74 research outputs found
Combined ASRGL1 and p53 immunohistochemistry as an independent predictor of survival in endometrioid endometrial carcinoma
Objective. In clinical practise, prognostication of endometrial cancer is based on clinicopathological risk factors. The use of immunohistochemistry-based markers as prognostic tools is generally not recommended and a systematic analysis of their utility as a panel is lacking. We evaluated whether an immunohistochemical marker panel could reliably assess endometrioid endometrial cancer (EEC) outcome independent of clinicopathological information. Methods. A cohort of 306 EEC specimens was profiled using tissue microarray (TMA). Cost- and time-efficient immunohistochemical analysis of well-established tissue biomarkers (ER, PR, HER2, Ki-67, MLH1 and p53) and two new biomarkers (L1CAM and ASRGL1) was carried out. Statistical modelling with embedded variable selection was applied on the staining results to identify minimal prognostic panels with maximal prognostic accuracy without compromising generalizability. Results. A panel including p53 and ASRGL1 immunohistochemistry was identified as the most accurate predictor of relapse-free and disease-specific survival. Within this panel, patients were allocated into high- (5.9%), intermediate- (295%) and low- (64.6%) risk groups where high-risk patients had a 30-fold risk (P <0.001) of dying of EEC compared to the low-risk group. Conclusions. P53 and ASRGL1 immunoprofiling stratifies EEC patients into three risk groups with significantly different outcomes. This simple and easily applicable panel could provide a useful tool in EEC risk stratification and guiding the allocation of treatment modalities. (C) 2018 Elsevier Inc. All rights reserved.Peer reviewe
Molecular characterization of a large unselected cohort of metastatic colorectal cancers in relation to primary tumor location, rare metastatic sites and prognosis
Background: We have reported that BRAF V600E mutations and microsatellite instability-high (MSI-H) are more prevalent in a population-based cohort of metastatic colorectal cancer (mCRC) patients than has been reported from clinical trials or hospital-based patient groups. The aim was to explore if other mutations in mCRC differ in prevalence between these cohorts in relation to mismatch repair status and primary tumor location and if presence of bone or brain metastases is associated with any mutations.
Material and methods: A population-based cohort of 798 mCRC patients from three regions in Scandinavia was used. Forty-four cancer related genes were investigated in a custom designed Ampliseq hotspot panel. Differences in survival were analyzed using the Kaplan–Meier estimator and the Cox regression analysis.
Results: Determination of mutations was possible in 449/501 patients for 40/44 genes. Besides BRAF V600E, seen in 19% of the tumors, none of the other mutations appeared more prevalent than in trial cohorts. BRAF V600E and MSI-H, seen in 8%, were associated with poor prognosis as was right-sided primary tumor location (39%) when compared to left-sided and rectum together; however, in a multivariable regression, only the BRAF mutation retained its statistical significance. No other mutations were associated with poor prognosis. ERBB2 alterations were more common if bone metastases were present at diagnosis (17% vs. 4%, p = .011). No association was found for brain metastases. Fifty-two percent had an alteration that is treatable with an FDA-approved targeted therapy, chiefly by EGFR-inhibitor for RAS wild-type and a check-point inhibitor for MSI-H tumors.
Conclusions: Right-sided tumor location, BRAF V600E mutations, but no other investigated mutation, and MSI-H are more commonly seen in an unselected cohort than is reported from clinical patient cohorts, likely because they indicate poor prognosis. Half of the patients have a tumor that is treatable with an already FDA-approved targeted drug for mCRC.publishedVersio
Combined expression of HOXA11 and CD10 identifies endometriosis versus normal tissue and tumors
The gold standard for diagnosing endometriosis is by laparoscopic visual demonstration of ectopic endometrial lesions outside the uterus, preferably verified by biopsy and microscopical examination. Molecular markers to facilitate the microscopical diagnosis of endometriosis and for distinguishing endometriosis from other benign and malignant lesions are lacking. Our aim was to test and validate an immunohistochemical antibody panel for improved diagnostic accuracy of endometriosis. Both CD10 and HOXA11 have been implicated in regulation of endometrial homeostasis. Here we have analyzed the expression pattern of these two proteins using immuno-histochemistry on human tissues in a tissue microarray format. CD10 and HOXA11 expression in endometriosis lesions were compared to expression patterns in a range of normal tissues and in primary-and metastatic lesions of endometrial-, cervical-and ovarian cancer. HOXA11 and CD10 were expressed in 98% and 91% of endo-metriosis lesions and the combined double-positive expression profile of both HOXA11 and CD10 was highly sensitive for ectopic endometrial tissue (90%). The specificity and sensitivity for this double-positive signature in endometriosis was significantly different from all investigated tissues, cancers and metastases except normal, eutopic endometrial-and cervical mucosa. The combination of HOXA11 and CD10 expression profiles provides a useful tool to identify ectopic endometrial tissue and for distinguishing endometriosis from various types of gynecological malignancies and metastases
A gene-centric approach to biomarker discovery identifies transglutaminase 1 as an epidermal autoantigen
