A multiplex tissue immunoblotting assay for proteomic profiling: a pilot study of the normal to tumor transition of esophageal squamous cell carcinoma.

Esophageal cancer remains a highly lethal malignancy for which the genetic and proteomic events are poorly understood. Studies have reported dysregulated proteins in esophageal carcinoma; however, the magnitude of these changes remains largely uncharacterized. Little is known about alterations early in the neoplastic pathway. Using multiplex tissue immunoblotting, we quantified the expression of seven proteins in esophageal carcinogenesis. Regions of normal, dysplasia, and invasive carcinoma of the squamous esophagus in six patients were characterized. Pan-cytokeratin (CK) was essentially unchanged across the transition (0.96 in dysplasia and 0.69 in tumor). Expression levels of annexin 1, CK-4, and CK-14 were all decreased in dysplasia and tumor compared with normal (reference, 1.00): annexin 1, 0.30 in dysplasia and 0.15 in tumor; CK-4, 0.20 in dysplasia and 0.16 in tumor; and CK-14, 0.54 in dysplasia and 0.40 in tumor. Expression of two proteins was increased in dysplasia and tumor versus normal: cyclooxygenase-2, 1.35 in dysplasia and 2.32 in tumor and p53, 1.29 in dysplasia and 2.37 in tumor. Secreted protein, acidic and rich in cysteine, which is expressed in the adjacent stroma, was 1.56-fold higher in stroma underlying dysplasia and 6.20-fold increased in dysplastic stroma surrounding invasive tumor. These findings suggest that changes in protein expression can be detected during the transition to dysplasia and may be useful biomarkers.

Profiling EGFR activity in head and neck squamous cell carcinoma by using a novel layered membrane Western blot technology.

Given the role of epidermal growth factor receptor (EGFR) in head and neck squamous cell carcinomas (HNSCC), several rational approaches have now been utilized to abrogate tyrosine kinase activity and its disengagement from downstream signal transducers. Monitoring the activity of these molecules could potentially be useful to determine not only drug efficacy but also to identify HNSCC patients most likely to benefit from this type of therapy. In this study we have used a novel high throughput multi-layered Western blotting (MLWestern) method that allows the detection of multiple proteins from a single experiment in order to characterize key components in the EGFR signaling pathway in HNSCC cells. Total and activated forms of EGFR and the downstream effectors, Erk and Akt were readily detected in HNSCC cells, where in the control cells (HaCaT) these proteins could only be detected in EGF stimulated cells. Results from conventional Western blot and MLWestern were comparable. Clustering analysis of protein expression revealed similarities in cellular response between some of the cell lines indicative of similarities in their biological response. The data indicate that MLWestern can be potentially applied to identify molecular targets that could be used for rational therapeutic intervention strategies.

Multimembrane dot-blotting: a cost-effective tool for proteome analysis.

The molecular profiles of protein expression from hundreds of cell lysates can be determined in a high-throughput manner by using fluorescent bead technologies, enzyme-linked immunosorbent assays (ELISAs), and protein microarrays. Although powerful, these tools are costly and technically challenging and thus have limited accessibility for many research groups. We propose a modification of traditional dot blotting that increases throughput of this approach and provides a simple and cost-effective technique for profiling multiple samples. In contrast to traditional blotting that uses a single membrane, we introduce blotting onto a stack of novel, thin, sieve-like membranes. These membranes have a high affinity for binding proteins, but have a lower capacity of protein binding compared to traditional (nitrocellulose) membranes. We compare the linear binding capacity and variability of these novel membranes with nitrocellulose membranes. Also, we describe the use of these membranes in a multilayer dot blot format for profiling mitogen-mediated signal transduction pathways in T cells.

A well-based reverse-phase protein array applicable to extracts from formalin-fixed paraffin-embedded tissue.

Proteomic analysis of formalin-fixed paraffin-embedded (FFPE) tissue offers significant diagnostic utility but is complicated due to the high level of covalently crosslinked proteins arising from formalin fixation. To address these challenges, we developed a reliable protein extraction method for FFPE tissue, based on heat-induced antigen retrieval within a pressure cooker. The protein extraction yield from archival FFPE tissue section is approximately 90% of that recovered from frozen tissue. This method demonstrates preservation of immunoreactivity and recovery of full-length proteins by Western blotting. Additionally, we developed a well-based RP protein array platform utilizing an electrochemiluminescence detection system. Protein samples derived from FFPE tissue by means of laser capture dissection, with as few as 500 shots demonstrate measurable signal differences for different proteins. The lysates coated to the array plate, remain stable over 1 month at room temperature. Theses data suggest that this new protein-profiling platform coupled with the protein extraction method can be used for molecular profiling analysis in FFPE tissue, and contribute to the validation and development of biomarkers in clinical studies.

Expression of EIF3-p48/INT6, TID1 and Patched in cancer, a profiling of multiple tumor types and correlation of expression.

