Optimizing pre-analytic sample handling for high throughput TCR sequencing in cutaneous T cell lymphoma
Brigham And Women'S Hospital, Boston MA
Investigators
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Abstract
ABSTRACT AND SPECIFIC AIMS Formalin fixation is a common method used to preserve skin biopsies in both clinical practice and clinical trials. Formalin-fixed, paraffin-embedded (FFPE) tissues have excellent tissue morphology, but DNA and RNA are degraded by formalin fixation 1 . High throughput sequencing of the rearranged T cell receptor genes (HTS) has transformed the diagnosis, care and assessment of therapeutic responses in patients with cutaneous T cell lymphoma (CTCL)2-5. HTS results are highly reproducible in frozen CTCL skin biopsies but the formalin used to preserve skin biopsies in many clinical trials degrades DNA and affects HTS measurements, potentially causing errors in patient diagnosis, assessment of responses and choices of therapy. The overarching goal of the funded parent U01 grant is to identify a single uniform optimal tissue processing approach for small skin biopsies to study CTCL that will give accurate and reproducible DNA, RNA and protein measurements, maintain excellent histology, and preserve remaining tissue for future measurement of emerging biomarkers. Hypothesis: Non-cross-linking tissue fixatives will maintain nucleic acid and protein integrity without sacrificing histopathologic quality and quantitative corrections for DNA degradation in banked formalin-fixed specimens will allow accurate HTS measurements in existing skin biopsies from patients with CTCL.
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