1 locus, and in none of the non-carriers. mtDNA mutation evaluation was possible in 4/6 NAF samples. The NAF and DL results were concordant. One NAF sample from a BRCA1 patient showed a mtDNA mutation. Our data demonstrates the feasibility of performing molecular studies using the free DNA present in the ductal fluid, while the intact cells can be used for cytologic studies.

Immortalization and transformation of human mammary epithelial cells by a tumor-derived Myc mutant

The Myc transcription factor is commonly dysregulated in many human cancers, including breast carcinomas. However, the precise role of Myc in the initiation and maintenance of malignancy is unclear. In this study we compared the ability of wild-type Myc (wt Myc) or Myc phosphorylation deficient mutants (T58A, S62A or T58A/S62A) to immortalize and transform human mammary epithelial cells (HMECs). All Myc constructs promoted cellular immortalization. As previously reported in other cells, the Myc T58A mutant tempered apoptotic responses and increased Myc protein stability in HMEC cells. More importantly, we now show that HMECs overexpressing the Myc T58A mutant acquire a unique cellular phenotype characterized by cell aggregation, detachment from the substrate and growth in liquid suspension. Coincident with these changes, the cells become anchorage-independent for growth in agarose. Previous studies have shown that wt Myc can collaborate with hTERT in inducing HMEC anchorage-independent growth. We have verified this observation and further shown that Myc T58A was a stronger facilitator of such co-transformation. Thus, our findings indicate that differences in Myc protein phosphorylation modulate its biological activity in human breast epithelial cells and specifically that the T58A mutation can facilitate both cellular immortalization and transformation. Finally, we used the isogenic cell lines generated in this study to identify a subset of genes whose expression is greatly altered during the transition from the immortal to the anchorage-independent states.

Patterns of DNA copy number changes in sentinel lymph node breast cancer metastases

The sentinel lymph node (SLN) is considered to be the first axillary node that contains malignant cells in metastatic breast tumors, and its positivity is currently used in clinical practice as an indication for axillary lymph node dissection. Therefore, accurate evaluation of the SLN for the presence of breast metastatic cells is essential. The main aim of our study is to characterize the genomic changes present in the SLN metastatic samples with the ultimate goal of improving the predictive value of SLN evaluation. Twenty paired samples of SLN metastases and their corresponding primary breast tumors (PBT) were investigated for DNA copy number changes using comparative genomic hybridization (CGH). Non-random DNA copy number changes were observed in all the lesions analyzed, with gains being more common than losses. In 75% of the cases there was at least one change common to both PBT and SLN. The most frequent changes detected in both lesions were gains of 1pter→p32, 16, 17, 19, and 20 and losses of 6q13→q23 and 13q13→q32. In the PBT group, alterations on chromosomes 1, 16, and 20 were the most frequent, whereas chromosomes 1, 6, and 19 were the ones with the highest number of changes in the SLN metastatic group. A positive correlation was found between the DNA copy number changes per chromosome in each of the groups. Our findings indicate the presence of significant DNA copy number changes in the SLN metastatic lesions that could be used in the future as additional markers to improve the predictive value of SLN biopsy procedure.

Amplification of the BP1 homeobox gene in breast cancer

The homeobox gene BP1 is expressed in over 80% of breast cancers and is associated with tumor progression and invasion. However, the mechanism of BP1 activation in these tumors remains unknown. Therefore our aim in this study is to assess the amplification status of the BP1 gene in breast cancer and to determine whether BP1 protein expression is caused by gene amplification in these tumors. BP1 amplification and expression were assessed in 36 samples. Twenty primary breast tumors (PBT) and 14 sentinel lymph node (SLN) metastases were analyzed using fluorescence in situ hybridization (FISH) and immunohistochemistry (IHC), respectively. Because of the close proximity of BP1 and HER2/NEU genes on 17q, correlation between their amplification/expression was also investigated. Increased BP1 copy number was observed in 33% of the cases, with a frequency of 36% and 29% in the PBT and SLN metastasis, respectively. BP1 protein was expressed in 91% of the samples: in all of the PBT with increased BP1 copy number and 65% of PBT with normal copy number. HER2/NEU amplification was detected in 22% of the cases. Concordance between BP1 and HER2/NEU copy numbers was found in 68% of the PBT and 90% of the SLN metastasis. In conclusion, we demonstrated that the BP1 homeobox gene is amplified in breast cancer, both in PBT and SLN metastasis, with a significant correlation with HER2/NEU amplification. Considering that BP1 expression was observed in cases with both increased and normal BP1 copy number, we conclude that other mechanisms in addition to gene amplification play a role in BP1 protein expression.

Frequent Loss of the BLID Gene in Early-Onset Breast Cancer

The BH3-like motif-containing inducer of cell death (BLID) is an intronless gene localized on 11q24.1. Loss of that region has frequently been reported in early-onset breast cancer and is significantly associated with poor prognosis and reduced survival. Downregulation of BLID is associated with younger age, triple-negative phenotype, and reduced disease-free and overall survival of breast cancer patients. In this study, we investigated allelic loss of BLID in breast tumor specimens from 78 women with invasive breast cancer using 2 dinucleotide polymorphic markers closely linked to the BLID gene (no intragenic marker for BLID is available). Seventy-three cases were informative. Overall, loss of heterozygosity (LOH) at the BLID locus was detected in 32% of the informative cases (23/73). However, in patients 40 years old and younger, LOH was detected in 50% of the cases (9/18). Patients aged 40 years and younger were significantly more likely to experience LOH than those aged 41–55 years (p = 0.04). Specifically, the odds of BLID loss for patients aged 40 years and younger were 3.7 times the odds of loss for patients aged 41–55 years (95% CI, 1.1–13). Our findings suggest a tumor suppressor role of the BLID gene in early-onset breast cancer.