Distinct genetic aberrations in oesophageal adeno and squamous carcinoma

BACKGROUND

The two main oesophageal cancer subtypes namely adenocarcinoma and squamous cell carcinoma exhibit interesting clinical, pathological and geographical variations with the former being more common in the West and the latter in Asia.

MATERIALS AND METHODS

We evaluated status of p53, EGFR, Wnt and HPV in addition to microsatellite instability and loss of heterozygosity of several chromosomal loci in the two oesophageal cancer subtypes from India. The comparative analysis was extended to two oesophageal adenosquamous mixed cancer samples.

RESULTS

Our results reveal a high frequency of EGFR overexpression in ESCC as against EAC, while Wnt activation was a significantly more common event in EAC as against ESCC. Frequencies of p53 perturbations were not significantly different in the two subtypes. Interestingly, the EGFR and Wnt status in adenocarcinoma and squamous components of the two oesophageal adenosquamous cancer samples were identical to primary tumours. In addition, no common molecular aberration (including instability and loss of heterozygosity) in several microsatellites was detected in DNA isolated from the two components in both adenosquamous cancer samples.

CONCLUSIONS

Our results reveal the presence of distinct aberrations in oesophageal adenocarcinoma and squamous cell carcinoma which are replicated in the respective components of adenosquamous cancers. The study therefore suggests perhaps an independent origin of the two components of oesophageal adenosquamous mixed cancer.

Abstract 1198: Presence of non-canonical tumorigenesis pathways in early-onset sporadic rectal cancer

Chromosomal instability (CIN) caused by β-Catenin dependent aberrant activation of canonical Wnt signaling or Microsatellite instability (MSI) triggered by inactivation of mismatch repair (MMR) pathway, are the two major genetic instability pathways that drive classical age-related sporadic colorectal cancer (CRC). Activation of canonical Wnt signaling and MSI are primary tumor initiating events in about 80% and 15% of late-onset CRC cases, respectively. Canonical Wnt signaling is also reported as a secondary event in tumors primarily driven by MSI. These inferences are based on seminal studies that included a disproportionately greater number of colon tumors (as compared to rectal tumors). Recent genome-wide studies have suggested colon and rectal cancer to be a single entity, though several other studies appear to indicate otherwise. Exclusive studies on rectal cancer (RC), especially the early-onset sporadic subtype, have been fewer. Despite a recent trend of increased worldwide incidence, early-onset sporadic rectal cancer (EOSRC) is not well understood. We profiled canonical Wnt, KRAS and p53 (components of the classical colorectal carcinoma progression model) and MSI status in a panel of 298 colorectal cancer samples. 41% of EOSRC samples did not harbor Wnt or MSI pathways; the high proportion of a ‘double negative’ entity was neither identified in late-onset RC samples nor in colon cancer samples. KRAS mutation frequency was also significantly lower in EOSRC (24%). Since CIN is a hallmark of canonical Wnt activation driven CRC, we profiled genome-wide DNA copy number alterations (CNAs) in microsatellite stable EOSRC samples and surprisingly identified extensive chromosomal aberrations in both Wnt active and Wnt inactive subtypes suggesting the interesting possibility of presence of CIN in the absence of canonical Wnt activation. Several CNAs were detected exclusively in Wnt inactive samples (being absent in Wnt active samples) and were validated by quantitative PCR. As expected, a few CNAs, such as an amplification detected at 17q12 (ERBB2/GRB7), were present in both subtypes. Genome-wide transcript profiling performed in parallel revealed the elevated expression of genes located within the amplifications, validated by quantitative reverse transcription PCR (Q-RT-PCR). More importantly, aberrant activation of non-canonical signaling pathways was identified in a subset of the ‘double negative’ EOSRC samples, based on unsupervised (hierarchical clustering) and supervised (significance analysis of microarrays and gene set enrichment analysis) analyses of the transcriptome data. Elevation of non-canonical pathway gene transcripts was confirmed by Q-RT-PCR. Our study has therefore revealed presence of unique tumorigenesis pathways in EOSRC samples distinct from canonical pathways that drive late-onset CRC.