Publisher Copyright: © 2021 National Academy of Sciences. All rights reserved.Autoantigen discovery is a critical challenge for the understanding and diagnosis of autoimmune diseases. While autoantibody markers in current clinical use have been identified through studies focused on individual disorders, we postulated that a reverse approach starting with a putative autoantigen to explore multiple disorders might hold promise. We here targeted the epidermal protein transglutaminase 1 (TGM1) as a member of a protein family prone to autoimmune attack. By screening sera from patients with various acquired skin disorders, we identified seropositive subjects with the blistering mucocutaneous disease paraneoplastic pemphigus. Validation in further subjects confirmed TGM1 autoantibodies as a 55% sensitive and 100% specific marker for paraneoplastic pemphigus. This gene-centric approach leverages the wealth of data available for human genes and may prove generally applicable for biomarker discovery in autoimmune diseases.Peer reviewe
GABA-A Channel Subunit Expression in Human Glioma Correlates with Tumor Histology and Clinical Outcome
GABA (γ-aminobutyric acid) is the main inhibitory neurotransmitter in the CNS and is present in high concentrations in presynaptic terminals of neuronal cells. More recently, GABA has been ascribed a more widespread role in the control of cell proliferation during development where low concentrations of extrasynaptic GABA induce a tonic activation of GABA receptors. The GABA-A receptor consists of a ligand-gated chloride channel, formed by five subunits that are selected from 19 different subunit isoforms. The functional and pharmacological properties of the GABA-A channels are dictated by their subunit composition. Here we used qRT-PCR to compare mRNA levels of all 19 GABA-A channel subunits in samples of human glioma (n = 29) and peri-tumoral tissue (n = 5). All subunits except the ρ1 and ρ3 subunit were consistently detected. Lowest mRNA levels were found in glioblastoma compared to gliomas of lower malignancy, except for the θ subunit. The expression and cellular distribution of the α1, γ1, ρ2 and θ subunit proteins was investigated by immunohistochemistry on tissue microarrays containing 87 gliomas grade II. We found a strong co-expression of ρ2 and θ subunits in both astrocytomas (r = 0.86, p<0.0001) and oligodendroglial tumors (r = 0.66, p<0.0001). Kaplan-Meier analysis and Cox proportional hazards modeling to estimate the impact of GABA-A channel subunit expression on survival identified the ρ2 subunit (p = 0.043) but not the θ subunit (p = 0.64) as an independent predictor of improved survival in astrocytomas, together with established prognostic factors. Our data give support for the presence of distinct GABA-A channel subtypes in gliomas and provide the first link between specific composition of the A-channel and patient survival
The prognostic impact of the tumour stroma fraction: A machine learning-based analysis in 16 human solid tumour types
Background: The development of a reactive tumour stroma is a hallmark of tumour progression and pronounced tumour stroma is generally considered to be associated with clinical aggressiveness. The variability between tumour types regarding stroma fraction, and its prognosis associations, have not been systematically analysed.Methods: Using an objective machine-learning method we quantified the tumour stroma in 16 solid cancer types from 2732 patients, representing retrospective tissue collections of surgically resected primary tumours. Image analysis performed tissue segmentation into stromal and epithelial compartment based on pan-cytokeratin staining and autofluorescence patterns.Findings: The stroma fraction was highly variable within and across the tumour types, with kidney cancer showing the lowest and pancreato-biliary type periampullary cancer showing the highest stroma proportion (median 19% and 73% respectively). Adjusted Cox regression models revealed both positive (pancreato-biliary type periampullary cancer and oestrogen negative breast cancer, HR(95%CI)=0.56(0.34-0.92) and HR (95%CI)=0.41(0.17-0.98) respectively) and negative (intestinal type periampullary cancer, HR(95%CI)=3.59 (1.49-8.62)) associations of the tumour stroma fraction with survival.Interpretation: Our study provides an objective quantification of the tumour stroma fraction across major types of solid cancer. Findings strongly argue against the commonly promoted view of a general associations between high stroma abundance and poor prognosis. The results also suggest that full exploitation of the prognostic potential of tumour stroma requires analyses that go beyond determination of stroma abundance.</p
Neuronal Development in the Embryonic Retina : Focus on the Characterization, Generation and Development of Horizontal Cell Subtypes
