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Integrative and Comprehensive Pancancer Analysis of Regulator of Chromatin Condensation 1 (RCC1)Wu, Changwu, Duan, Yingjuan, Gong, Siming, Kallendrusch, Sonja, Schopow, Nikolas, Osterhoff, Georg 11 December 2023 (has links)
Regulator of Chromatin Condensation 1 (RCC1) is the only known guanine nucleotide
exchange factor that acts on the Ras-like G protein Ran and plays a key role in cell cycle regulation.
Although there is growing evidence to support the relationship between RCC1 and cancer, detailed
pancancer analyses have not yet been performed. In this genome database study, based on The
Cancer Genome Atlas, Genotype-Tissue Expression and Gene Expression Omnibus databases, the
potential role of RCC1 in 33 tumors’ entities was explored. The results show that RCC1 is highly
expressed in most human malignant neoplasms in contrast to healthy tissues. RCC1 expression is
closely related to the prognosis of a broad variety of tumor patients. Enrichment analysis showed
that some tumor-related pathways such as “cell cycle” and “RNA transport” were involved in the
functional mechanism of RCC1. In particular, the conducted analysis reveals the relation of RCC1
to multiple immune checkpoint genes and suggests that the regulation of RCC1 is closely related
to tumor infiltration of cancer-associated fibroblasts and CD8+ T cells. Coherent data demonstrate
the association of RCC1 with the tumor mutation burden and microsatellite instability in various
tumors. These findings provide new insights into the role of RCC1 in oncogenesis and tumor
immunology in various tumors and indicate its potential as marker for therapy prognosis and
targeted treatment strategies.
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Genetic and Methylation Analysis of CTNNB1 in Benign and Malignant Melanocytic LesionsZaremba, Anne, Jansen, Philipp, Murali, Rajmohan, Mayakonda, Anand, Riedel, Anna, Krahl, Dieter, Burkhardt, Hans, John, Stefan, Géraud, Cyrill, Philip, Manuel, Kretz, Julia, Möller, Inga, Stadtler, Nadine, Sucker, Antje, Paschen, Annette, Ugurel, Selma, Zimmer, Lisa, Livingstone, Elisabeth, Horn, Susanne, Plass, Christoph, Schadendorf, Dirk, Hadaschik, Eva, Lutsik, Pavlo, Griewank, Klaus 05 December 2023 (has links)
Melanocytic neoplasms have been genetically characterized in detail during the last decade.
Recurrent CTNNB1 exon 3 mutations have been recognized in the distinct group of melanocytic
tumors showing deep penetrating nevus-like morphology. In addition, they have been identified
in 1–2% of advanced melanoma. Performing a detailed genetic analysis of difficult-to-classify nevi
and melanomas with CTNNB1 mutations, we found that benign tumors (nevi) show characteristic morphological, genetic and epigenetic traits, which distinguish them from other nevi and
melanoma. Malignant CTNNB1-mutant tumors (melanomas) demonstrated a different genetic profile,
instead grouping clearly with other non-CTNNB1 melanomas in methylation assays. To further
evaluate the role of CTNNB1 mutations in melanoma, we assessed a large cohort of clinically sequenced melanomas, identifying 38 tumors with CTNNB1 exon 3 mutations, including recurrent S45
(n = 13, 34%), G34 (n = 5, 13%), and S27 (n = 5, 13%) mutations. Locations and histological subtype of
CTNNB1-mutated melanoma varied; none were reported as showing deep penetrating nevus-like
morphology. The most frequent concurrent activating mutations were BRAF V600 (n = 21, 55%) and
NRAS Q61 (n = 13, 34%). In our cohort, four of seven (58%) and one of nine (11%) patients treated with targeted therapy (BRAF and MEK Inhibitors) or immune-checkpoint therapy, respectively, showed
disease control (partial response or stable disease). In summary, CTNNB1 mutations are associated
with a unique melanocytic tumor type in benign tumors (nevi), which can be applied in a diagnostic
setting. In advanced disease, no clear characteristics distinguishing CTNNB1-mutant from other
melanomas were observed; however, studies of larger, optimally prospective, cohorts are warranted.
