Person:
Campuzano Ruiz, Susana

First Name

Susana

Last Name

Campuzano Ruiz

URI

https://hdl.handle.net/20.500.14352/76074

Affiliation

Universidad Complutense de Madrid

Faculty / Institute

Ciencias Químicas

Department

Química Analítica

Area

Química Analítica

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Now showing 1 - 10 of 11

p53 and p63 Proteoforms Derived from Alternative Splicing Possess Differential Seroreactivity in Colorectal Cancer with Distinct Diagnostic Ability from the Canonical Proteins
(Cancers, 2023) Montero Calle, Ana; Garranzo Asensio, María; Torrente Rodríguez, Rebeca Magnolia; Ruiz Valdepeñas Montiel, Víctor; Poves, Carmen; Dziakova, Jana; Sanz, Rodrigo; Díaz Del Arco, Cristina; Pingarrón Carrazón, José Manuel; Fernández Aceñero, María Jesús; Campuzano Ruiz, Susana; Barderas Manchado, Rodrigo
Colorectal cancer (CRC) is the third most common cancer and the second most frequent cause of cancer-related death worldwide. The detection in plasma samples of autoantibodies against specific tumor-associated antigens has been demonstrated to be useful for the early diagnosis of CRC by liquid biopsy. However, new studies related to the humoral immune response in cancer are needed to enable blood-based diagnosis of the disease. Here, our aim was to characterize the humoral immune response associated with the different p53 and p63 proteoforms derived from alternative splicing and previously described as aberrantly expressed in CRC. Thus, here we investigated the diagnostic ability of the twelve p53 proteoforms and the eight p63 proteoforms described to date, and their specific N-terminal and C-terminal end peptides, by means of luminescence HaloTag beads immunoassays. Full-length proteoforms or specific peptides were cloned as HaloTag fusion proteins and their seroreactivity analyzed using plasma from CRC patients at stages I-IV (n = 31), individuals with premalignant lesions (n = 31), and healthy individuals (n = 48). p53γ, Δ40p53β, Δ40p53γ, Δ133p53γ, Δ160p53γ, TAp63α, TAp63δ, ΔNp63α, and ΔNp63δ, together with the specific C-terminal end α and δ p63 peptides, were found to be more seroreactive against plasma from CRC patients and/or individuals with premalignant lesions than from healthy individuals. In addition, ROC (receiver operating characteristic) curves revealed a high diagnostic ability of those p53 and p63 proteoforms to detect CRC and premalignant individuals (AUC higher than 85%). Finally, electrochemical biosensing platforms were employed in POC-like devices to investigate their usefulness for CRC detection using selected p53 and p63 proteoforms. Our results demonstrate not only the potential of these biosensors for the simultaneous analysis of proteoforms’ seroreactivity, but also their convenience and versatility for the clinical detection of CRC by liquid biopsy. In conclusion, we here show that p53 and p63 proteoforms possess differential seroreactivity in CRC patients in comparison to controls, distinctive from canonical proteins, which should improve the diagnostic panels for obtaining a blood-based biomarker signature for CRC detection.
Fast and sensitive diagnosis of autoimmune disorders through amperometric biosensing of serum anti-dsDNA autoantibodies
(Biosensors & Bioelectronics, 2020) López Ruíz, Beatriz ; Arévalo Pérez, Beatriz; Serafín González-Carrato, Verónica; Sánchez-Paniagua López, Marta; Montero Calle, Ana; Barderas Manchado, Rodrigo; López Ruiz, María Beatriz; Campuzano Ruiz, Susana; Yáñez-Sedeño Orive, Paloma; Pingarrón Carrazón, José Manuel
This work reports the first amperometric biosensor involving the use of neutravidin-functionalized magnetic microbeads (NA-MBs) modified with a biotinylated-anti-dsDNA (b-dsDNA) as efficient magnetic microcarriers to selectively capture anti-dsDNA autoantibodies (IgG, IgA and IgM AAbs) present in the sera of patients with rheumatoid arthritis (RA). Subsequently, the attached anti-dsDNA AAbs are detected with a mixture of conventional HRP-labeled secondary antibodies (HRP-anti-human IgG/IgM/IgA mixture). The biorecognition event is monitored by amperometric transduction using the hydroquinone (HQ)/H2O2 system upon capturing the modified MBs on the surface of screen-printed carbon electrodes (SPCEs). The developed bioplatform exhibits a linear calibration plot ranging from 1 to 200 IU mL−1 with a LOD of 0.3 IU mL−1 for anti-dsDNA AAbs standards. In addition, the biosensor allows performing the determination of the anti-dsDNA AAbs levels directly in 100-times diluted serum samples from patients diagnosed with RA and in just 75 min. The obtained results are in agreement with those provided by an ELISA kit and allow discrimination between positive and negative samples.
Disposable electrochemical immunoplatform to shed light on the role of the multifunctional glycoprotein TIM-1 in cancer cells invasion
(Talanta, 2024) Quinchia, Jennifer; Blázquez-García, Marina; Torrente Rodríguez, Rebeca Magnolia; Ruiz Valdepeñas Montiel, Víctor; Serafín González-Carrato, Verónica; Rejas-González, Raquel; Montero-Calle, Ana; Orozco, Jahir; Pingarrón Carrazón, José Manuel; Barderas Manchado, Rodrigo; Campuzano Ruiz, Susana
