Sina Dorudi

Molecular quantification and mapping of lymph-node micrometastases in cervical cancer.

BACKGROUND A proportion of patients with cancer and lymph nodes negative on histology will develop recurrence. Reverse-transcriptase PCR (RT-PCR) is a highly sensitive method for detection of lymph-node micrometastases, but accurate quantitative assessment has been difficult. METHODS We studied primary tumours and 156 lymph nodes from 32 patients with cervical cancer (stage IA2, IB1, and IB2) and 32 lymph nodes from nine patients with benign disease. A fully quantitative, real-time RT-PCR assay was used to document absolute copy numbers of the epithelial marker cytokeratin 19. Primers and probe were designed not to amplify either of the two cytokeratin 19 pseudogenes. FINDINGS All primary tumours and histologically involved lymph nodes (six) had more than 106 copies of cytokeratin 19 mRNA per microg total RNA. Expression of cytokeratin 19 (up to 1.1 x 10(5) copies per microg RNA) was detected in 66 (44%) of 150 histologically uninvolved lymph nodes, and in nodes from 16 of 32 patients with cervical cancer. 15 of these 16 patients with evidence of micrometastases had the highest cytokeratin 19 transcription level in a first lymph-node drainage station (three obturator, six internal, and six external iliac node). Transcription of cytokeratin 19 was found at a low level in just one of 32 lymph nodes obtained from nine patients with benign disease. Median copy number of cytokeratin 19 transcription was significantly higher (>10(3) copies) in association with adverse prognostic features. INTERPRETATION The results suggest that about 50% of early-stage cervical cancers shed tumour cells to the pelvic lymph nodes. The amount of cytokeratin 19 expression was related to clinicopathological features. Further studies are required to document the clinical implications of molecular micrometastases.

Analysis of colorectal cancers in British Bangladeshi identifies early onset, frequent mucinous histotype and a high prevalence of RBFOX1 deletion.

BackgroundPrevalence of colorectal cancer (CRC) in the British Bangladeshi population (BAN) is low compared to British Caucasians (CAU). Genetic background may influence mutations and disease features.MethodsWe characterized the clinicopathological features of BAN CRCs and interrogated their genomes using mutation profiling and high-density single nucleotide polymorphism (SNP) arrays and compared findings to CAU CRCs.ResultsAge of onset of BAN CRC was significantly lower than for CAU patients (p=3.0 x 10-5) and this difference was not due to Lynch syndrome or the polyposis syndromes. KRAS mutations in BAN microsatellite stable (MSS) CRCs were comparatively rare (5.4%) compared to CAU MSS CRCs (25%; p=0.04), which correlates with the high percentage of mucinous histotype observed (31%) in the BAN samples. No BRAF mutations was seen in our BAN MSS CRCs (CAU CRCs, 12%; p=0.08). Array data revealed similar patterns of gains (chromosome 7 and 8q), losses (8p, 17p and 18q) and LOH (4q, 17p and 18q) in BAN and CAU CRCs. A small deletion on chromosome 16p13.2 involving the alternative splicing factor RBFOX1 only was found in significantly more BAN (50%) than CAU CRCs (15%) cases (p=0.04). Focal deletions targeting the 5’ end of the gene were also identified. Novel RBFOX1 mutations were found in CRC cell lines and tumours; mRNA and protein expression was reduced in tumours.ConclusionsKRAS mutations were rare in BAN MSS CRC and a mucinous histotype common. Loss of RBFOX1 may explain the anomalous splicing activity associated with CRC.

Colorectal cancers with microsatellite instability display mRNA expression signatures characteristic of increased immunogenicity