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Critical Investigation of the Usability of Hepatoma Cell Lines HepG2 and Huh7 as Models for the Metabolic Representation of Resectable Hepatocellular CarcinomaSchicht, Gerda, Seidemann, Lena, Haensel, Rene, Seehofer, Daniel, Damm, Georg 05 December 2023 (has links)
Metabolic alterations in hepatocellular carcinoma (HCC) are fundamental for the development of diagnostic screening and therapeutic intervention since energy metabolism plays a central
role in differentiated hepatocytes. In HCC research, hepatoma cell lines (HCLs) like HepG2 and
Huh7 cells are still the gold standard. In this study, we characterized the metabolic profiles of
primary human hepatoma cells (PHCs), HCLs and primary human hepatocytes (PHHs) to determine
their differentiation states. PHCs and PHHs (HCC-PHHs) were isolated from surgical specimens
of HCC patients and their energy metabolism was compared to PHHs from non-HCC patients and
the HepG2 and Huh7 cells at different levels (transcript, protein, function). Our analyses showed
successful isolation of PHCs with a purity of 50–73% (CK18+). The transcript data revealed that
changes in mRNA expression levels had already occurred in HCC-PHHs. While many genes were
overexpressed in PHCs and HCC-PHHs, the changes were mostly not translated to the protein level.
Downregulated metabolic key players of PHCs revealed a correlation with malign transformation
and were predominantly pronounced in multilocular HCC. Therefore, HCLs failed to reflect these
expression patterns of PHCs at the transcript and protein levels. The metabolic characteristics of
PHCs are closer to those of HCC-PHHs than to HCLs. This should be taken into account for future
optimized tumor metabolism research.
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Combined Systemic Drug Treatment with Proton Therapy: Investigations on Patient-Derived OrganoidsNaumann, Max, Czempiel, Tabea, Lößner, Anna Jana, Pape, Kristin, Beyreuther, Elke, Löck, Steffen, Drukewitz, Stephan, Hennig, Alexander, von Neubeck, Cläre, Klink, Barbara, Krause, Mechthild, William, Doreen, E. Stange, Daniel, Bütof, Rebecca, Dietrich, Antje 06 December 2023 (has links)
To optimize neoadjuvant radiochemotherapy of pancreatic ductal adenocarcinoma (PDAC),
the value of new irradiation modalities such as proton therapy needs to be investigated in relevant
preclinical models. We studied individual treatment responses to RCT using patient-derived PDAC
organoids (PDO). Four PDO lines were treated with gemcitabine, 5-fluorouracile (5FU), photon and
proton irradiation and combined RCT. Therapy response was subsequently measured via viability
assays. In addition, treatment-naive PDOs were characterized via whole exome sequencing and
tumorigenicity was investigated in NMRI Foxn1nu/nu mice. We found a mutational pattern containing common mutations associated with PDAC within the PDOs. Although we could unravel
potential complications of the viability assay for PDOs in radiobiology, distinct synergistic effects
of gemcitabine and 5FU with proton irradiation were observed in two PDO lines that may lead to further mechanistical studies. We could demonstrate that PDOs are a powerful tool for translational
proton radiation research.
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Targeted Sequencing of Plasma-Derived vs. Urinary cfDNA from Patients with Triple-Negative Breast CancerHerzog, Henrike, Dogan, Senol, Aktas, Bahriye, Nel, Ivonne 05 December 2023 (has links)
In breast cancer, the genetic profiling of circulating cell-free DNA (cfDNA) from blood
plasma was shown to have good potential for clinical use. In contrast, only a few studies were performed investigating urinary cfDNA. In this pilot study, we analyzed plasma-derived and matching
urinary cfDNA samples obtained from 15 presurgical triple-negative breast cancer patients. We
used a targeted next-generation sequencing approach to identify and compare genetic alterations
in both body fluids. The cfDNA concentration was higher in urine compared to plasma, but there
was no significant correlation between matched samples. Bioinformatical analysis revealed a total of
3339 somatic breast-cancer-related variants (VAF ≥ 3%), whereof 1222 vs. 2117 variants were found
in plasma-derived vs. urinary cfDNA, respectively. Further, 431 shared variants were found in both
body fluids. Throughout the cohort, the recovery rate of plasma-derived mutations in matching
urinary cfDNA was 47% and even 63% for pathogenic variants only. The most frequently occurring
pathogenic and likely pathogenic mutated genes were NF1, CHEK2, KMT2C and PTEN in both
body fluids. Notably, a pathogenic CHEK2 (T519M) variant was found in all 30 samples. Taken
together, our results indicated that body fluids appear to be valuable sources bearing complementary
information regarding the genetic tumor profile.
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