Characterization of Genetic Alterations in Ovarian Cancer

Ovarian cancer (OC) is the most lethal gynecologic malignancy and in-time diagnosis is limited because of the absence of effective biomarkers. Germline BRCA1/2 genetic alterations are risk factors for hereditary OC; risk-reducing salpingo-oophorectomy (RRSO) is pursued for disease prevention. However, not all healthy carriers develop the disease. Therefore, identifying predictive markers in the BRCA1/2 carrier population could help improve the identification of candidates for preventive RRSO. In this study, plasma samples from 20 OC patients (10 patients with BRCA1/2 wild type (wt) and 10 with the BRCA1/2 variant (var)) and 20 normal subjects (10 subjects with BRCA1/2wt and 10 with BRCA1/2var) were analyzed for potential biomarkers of hereditary OC. We applied a bottom-up proteomics approach, using nano-flow LC-MS to analyze depleted plasma proteome quantitatively, and potential plasma protein markers specific to the BRCA1/2 variant were identified from a comparative statistical analysis of the four groups. We obtained 1505 protein candidates from the 40 subjects, and SPARC and THBS1 were verified by enzyme-linked immunosorbent assay. Plasma SPARC and THBS1 concentrations in healthy BRCA1/2 carriers were found to be lower than in OC patients with BRCA1/2var. If plasma SPARC concentrations increase over 337.35 ng/ml or plasma THBS1 concentrations increase over 65.28 mg/ml in a healthy BRCA1/2 carrier, oophorectomy may be suggested.

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Copy Number Variation and Rearrangements Assessment in Cancer: Comparison of Droplet Digital PCR with the Current Approaches

International Journal of Molecular Sciences ◽

10.3390/ijms22094732 ◽

2021 ◽

Vol 22 (9) ◽

pp. 4732

Author(s):

Vincenza Ylenia Cusenza ◽

Alessandra Bisagni ◽

Monia Rinaldini ◽

Chiara Cattani ◽

Raffaele Frazzi

Keyword(s):

Digital Pcr ◽

Genetic Alterations ◽

Droplet Digital Pcr ◽

Molecular Oncology ◽

Therapeutic Choice ◽

Golden Standard ◽

Number Variation ◽

Key Aspects

The cytogenetic and molecular assessment of deletions, amplifications and rearrangements are key aspects in the diagnosis and therapy of cancer. Not only the initial evaluation and classification of the disease, but also the follow-up of the tumor rely on these laboratory approaches. The therapeutic choice can be guided by the results of the laboratory testing. Genetic deletions and/or amplifications directly affect the susceptibility or the resistance to specific therapies. In an era of personalized medicine, the correct and reliable molecular characterization of the disease, also during the therapeutic path, acquires a pivotal role. Molecular assays like multiplex ligation-dependent probe amplification and droplet digital PCR represent exceptional tools for a sensitive and reliable detection of genetic alterations and deserve a role in molecular oncology. In this manuscript we provide a technical comparison of these two approaches with the golden standard represented by fluorescence in situ hybridization. We also describe some relevant targets currently evaluated with these techniques in solid and hematologic tumors.

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Graphene, an Interesting Nanocarbon Allotrope for Biosensing Applications: Advances, Insights, and Prospects

Biomedical Engineering and Computational Biology ◽

10.1177/1179597220983821 ◽

2021 ◽

Vol 12 ◽

pp. 117959722098382

Author(s):

Farid Menaa ◽

Yazdian Fatemeh ◽

Sandeep K Vashist ◽

Haroon Iqbal ◽

Olga N Sharts ◽

...

Keyword(s):

Cost Effective ◽

Genetic Alterations ◽

Multiplex Detection ◽

Quantitative Characterization ◽

Disease Biomarkers ◽

Qualitative And Quantitative ◽

Sensing Systems ◽

Doped Graphene ◽

Bioanalytical Applications

Graphene, a relatively new two-dimensional (2D) nanomaterial, possesses unique structure (e.g. lighter, harder, and more flexible than steel) and tunable physicochemical (e.g. electronical, optical) properties with potentially wide eco-friendly and cost-effective usage in biosensing. Furthermore, graphene-related nanomaterials (e.g. graphene oxide, doped graphene, carbon nanotubes) have inculcated tremendous interest among scientists and industrials for the development of innovative biosensing platforms, such as arrays, sequencers and other nanooptical/biophotonic sensing systems (e.g. FET, FRET, CRET, GERS). Indeed, combinatorial functionalization approaches are constantly improving the overall properties of graphene, such as its sensitivity, stability, specificity, selectivity, and response for potential bioanalytical applications. These include real-time multiplex detection, tracking, qualitative, and quantitative characterization of molecules (i.e. analytes [H2O2, urea, nitrite, ATP or NADH]; ions [Hg2+, Pb2+, or Cu2+]; biomolecules (DNA, iRNA, peptides, proteins, vitamins or glucose; disease biomarkers such as genetic alterations in BRCA1, p53) and cells (cancer cells, stem cells, bacteria, or viruses). However, there is still a paucity of comparative reports that critically evaluate the relative toxicity of carbon nanoallotropes in humans. This manuscript comprehensively reviews the biosensing applications of graphene and its derivatives (i.e. GO and rGO). Prospects and challenges are also introduced.

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Characterization of genetic alterations in biopsy material from oral squamous cell carcinomas and precursor lesions studied by comparative genomic hybridization

Journal of Cranio-Maxillofacial Surgery ◽

10.1016/s1010-5182(96)80694-9 ◽

1996 ◽

Vol 24 ◽

pp. 152

Keyword(s):

Comparative Genomic Hybridization ◽

Squamous Cell ◽

Genetic Alterations ◽

Squamous Cell Carcinomas ◽

Comparative Genomic ◽

Precursor Lesions ◽

Genomic Hybridization ◽

Biopsy Material ◽

Oral Squamous Cell Carcinomas

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