BackgroundColorectal cancers displaying high-degree microsatellite instability (MSI-H) have an improved prognosis compared to microsatellite stable (MSS) cancers. The observation of pronounced lymphocytic infiltrates suggests that MSI-H cancers are inherently more immunogenic. We aimed to compare the gene expression profiles of MSI-H and MSS cancers to provide evidence for an activated immune response in the former.ResultsWe analysed tissue from 133 colorectal cancer patients with full consent and Local Ethics Committee approval. Genomic DNA was analysed for microsatellite instability in BAT-26. High-quality RNA was used for microarray analysis on the Affymetrix® HG-U133A chip. Data was analysed on GeneSpring software version 6.0. Confirmatory real-time RT-PCR was performed on 28 MSI-H and 26 MSS cancers. A comparison of 29 MSI-H and 104 MSS cancers identified 2070 genes that were differentially expressed between the two groups [P < 0.005]. Significantly, many key immunomodulatory genes were up-regulated in MSI-H cancers. These included antigen chaperone molecules (HSP-70, HSP-110, Calreticulin, gp96), pro-inflammatory cytokines (Interleukin (IL)-18, IL-15, IL-8, IL-24, IL-7) and cytotoxic mediators (Granulysin, Granzyme A). Quantitative RT-PCR confirmed up-regulation of HSP-70 [P = 0.016], HSP-110 [P = 0.002], IL-18 [P = 0.004], IL-8 [0.002] and Granulysin [P < 0.0001].ConclusionsThe upregulation of a large number of genes implicated in immune response supports the theory that MSI-H cancers are immunogenic. The novel observation of Heat Shock Protein up-regulation in MSI-H cancer is highly significant in light of the recognised roles of these proteins in innate and antigen-specific immunogenicity. Increased mRNA levels of pro-inflammatory cytokines and cytotoxic mediators also indicate an activated anti-tumour immune response.

Expression of the Ca2+-activated chloride channel genes CLCA1 and CLCA2 is downregulated in human colorectal cancer.

The role of ion channels in carcinogenesis and tumor progression remains unclear. We have used suppression subtractive hybridization of mRNA from paired normal colon epithelium and tumor, followed by quantitative kinetic RT-PCR, to demonstrate that the transcription of two members of a novel Ca(2+)-dependent chloride channel family, CLCA1 and CLCA2, was significantly downregulated in approximately 80% of colorectal carcinomas. This figure rose to >90% when expression was adjusted for tumor cell proliferation. In normal colon epithelium, CLCA1 mRNA levels were significantly associated with c-myc transcription but became decoupled in the tumor samples. There was no association between CLCA2 and either CLCA1 or c-myc mRNA levels. Transcription of both genes in three colorectal cancer cell lines, T84, HT29, and Caco2, was barely detectable. Illegitimate transcription of CLCA1 was detected in 12 of 15 blood samples taken from healthy volunteers, making its use as a marker for the detection of tumor spread unreliable. Our results suggest that CLCA1 could specify a new tumor suppressor and that, as in breast cancer, CLCA2 may function as a tumor suppressor in colorectal cancer.

Quantification of cytokeratin 20, carcinoembryonic antigen and guanylyl cyclase C mRNA levels in lymph nodes may not predict treatment failure in colorectal cancer patients

Conventional histopathologic staging of primary colorectal cancers does not allow accurate prognostic stratification within a given tumour stage. Therefore, PCR‐based assays are increasingly used to try to predict more accurately the likelihood of disease progression for the individual patient. Real‐time reverse transcription PCR (RT‐PCR) assays were used to detect and quantitate cytokeratin 20 (ck20), carcinoembryonic antigen (CEA) and guanylyl cyclase C (GCC) mRNA in 149 lymph nodes (LN) from 17 patients with benign disease and 302 LN from 42 patients with colorectal cancer who had curative (R0) resections. None of the markers were specific, with ck20, CEA and GCC mRNA detected in 47%, 89% and 13% of 149 LN, respectively, from patients with benign disease. The sensitivity of all 3 markers was very high, with mRNA detected in 93%, 100% and 97% of 30 histologically involved LN, respectively. There was significant overlap in the mRNA levels of all 3 markers between histologically involved and uninvolved LN. There was no association between mRNA levels and distant recurrence (median follow‐up: 3.94 years, range 3.35–5.12). We conclude that the use of molecular techniques to detect occult disease in LN may suffer from the same limitations as conventional methods. Instead, accurate prognostic stratification requires careful assessment of the likely metastatic potential of the primary cancer.

Molecular assessment of tumour stage and disease recurrence using PCR-based assays

Solid cancers arise as a consequence of the accumulation of genetic and epigenetic alterations within a single cell or group of cells. Their ongoing characterization is providing a range of acid-based molecular markers for neoplasia. This, together with continuous refinements to the polymerase chain reaction (PCR), had led to the emergence of PCR-based assays as potential aids in the clinical management of cancer patients. Although the sensitivity of molecular diagnosis has the potential to aid clinicians in therapeutic decision making, problems with its specificity mean that the predictive value of molecular staging is still unproved. Its role in the identification of minimal residual disease after curative surgical resection requires clinical validation in further prospective studies.

