Your search keyword '"Eng, Jennifer"' showing total 2 results

1. Proteomics advances for precision therapy in ovarian cancer.

Author

Labrie M, Kendsersky ND, Ma H, Campbell L, Eng J, Chin K, and Mills GB

Subjects

DNA Copy Number Variations genetics, Female, Gene Expression Regulation, Neoplastic genetics, Humans, Mutation genetics, Mutation Rate, Ovarian Neoplasms drug therapy, Ovarian Neoplasms genetics, Proteome genetics, Proteomics

Abstract

Introduction : Due to the relatively low mutation rate and high frequency of copy number variation, finding actionable genetic drivers of high-grade serous carcinoma (HGSC) is a challenging task. Furthermore, emerging studies show that genetic alterations are frequently poorly represented at the protein level adding a layer of complexity. With improvements in large-scale proteomic technologies, proteomics studies have the potential to provide robust analysis of the pathways driving high HGSC behavior. Areas covered : This review summarizes recent large-scale proteomics findings across adequately sized ovarian cancer sample sets. Key words combined with 'ovarian cancer' including 'proteomics', 'proteogenomic', 'reverse-phase protein array', 'mass spectrometry', and 'adaptive response', were used to search PubMed. Expert opinion : Proteomics analysis of HGSC as well as their adaptive responses to therapy can uncover new therapeutic liabilities, which can reduce the emergence of drug resistance and potentially improve patient outcomes. There is a pressing need to better understand how the genomic and epigenomic heterogeneity intrinsic to ovarian cancer is reflected at the protein level and how this information could be used to improve patient outcomes.

Published

2019

2. Oligonucleotide conjugated antibody strategies for cyclic immunostaining.

Author

Jones, Jocelyn A., McMahon, Nathan P., Zheng, Ting, Eng, Jennifer, Chin, Koei, Kwon, Sunjong, Nederlof, Michel A., Gray, Joe W., and Gibbs, Summer L.

Subjects

IMMUNOSTAINING, IMMUNOGLOBULINS, OLIGONUCLEOTIDES, IMMUNOFLUORESCENCE, PROTEOMICS, FLUORESCENCE

Abstract

A number of highly multiplexed immunostaining and imaging methods have advanced spatial proteomics of cancer for improved treatment strategies. While a variety of methods have been developed, the most widely used methods are limited by harmful signal removal techniques, difficulties with reagent production and antigen sensitivity. Multiplexed immunostaining employing oligonucleotide (oligos)-barcoded antibodies is an alternative approach that is growing in popularity. However, challenges remain in consistent conjugation of oligos to antibodies with maintained antigenicity as well as non-destructive, robust and cost-effective signal removal methods. Herein, a variety of oligo conjugation and signal removal methods were evaluated in the development of a robust oligo conjugated antibody cyclic immunofluorescence (Ab-oligo cyCIF) methodology. Both non- and site-specific conjugation strategies were assessed to label antibodies, where site-specific conjugation resulted in higher retained binding affinity and antigen-specific staining. A variety of fluorescence signal removal methods were also evaluated, where incorporation of a photocleavable link (PCL) resulted in full fluorescence signal removal with minimal tissue disruption. In summary, this work resulted in an optimized Ab-oligo cyCIF platform capable of generating high dimensional images to characterize the spatial proteomics of the hallmarks of cancer. [ABSTRACT FROM AUTHOR]

Published

2021