One-Step Preservation of Phosphoproteins and Tissue Morphology at Room Temperature for Diagnostic and Research Specimens

Mueller, Claudius; Edmiston, Kirsten H.; Carpenter, Calvin; Gaffney, Eoin F.; Ryan, Ciara; Ward, Ronan; White, Susan; Memeo, Lorenzo; Colarossi, Cristina; Petricoin, Emanuel F.; Liotta, Lance A.; Espina, Virginia

doi:10.1371/journal.pone.0023780

Cited by 79 publications

(61 citation statements)

References 47 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Following procurement, the tissue is immediately subjected to induced stress and hypoxia and surges of wound repair related signal pathway proteins and transcription factors [67, 68]. Excised tissue is still considered a living cellular entity, and as such, it reacts to ex vivo trauma beginning with oxidative, hypoxic and metabolic stress, nutrient deprivation, wounding, finally resulting in cell death [41, 69, 70]. Consequently, phosphorylation activity of certain kinase substrates may increase due to the persistence of functional signaling, or activation by other stress-response signals [41, 69, 71].…”

Section: Tissue Microenvironment: a True Representation Of Diseasementioning

confidence: 99%

“…These new tissue fixatives are being incorporated and evaluated in large national biobanking efforts and specifically provide the molecular preservation equivalent to snap-frozen tissue, while retaining formalin-like histomorphologic details [41, 70]. There is a broad range of clinical assay variability, including pre-analytical and post-analytical events, which could potentially influence the final data output.…”

Section: Tissue Microenvironment: a True Representation Of Diseasementioning

confidence: 99%

“…There is a broad range of clinical assay variability, including pre-analytical and post-analytical events, which could potentially influence the final data output. The promise of tissue protein biomarkers to provide revolutionary diagnostic and therapeutic information will only be possible with the specific and rapid preservation of phosphoproteins at the time of excision, providing true information representative of the in vivo state of the signaling network within the tissue [70]. …”

Section: Tissue Microenvironment: a True Representation Of Diseasementioning

confidence: 99%

See 2 more Smart Citations

Reverse Phase Protein Arrays: Mapping the Path Towards Personalized Medicine

Gallagher

Espina

2014

Mol Diagn Ther

Self Cite

View full text Add to dashboard Cite

Reverse phase protein array (RPPA) technology evolved from the advent of miniaturized immunoassays and gene microarray technology. Reverse phase protein arrays provide either a low throughput or high throughput methodology for quantifying proteins and their post-translationally modified forms in both cellular and non-cellular samples. As the demand for patient tailored therapies increases so does the need for precise and sensitive technology to accurately profile the molecular circuitry driving an individual patient’s disease. RPPAs are currently utilized in clinical trials for profiling and comparing the functional state of protein signaling pathways, either temporally within tumors, between patients, or within the same patients before/after treatment. RPPAs are generally employed for quantifying large numbers of samples on one array, under identical experimental conditions. However, the goal of personalized cancer medicine is to design therapies based on the molecular portrait of a patient’s tumor, which in turn result in more efficacious treatments with less toxicity. Therefore, RPPAs are also being validated for low throughput assays of individual patient samples. This review explores reverse phase protein array technology in the cancer research field, concentrating on its role as a fundamental tool for deciphering protein signaling networks and its emerging role in personalized medicine.

show abstract

Section: Tissue Microenvironment: a True Representation Of Diseasementioning

confidence: 99%

Section: Tissue Microenvironment: a True Representation Of Diseasementioning

confidence: 99%

Section: Tissue Microenvironment: a True Representation Of Diseasementioning

confidence: 99%

See 1 more Smart Citation

Reverse Phase Protein Arrays: Mapping the Path Towards Personalized Medicine

Gallagher

Espina

2014

Mol Diagn Ther

Self Cite

View full text Add to dashboard Cite

show abstract

“…The workshop participants reached the consensus that the analysis of any proposed biomarker should be feasible using routine clinical materials (i.e., formalin- fixed, paraffin-embedded tissues; FFPE) with attention to new strategies for specimen collection, preservation, processing and analysis that minimize preanalytic confounders inherent to the processing of FFPE tissue [5–7]. These recommendations reflected several practical considerations including: 1) pre-therapy tumor is often sampled by transurethral resection (TUR) and tumor material may be limited and/or fully submitted for pathology diagnosis; 2) the volume of tumor remaining post-therapy may also be limited, especially if downstaging from prior treatment has occurred; and, 3) accurate biomarker comparisons require material to be available from patients both pre- and post-therapy which most commonly involves the use of FFPE material.…”