Alterations in eIF3-p48/INT6 gene expression have been implicated in murine and human mammary carcinogenesis. We examined levels of INT6 protein in human tumors and determined that breast and colon tumors clustered into distinct groups based on levels of INT6 expression and clinicopathological variables. We performed multiplex tissue immunoblotting of breast, colon, lung, and ovarian tumor tissues and found that INT6 protein levels positively correlated with those of TID1, Patched, p53, c-Jun, and phosphorylated-c-Jun proteins in a tissue-specific manner. INT6 and TID1 showed significant positive correlation in all tissue types tested. These findings were confirmed by immunohistochemical staining of INT6 and TID1. Further evidence supporting a cooperative role for INT6 and TID1 is the presence of endogenous INT6 and TID1 proteins as complexes. We detected co-immunoprecipitation between INT6 and TID1, as well as between INT6 and Patched. These findings suggest potential integrated roles for INT6, TID1, and Patched proteins in cell growth, development, and tumorigenesis. Additionally, these data suggest that the combination of INT6, TID1, and Patched protein levels may be useful biomarkers for the development of diagnostic assays.

Novel application of layered expression scanning for proteomic profiling of plucked hair follicles.

BACKGROUND: There is a need for a technology that can quantitatively assay multiple proteins from a single hair follicle while preserving the morphology of the follicle. For proteomic profiling, the technology should be less labor intensive, with a higher throughput, more quantitative and more reproducible than immunohistochemistry. OBJECTIVE: To test the ability of a novel method, layered expression scanning of hair (LES-hair) to detect the levels and localization of proteins in plucked hair follicles. METHODS: LES-hair was used to assay proteins in the plucked hair follicle. RESULTS: LES-hair detected differential expression of proteins within discrete regions of the plucked hair follicle. These proteins included cleaved caspase 3, Ki-67 and the phosphorylated forms of c-Kit, epidermal growth factor receptor and vascular endothelial growth factor receptor. CONCLUSION: LES-hair provides a research tool for studying the basic biology of plucked hair follicles and has potential clinical applications such as monitoring treatment of alopecia or using plucked hair follicles as a surrogate tissue to monitor pharmacodynamic effects of targeted cancer therapies.

Reconstitution of TGF-beta sensitivity in the VACO-411 human colon carcinoma line by somatic cell fusion with MCF-7.

We characterized the mechanism of transforming growth factor beta (TGF-beta) resistance in the VACO-411 human colon carcinoma line. VACO-411 is unique for several reasons, including having a novel mutator phenotype and wild-type p53. Like many colon tumors, VACO-411 is not growth inhibited by TGF-beta. However, VACO-411 represents a subset of colon tumors that are resistant to TGF-beta-mediated growth inhibition, despite the expression of functional TGF-beta receptors. VACO-411 expresses cell surface TGF-beta receptor types I and II, and the coding regions of these receptors are wild type. To further characterize the nature of the VACO-411 defect, we fused VACO-411 with the human breast carcinoma line MCF-7. MCF-7 is also resistant to TGF-beta-mediated growth inhibition. However, unlike VACO-411, MCF-7 lacks cell surface expression of TGF-beta receptor type II, but does contain an intact postreceptor signaling pathway, as shown by regeneration of TGF-beta sensitivity following wild-type TGF-beta receptor type II transfection. In contrast to parental VACO-411 and MCF-7, the morphologically distinct cell hybrids were growth inhibited by TGF-beta. Therefore, the TGF-beta defect in VACO-411 is a postreceptor, loss-of-function mutation which can be genetically complemented. The data suggest that the VACO-411 defect in TGF-beta signaling will be able to be further complemented by microcell-mediated chromosome transfer.

Profiling the expression of mitogen-induced T-cell proteins by using multi-membrane dot-blotting.

High throughput technologies are standard methods for analysis of the proteome. Multi-layer multi-well plate dot-blotting system (MLDot) technology is a high-throughput dot blotting system that provides a simple, cost-effective approach for protein expression profiling in multiple samples. In contrast to traditional dot blot, MLDot uses a layered stack of thin, sieve-like membranes in place of a single nitrocellulose membrane. Therefore, up to 10 membranes can be prepared from the samples arrayed in a single 96-well plate. We describe the ability of MLDot to detect the predicted changes in protein expression following multiple mitogen treatment of T-cells. We compare the levels of the phopshorylated forms of CREB, Jun, and Akt in Jurkat T-cells as detected by MLDot to those measured by a gel-based assay. We also describe the ability of MLDot to detect differences in the levels of phosphorylated Akt in Jurkat cells as compared to primary lymphocytes.

Characterization of the human polymeric immunoglobulin receptor (PIGR) 3'UTR and differential expression of PIGR mRNA during colon tumorigenesis.

The human cell lines VACO-235 and VACO-411 constitute a novel in vitro model of colon adenoma to carcinoma progression. By differential display RT-PCR we identified a transcript that is expressed in the parental nontumorigenic adenoma line (VACO-235E), but is not expressed in the tumorigenic daughter (VACO-235L) or granddaughter (VACO-411) lines. This cDNA represents a previously uncharacterized portion of the 3'UTR of human PIGR. Human PIGR mRNA was found to be highly expressed in normal colon epithelium, but was decreased in 6 of 8 colon tumors and was negligible in 8 of 10 colon tumor cell lines. We sequenced the entire 1.8 kb 3'UTR of human PIGR, and found it to contain multiple repetitive elements as well as elements that could affect the processing and stability of PIGR mRNA. We hypothesize that differential regulation of PIGR mRNA stability may contribute to its downregulation in colon cancer.