Citation Format: Ratheesh Raman, Viswakalyan Kotapalli, Raju SR Adduri, Vasantha Kumar Bhaskara, Swarnalata Gowrishankar, Leena Bashyam, Ajay Chaudhary, Mohana Vamsy Chigurupati, Sujith Patnaik, Mukta Srinivasulu, Regulagadda Sastry, Subramanyeshwar Rao, Anjayneyulu Vasala, NarasimhaRaju Kalidindi, Jonathan Pollack, Sudha Murthy, Murali D. Bashyam. Presence of non-canonical tumorigenesis pathways in early-onset sporadic rectal cancer. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 1198. doi:10.1158/1538-7445.AM2013-1198

Evidence for possible non-canonical pathway(s) driven early-onset colorectal cancer in India

Two genetic instability pathways viz. chromosomal instability, driven primarily by APC mutation induced deregulated Wnt signaling, and microsatellite instability (MSI) caused by mismatch repair (MMR) inactivation, together account for >90% of late-onset colorectal cancer (CRC). Our understanding of early-onset sporadic CRC is however comparatively limited. In addition, most seminal studies have been performed in the western population and analyses of tumorigenesis pathway(s) causing CRC in developing nations have been rare. We performed a comparative analysis of early and late-onset CRC from India with respect to common genetic aberrations including Wnt, KRAS, and p53 (constituting the classical CRC progression sequence) in addition to MSI. Our results revealed the absence of Wnt and MSI in a significant proportion of early-onset as against late-onset CRC in India. In addition, KRAS mutation frequency was significantly lower in early-onset CRC indicating that a significant proportion of CRC in India may follow tumorigenesis pathways distinct from the classical CRC progression sequence. Our study has therefore revealed the possible existence of non-canonical tumorigenesis pathways in early-onset CRC in India.

Genetic and biochemical characterization of the Lactobacillus delbrueckii subsp. lactis bacteriophage LL-H lysin

LL-H, a virulent phage of Lactobacillus delbrueckii subsp. lactis, produces a peptidoglycan-degrading enzyme, Mur, that is effective on L. delbrueckii, Lactobacillus acidophilus, Lactobacillus helveticus, and Pediococcus damnosus cell walls. In this study, the LL-H gene mur was cloned into Escherichia coli, its nucleotide sequence was determined, and the enzyme produced in E. coli was purified and biochemically characterized. Mur was purified 112-fold by means of ammonium sulfate precipitation and cation-exchange chromatography. The cell wall-hydrolyzing activity was found to be associated with a 34-kDa protein. The C-terminal domain of Mur is not essential for catalytic activity since it can be removed without destroying the lytic activity. The N-terminal sequence of the purified lysin was identical to that deduced from the nucleotide sequence, but the first methionine is absent from the mature protein. The N-terminal part of this 297-amino-acid protein had homology with several Chalaropsis-type lysozymes. Reduction of purified and Mur-digested L. delbrueckii cell wall material with labeled NaB3H4 indicated that the enzyme is a muramidase. The temperature optimum of purified Mur is between 30 and 40 degrees C, and the pH optimum is around 5.0. The LL-H lysin Mur is stable at temperatures below 60 degrees C.

Molecular comparison of the structural proteins encoding gene clusters of two related Lactobacillus delbrueckii bacteriophages

Virulent phage LL-H and temperate phage mv4 are two related bacteriophages of Lactobacillus delbrueckii. The gene clusters encoding structural proteins of these two phages have been sequenced and further analyzed. Six open reading frames (ORF-1 to ORF-6) were detected. Protein sequencing and Western immunoblotting experiments confirmed that ORF-3 (g34) encoded the main capsid protein Gp34. The presence of a putative late promoter in front of the phage LL-H g34 gene was suggested by primer extension experiments. Comparative sequence analysis between phage LL-H and phage mv4 revealed striking similarities in the structure and organization of this gene cluster, suggesting that the genes encoding phage structural proteins belong to a highly conservative module.