Horizontal cells are retinal interneurons that modulate the output from photoreceptors. Two horizontal cell (HC) subtypes are commonly identified in the vertebrate retina: axon-bearing and axon-less HCs. In this work, we have identified Isl1 as a novel HC marker and demonstrated that Lim1 and Isl1 distinguish axon-bearing and axon-less HCs, respectively. In the chick retina, axon-less HCs are furthermore split into two different subtypes based on the expression of GABA and TrkA. We have demonstrated that during early chick retinogenesis, HCs expressing either Lim1 or Isl1 are generated consecutively as two equally large sub-groups at different time points. Moreover, these newborn HCs undertake an unexpected bi-directional migration before settling in their final laminar position. Different HC subtypes complete this migration at different times. We investigated the role of activin signaling during HC subtype generation. Activin or its inhibitor follistatin was administrated during the main phase of HC generation and analyzed when HCs had completed migration. Activin caused a significant decrease in both HC subtypes and decreased the proliferation of retinal precursor cells. Follistatin increased the number of late born (Isl1+) HCs, which migrated to the HC-layer during a prolonged migration period. Both treatments affected retinal histology, but only activin influenced the generation of retinal populations other than HCs. These effects were most likely mediated by altered proliferation in certain retinal precursor cells. The data on HC subtype ratios, birth-dates, migration, apoptosis and extrinsic activin modulation favor a scenario where the mature proportions of HC subtypes are generated sequentially from a specific HC-precursor cell lineage early in development and remain stable thereafter. These proportions are not adjusted by apoptosis, but rather by the combined actions of transcription factors and extrinsic signaling. Our studies on HC subtypes and their development promises to facilitate future studies on HC development, evolution and function
Neuronal Development in the Embryonic Retina : Focus on the Characterization, Generation and Development of Horizontal Cell Subtypes
Horizontal cells are retinal interneurons that modulate the output from photoreceptors. Two horizontal cell (HC) subtypes are commonly identified in the vertebrate retina: axon-bearing and axon-less HCs. In this work, we have identified Isl1 as a novel HC marker and demonstrated that Lim1 and Isl1 distinguish axon-bearing and axon-less HCs, respectively. In the chick retina, axon-less HCs are furthermore split into two different subtypes based on the expression of GABA and TrkA. We have demonstrated that during early chick retinogenesis, HCs expressing either Lim1 or Isl1 are generated consecutively as two equally large sub-groups at different time points. Moreover, these newborn HCs undertake an unexpected bi-directional migration before settling in their final laminar position. Different HC subtypes complete this migration at different times. We investigated the role of activin signaling during HC subtype generation. Activin or its inhibitor follistatin was administrated during the main phase of HC generation and analyzed when HCs had completed migration. Activin caused a significant decrease in both HC subtypes and decreased the proliferation of retinal precursor cells. Follistatin increased the number of late born (Isl1+) HCs, which migrated to the HC-layer during a prolonged migration period. Both treatments affected retinal histology, but only activin influenced the generation of retinal populations other than HCs. These effects were most likely mediated by altered proliferation in certain retinal precursor cells. The data on HC subtype ratios, birth-dates, migration, apoptosis and extrinsic activin modulation favor a scenario where the mature proportions of HC subtypes are generated sequentially from a specific HC-precursor cell lineage early in development and remain stable thereafter. These proportions are not adjusted by apoptosis, but rather by the combined actions of transcription factors and extrinsic signaling. Our studies on HC subtypes and their development promises to facilitate future studies on HC development, evolution and function
Neuronal Development in the Embryonic Retina : Focus on the Characterization, Generation and Development of Horizontal Cell Subtypes
Horizontal cells are retinal interneurons that modulate the output from photoreceptors. Two horizontal cell (HC) subtypes are commonly identified in the vertebrate retina: axon-bearing and axon-less HCs. In this work, we have identified Isl1 as a novel HC marker and demonstrated that Lim1 and Isl1 distinguish axon-bearing and axon-less HCs, respectively. In the chick retina, axon-less HCs are furthermore split into two different subtypes based on the expression of GABA and TrkA. We have demonstrated that during early chick retinogenesis, HCs expressing either Lim1 or Isl1 are generated consecutively as two equally large sub-groups at different time points. Moreover, these newborn HCs undertake an unexpected bi-directional migration before settling in their final laminar position. Different HC subtypes complete this migration at different times. We investigated the role of activin signaling during HC subtype generation. Activin or its inhibitor follistatin was administrated during the main phase of HC generation and analyzed when HCs had completed migration. Activin caused a significant decrease in both HC subtypes and decreased the proliferation of retinal precursor cells. Follistatin increased the number of late born (Isl1+) HCs, which migrated to the HC-layer during a prolonged migration period. Both treatments affected retinal histology, but only activin influenced the generation of retinal populations other than HCs. These effects were most likely mediated by altered proliferation in certain retinal precursor cells. The data on HC subtype ratios, birth-dates, migration, apoptosis and extrinsic activin modulation favor a scenario where the mature proportions of HC subtypes are generated sequentially from a specific HC-precursor cell lineage early in development and remain stable thereafter. These proportions are not adjusted by apoptosis, but rather by the combined actions of transcription factors and extrinsic signaling. Our studies on HC subtypes and their development promises to facilitate future studies on HC development, evolution and function
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