Section: Designing “Smart Trials” In Bladder Cancermentioning

confidence: 99%

Novel neoadjuvant therapy paradigms for bladder cancer: Results from the National Cancer Center Institute Forum

Dinney¹,

Hansel²,

McConkey³

et al. 2014

Urologic Oncology: Seminars and Original Investigations

View full text Add to dashboard Cite

Although bladder cancer (BC) is a significant health threat to the US population, integrated clinical and laboratory investigations of this disease lag behind those of other types of cancer. Advances in BC are especially challenged due in part to a general decreased level of funding over the past 5 years. It is ironic that despite the awareness that BC is the 5th most commonly diagnosed solid malignancy in the United States, and one of the most costly to treat, funding for this organ site lags far behind that of other less common malignancies. Moreover, BC offers several unique opportunities for translational research that make it an ideal candidate for investigation. One distinct advantage over other solid tumor sites is that urine and tissue are readily available for translational studies that can direct the development of novel therapy for this disease. The NCI sponsored “Novel Neoadjuvant Therapy for Bladder Cancer” forum held in brought leading clinical and laboratory-based scientists together with the advocacy community to lay the groundwork for collaborative discovery and translation. The goal of the meeting was to bridge the gaps in translational science and develop the concepts for two novel biomarker-driven clinical trials, one in the neoadjuvant presurgical setting and the other in the setting of bladder preservation with chemoradiation. The meeting provided a unique opportunity to launch a collective effort to establish molecular-based therapy for UC. Herein, we summarize the proceedings of this meeting, and the future plans resulting from this forum.

show abstract

“…9,10 Recently, a novel fixation method has been proposed for both histomorphology and phosphoprotein analysis. 11 If the tissue is not fixed chemically, it can be cryo-stabilized. Snapfreezing works quickly, but the cryogenic equipment needed to process and store the samples is expensive and not available in many clinical environments.…”

Section: Introductionmentioning

confidence: 99%

Combined Effect of Tissue Stabilization and Protein Extraction Methods on Phosphoprotein Analysis

Kofanova

Fack

Niclou

et al. 2013

Biopreservation and Biobanking

View full text Add to dashboard Cite

Preanalytical conditions applied during sample collection and processing can affect the detection or quantification of unstable phosphoprotein biomarkers. We evaluated the consequences of tissue stabilization and protein extraction methods on phosphoprotein analysis. The effects of stabilization techniques (heat stabilization, snap-freezing) and time on the levels of phosphoproteins, including phospho-Akt, p-ERK 1/2, p-IkBα, p-JNK, and p38 MAPK, were evaluated using a BioPlex phosphoprotein assay. Additionally, two different protein extraction protocols, using different extraction buffers (8 M urea buffer, or Bio-Rad buffer without urea) were tested. For snap-frozen samples, protein extraction yields were comparable with the two buffer systems. For heat-stabilized samples, total protein yields were significantly lower following extraction in non-urea buffer. However, the concentrations of specific phosphoproteins were significantly higher in heat-stabilized samples than in the corresponding snap-frozen samples, indicating that this tissue processing method better preserved phosphoproteins. Significant differences were found between the measured phosphoprotein levels in heat-stabilized and snap-frozen tissue, suggesting that alterations occur very rapidly after tissue excision. Our results suggest that heat stabilization can be used as a tissue processing method for subsequent phosphoprotein analyses, but also suggest that the BioPlex phosphoprotein assay could be used as a possible quality control method to assess tissue sample integrity.

show abstract

One-Step Preservation of Phosphoproteins and Tissue Morphology at Room Temperature for Diagnostic and Research Specimens

Cited by 79 publications

References 47 publications

Reverse Phase Protein Arrays: Mapping the Path Towards Personalized Medicine

Reverse Phase Protein Arrays: Mapping the Path Towards Personalized Medicine

Novel neoadjuvant therapy paradigms for bladder cancer: Results from the National Cancer Center Institute Forum

Combined Effect of Tissue Stabilization and Protein Extraction Methods on Phosphoprotein Analysis

Contact Info

Product

Resources

About