The value of microarray techniques for quantitative gene profiling in molecular diagnostics

There has been an explosion of interest in microarray technologies that allow the quantification of whole-genome RNA expression data. The apparent correlation of expression profiles with clinically relevant parameters such as disease outcome has raised expectations with respect to the clinical usefulness of the data generated. Yet the accuracy and biological relevance of these data remain contentious, even in basic research applications. Therefore, numerous issues related to format, quality, validation and interpretation remain to be resolved before microarray profiling can become a diagnostic tool of clinical relevance for routine work.

Expression of 25-hydroxyvitamin D-1-α-hydroxylase mRNA in individuals with colorectal cancer

Summary Vitamin D prevents proliferation, promotes differentiation, and induces apoptosis of colon cells, and reduced intake or insufficiency of the vitamin in the body are associated with increased risk of colorectal cancer. Results of previous studies have suggested that mRNA that codes for 25-hydroxyvitamin D-1-α-hydroxylase (1αOHase), which converts 25-hydroxyvitamin D to its active metabolite, might be up regulated in human colon carcinomas. We used real-time reverse transcription PCR assays to measure absolute 1αOHase mRNA concentrations in the colonic mucosa of 44 individuals without cancer, and in paired healthy colon and cancerous colon samples taken from 27 individuals with the disease, to ascertain whether or not such up regulation takes place. Our results suggest that concentrations of 1αOHase mRNA In tumour samples and in healthy colon samples from Individuals without cancer are similar, but that concentrations are significantly lower in the paired, phenotypically healthy mucosa of individuals with cancer.

Local Expression of Insulin-Like Growth Factor-I Affects Angiogenesis in Colorectal Cancer

Insulin-like growth factor-I (IGF-I) has potent mitogenic and anti-apoptotic effects that give it a critical role in the regulation of rapidly renewing epithelial cell populations such as those found in the colon. Recent evidence has implicated circulating IGF-I levels as an important determinant of colorectal cancer risk, but the role, if any, of its autocrine/paracrine expression remains unexplored. Therefore, we investigated the local expression of IGF-I and IGF-I type I receptor (IGF-IR) in 50 paired normal colon and carcinoma samples. IGF-IR mRNA was present in all samples, whereas IGF-I mRNA was detected in only 30 normal (60%) and 27 tumour (54%) biopsies. Samples that did not express IGF-I mRNA had no IGF-I peptide detectable by immunocytochemistry. The absence of local IGF-1 expression was associated with significantly reduced mRNA levels specifying the proliferating cell nuclear antigen and c-myc, as well as Cox-2, and vascular endothelial growth factor – gene products that regulate angiogenesis. The biological relevance of this finding is suggested by the significant association between local IGF-I mRNA levels and microvessel density in the colorectal cancers.

A distinct DNA methylation profile associated with microsatellite and chromosomal stable sporadic colorectal cancers.

Aberrant DNA methylation, microsatellite instability (MSI) and chromosomal instability (CIN) are well‐characterised molecular features of sporadic colorectal cancers (CRCs). In addition to CpG island methylator phenotype (CIMP) associated with MSI, an intermediate methylation subgroup is also a feature of non‐MSI cancers. A large proportion of CRCs have no evidence of either MSI or CIN, here called Microsatellite and Chromosomal Stable (MACS), and require their methylation profile to be established. The clinical and molecular features of 170 sporadic CRC patients were investigated and stratified into MSI, CIN and MACS groups. MACS were most often found in the left colon and had a significantly lower BRAF mutation frequency (p < 0.001) compared with MSI. MACS had better survival [hazard ratio (HR) = 0.244, p = 0.017] compared with CIN, but were similar to MSI. The methylation status of 1,505 CpG loci from cancer‐related genes was analysed in a subset of CRCs (n = 44 normal–tumour pairs) and compared with CIN, MSI and MACS status. Using two‐way hierarchical clustering, three subgroups were identified, which associated with CIN, MSI and MACS status. Using significance analysis of microarray, 16 CpG loci demonstrating methylation changes associated with MACS were identified. A combination of six loci identified MACS with 81% sensitivity and 93% specificity. This result now requires independent validation. Hypomethylation of a CpG locus within the sonic hedgehog (SHH) promoter correlated with increased gene expression and was associated significantly with MACS cancers. In conclusion, we propose that MACS have distinct clinicopathological features and can be distinguished from other CRCs by a specific set of methylation loci.