22 research outputs found
Urine peptidomic biomarkers for diagnosis of patients with systematic lupus erythematosus
Background:
Systematic lupus erythematosus (SLE) is characterized with various complications which can cause serious organ damage in the human body. Despite the significant improvements in disease management of SLE patients, the non-invasive diagnosis is entirely missing. In this study, we used urinary peptidomic biomarkers for early diagnosis of disease onset to improve patient risk stratification, vital for effective drug treatment.
Methods:
Urine samples from patients with SLE, lupus nephritis (LN) and healthy controls (HCs) were analyzed using capillary electrophoresis coupled to mass spectrometry (CE-MS) for state-of-the-art biomarker discovery.
Results:
A biomarker panel made up of 65 urinary peptides was developed that accurately discriminated SLE without renal involvement from HC patients. The performance of the SLE-specific panel was validated in a multicentric independent cohort consisting of patients without SLE but with different renal disease and LN. This resulted in an area under the receiver operating characteristic (ROC) curve (AUC) of 0.80 (p < 0.0001, 95% confidence interval (CI) 0.65–0.90) corresponding to a sensitivity and a specificity of 83% and 73%, respectively. Based on the end terminal amino acid sequences of the biomarker peptides, an in silico methodology was used to identify the proteases that were up or down-regulated. This identified matrix metalloproteinases (MMPs) as being mainly responsible for the peptides fragmentation.
Conclusions:
A laboratory-based urine test was successfully established for early diagnosis of SLE patients. Our approach determined the activity of several proteases and provided novel molecular information that could potentially influence treatment efficacy
Urinary peptide panel for prognostic assessment of bladder cancer relapse
Non-invasive tools stratifying bladder cancer (BC) patients according to the risk of relapse are urgently
needed to guide clinical intervention. As a follow-up to the previously published study on CE-MSbased urinary biomarkers for BC detection and recurrence monitoring, we expanded the investigation
towards BC patients with longitudinal data. Profling datasets of BC patients with follow-up information
regarding the relapse status were investigated. The peptidomics dataset (n=98) was split into training
and test set. Cox regression was utilized for feature selection in the training set. Investigation of the
entire training set at the single peptide level revealed 36 peptides being strong independent prognostic
markers of disease relapse. Those features were further integrated into a Random Forest-based model
evaluating the risk of relapse for BC patients. Performance of the model was assessed in the test cohort,
showing high signifcance in BC relapse prognosis [HR=5.76, p-value=0.0001, c-index=0.64]. Urinary
peptide profles integrated into a prognostic model allow for quantitative risk assessment of BC relapse
highlighting the need for its incorporation in prospective studies to establish its value in the clinical
management of BC
Prediction of acute coronary syndromes by urinary proteome analysis.
Identification of individuals who are at risk of suffering from acute coronary syndromes (ACS) may allow to introduce preventative measures. We aimed to identify ACS-related urinary peptides, that combined as a pattern can be used as prognostic biomarker. Proteomic data of 252 individuals enrolled in four prospective studies from Australia, Europe and North America were analyzed. 126 of these had suffered from ACS within a period of up to 5 years post urine sampling (cases). Proteomic analysis of 84 cases and 84 matched controls resulted in the discovery of 75 ACS-related urinary peptides. Combining these to a peptide pattern, we established a prognostic biomarker named Acute Coronary Syndrome Predictor 75 (ACSP75). ACSP75 demonstrated reasonable prognostic discrimination (c-statistic = 0.664), which was similar to Framingham risk scoring (c-statistics = 0.644) in a validation cohort of 42 cases and 42 controls. However, generating by a composite algorithm named Acute Coronary Syndrome Composite Predictor (ACSCP), combining the biomarker pattern ACSP75 with the previously established urinary proteomic biomarker CAD238 characterizing coronary artery disease as the underlying aetiology, and age as a risk factor, further improved discrimination (c-statistic = 0.751) resulting in an added prognostic value over Framingham risk scoring expressed by an integrated discrimination improvement of 0.273 ± 0.048 (P < 0.0001) and net reclassification improvement of 0.405 ± 0.113 (P = 0.0007). In conclusion, we demonstrate that urinary peptide biomarkers have the potential to predict future ACS events in asymptomatic patients. Further large scale studies are warranted to determine the role of urinary biomarkers in clinical practice