Sandra D. Bohling scite author profile

FoxP3 is a marker for immunosuppressive CD25 þ CD4 þ regulatory T cells. These regulatory T cells are thought to play a role in inducing immune tolerance to antigens and may be selectively recruited by carcinomas. We investigated whether breast carcinomas had significant numbers of FoxP3-positive regulatory T cells by immunohistochemistry, and if their presence was associated with other prognostic factors, such as Nottingham grade, hormone receptor immunohistochemical profile, tumor size, or lymph node metastases. Ninety-seven needle core or excisional breast biopsies with invasive breast carcinoma diagnosed at the University of Washington were stained with antibodies to FoxP3, estrogen receptor, and Her2/neu. The numbers of FoxP3-positive cells present within the neoplastic epithelium, and immediately adjacent stroma were counted manually in three high-powered fields (HPFs; Â 400) by two independent pathologists. The average scores were then correlated with the parameters of interest. A threshold of Z15 FoxP3-positive cells/HPF was used to define a FoxP3-positive case in some analyses. Higher average numbers of FoxP3-positive cells present significantly correlated with higher Nottingham grade status (P ¼ 0.000229). In addition, the presence of significant numbers (Z15/HPF) of FoxP3-positive cells in breast carcinoma was positively associated with higher Nottingham grade (P ¼ 0.00002585). Higher average numbers of FoxP3-positive cells were also significantly associated with larger tumor size (42.0 cm; P ¼ 0.012824) and trended toward an association with estrogen receptor negativity. Interestingly, 'triple-negative' (estrogen and progesterone receptor negative and Her2/neu negative) Nottingham grade III cases were also significantly associated with high numbers of FoxP3 cells. These results argue that regulatory T cells may play a role in inducing immune tolerance to higher grade, more aggressive breast carcinomas, and are a potential therapeutic target for these cancers.

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PCR Analysis of the Immunoglobulin Heavy Chain Gene in Polyclonal Processes Can Yield Pseudoclonal Bands as an Artifact of Low B Cell Number

Elenitoba-Johnson¹,

Bohling²,

Mitchell³

et al. 2000

The Journal of Molecular Diagnostics

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Polymerase chain reaction (PCR)-based analysis for detecting immunoglobulin heavy chain gene (IgH)rearrangements in lymphoproliferative disorders is well established. The presence of one or two discrete bands is interpreted as a monoclonal proliferation, whereas a smear pattern represents a polyclonal population. Prompted by our observation of discrete bands in histologically reactive processes with a relative paucity of B cells, we sought to determine whether low numbers of B cells in biopsy specimens could artifactually produce pseudomonoclonal bands. We performed IgH PCR analysis on serially diluted DNA samples from 5 B cell non-Hodgkin's lymphomas (B-NHLs), 5 reactive lymph nodes, 5 reactive tonsils and 10 microdissected germinal centers from a lymph node with follicular hyperplasia. We also assessed multiple aliquots of DNA samples from small biopsy specimens of reactive lymphocytic processes from the stomach (5 cases). PCR products were evaluated using high resolution agarose or polyacrylamide gels, and DNA sequencing was performed on IgH PCR products from two reactive germinal centers, which yielded monoclonal bands of identical size. The utility of molecular techniques such as Southern blot hybridization (SBH) analysis and polymerase chain reaction (PCR) in the assessment of clonality in lymphoproliferative disorders is well established. Although SBH is a fairly sensitive and specific method, its utility as a routine diagnostic tool is hampered by its requirement for high quality DNA, its labor-intensive nature, and its consequent long turnaround time. On the other hand, the rapid and less labor-intensive PCR continues to gain popularity as a technique for the assessment of clonality in lymphoproliferative disorders. 1,2 The results obtained with antigen receptor gene PCR correlate well with the results of SBH. [3][4][5] PCR-based assays have additional advantages over SBH analysis. PCR requires smaller quantities of DNA, and high molecular weight DNA is not necessary. Therefore, PCR has been applied to small biopsies and fixed paraffin-embedded tissues, which are generally unsuitable for SBH analysis. 6 PCR is extremely sensitive and can detect 1 positive cell in a background of 10 5 negative cells. Immunoglobulin heavy chain (IgH) PCR is capable of detecting 1 monoclonal B cell in a background of 10 2 to 10 3 polyclonal B cells. 7 The extreme sensitivity of PCR also constitutes a potential source for pitfalls in the interpretation of PCR-based antigen receptor gene rearrangement studies. Clearly, contamination is a frequent concern. Additionally, we have observed discrete bands in samples obtained from small biopsy specimens in which histological and immunophenotypic evaluation revealed a reactive process. We believe that the discrete bands generated in this situation are related to the paucity of B

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Validation of cDNA microarray gene expression data obtained from linearly amplified RNA

Jenson

Robetorye²,

Bohling

et al. 2003

Molecular Pathology

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Background: DNA microarray technology has permitted the analysis of global gene expression profiles for several diseases, including cancer. However, standard hybridisation and detection protocols require micrograms of mRNA for microarray analysis, limiting broader application of this technology to small excisional biopsies, needle biopsies, and/or microdissected tissue samples. Therefore, linear amplification protocols to increase the amount of RNA have been developed. The correlation between the results of microarray experiments derived from non-amplified RNA and amplified samples needs to be evaluated in detail. Methods: Total RNA was amplified and replicate hybridisation experiments were performed with linearly amplified (aRNA) and non-amplified mRNA from tonsillar B cells and the SUDHL-6 cell line using cDNA microarrays containing approximately 4500 genes. The results of microarray differential expression using either source of RNA (mRNA or aRNA) were also compared with those found using real time quantitative reverse transcription polymerase chain reaction (QRT-PCR). Results: Microarray experiments using aRNA generated reproducible data displaying only small differences to data obtained from non-amplified mRNA. The quality of the starting total RNA template and the concentration of the promoter primer used to synthesise cDNA were crucial components of the linear amplification reaction. Approximately 80% of selected upregulated and downregulated genes identified by microarray analysis using linearly amplified RNA were confirmed by QRT-PCR using non-amplified mRNA as the starting template. Conclusions: Linear RNA amplification methods can be used to generate high fidelity microarray expression data of comparable quality to data generated by microarray methods that use non-amplified mRNA samples.

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Sandra D. Bohling

Involvement of multiple signaling pathways in follicular lymphoma transformation: p38-mitogen-activated protein kinase as a target for therapy

Immunosuppressive regulatory T cells are associated with aggressive breast cancer phenotypes: a potential therapeutic target

PCR Analysis of the Immunoglobulin Heavy Chain Gene in Polyclonal Processes Can Yield Pseudoclonal Bands as an Artifact of Low B Cell Number

Validation of cDNA microarray gene expression data obtained from linearly amplified RNA

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