Detecting overexpression of cancer biomarkers is an excellent tool for diagnostic/prognostic and follow-up of patients with cancer or their response to treatment. This work illustrates the relevance of interrogating the levels of T-cell immunoglobulin and mucin domain 1 (TIM-1) protein as a diagnostic/prognostic biomarker of high-prevalence breast and lung cancers by using an amperometric disposable magnetic microparticles-assisted immunoplatform. The developed method integrates the inherent advantages of carboxylic acid-functionalized magnetic beads (HOOC-MBs) as pre-concentrator support and the amperometric transduction at screen-printed carbon electrodes (SPCEs). The immunoplatform involves a sandwich-type immunoassay assembled on HOOC-MBs through the specific capture/labeling of TIM-1 using capture antibodies and horseradish peroxidase (HRP)-conjugated biotinylated detection antibodies as biorecognition elements. The magnetic immunoconjugates were confined onto the working electrode (WE) surface of the SPCEs for amperometric detection using the hydroquinone/hydrogen peroxide/HRP (HQ/H2O2/HRP) redox system. The method allows the selective detection of TIM-1 protein over the 87–7500 pg mL−1 concentration range in only 45 min, with a limit of detection of 26 pg mL−1. The developed bioplatform was successfully applied to the analysis of breast and lung cancer cell extracts, providing the first quantitative results of the target glycoprotein in these types of samples.
Click chemistry-assisted antibodies immobilization for immunosensing of CXCL7 chemokine in serum
(Journal of Electroanalytical Chemistry, 2019) Guerrero Irigoyen, Sara; Agüí Chicharro, María Lourdes; Barderas Manchado, Rodrigo; Campuzano Ruiz, Susana; Yáñez-Sedeño Orive, Paloma; Pingarrón Carrazón, José Manuel; Cadanno Mendía, Dona
The first electrochemical immunosensor for the determination of CXCL7 (chemokine (C-X-C motif) ligand 7) autoimmune biomarker is reported in this work. Click chemistry-assisted antibodies immobilization was per formed by reaction of azide functionalized-multi-walled carbon nanotubes (MWCNTs) and ethynyl-IgG onto screen-printed carbon electrodes. The capture antibodies were further immobilized onto IgG-MWCNTs con jugates. After a blocking step with casein, a sandwich immunoassay was implemented involving biotinylated detector antibodies and alkaline phosphatase (AP)-streptavidin conjugate. Differential pulse voltammetry upon addition of 1-naphthylphosphate was used as the analytical readout. A linear calibration plot between 0.5 and 600 pg mL−1 CXCL7 and a LOD value of 0.1 pg mL−1 were obtained. The usefulness of the immunosensor was demonstrated by the successful analysis of serum samples from patients with rheumatoid arthritis.
Pursuing precision in medicine and nutrition: the rise of electrochemical biosensing at the molecular level
(Analytical and Bioanalytical Chemistry, 2024) Campuzano Ruiz, Susana; Barderas Manchado, Rodrigo; Moreno-Casbas, María Teresa; Almeida, Ángeles; Pingarrón Carrazón, José Manuel
In the era that we seek personalization in material things, it is becoming increasingly clear that the individualized management of medicine and nutrition plays a key role in life expectancy and quality of life, allowing participation to some extent in our welfare and the use of societal resources in a rationale and equitable way. The implementation of precision medicine and nutrition are highly complex challenges which depend on the development of new technologies able to meet important requirements in terms of cost, simplicity, and versatility, and to determine both individually and simultaneously, almost in real time and with the required sensitivity and reliability, molecular markers of different omics levels in biofluids extracted, secreted (either naturally or stimulated), or circulating in the body. Relying on representative and pioneering examples, this review article critically discusses recent advances driving the position of electrochemical bioplatforms as one of the winning horses for the implementation of suitable tools for advanced diagnostics, therapy, and precision nutrition. In addition to a critical overview of the state of the art, including groundbreaking applications and challenges ahead, the article concludes with a personal vision of the imminent roadmap.
Binary MoS2 nanostructures as nanocarriers for amplification in multiplexed electrochemical immunosensing: simultaneous determination of B cell activation factor and proliferation-induced signal immunity-related cytokines
(Microchimica Acta, 2022) Arévalo Pérez, Beatriz; Blázquez García, Marina; Valverde de la Fuente, Alejandro; Serafín González-Carrato, Verónica; Montero Calle, Ana; Solís Fernández, Guillermo; Barderas Manchado, Rodrigo; Campuzano Ruiz, Susana; Yáñez Sedeño, Paloma; Pingarron, José M.
A dual immunosensor is reported for the simultaneous determination of two important immunity-related cytokines: BAFF (B cell activation factor) and APRIL (a proliferation-induced signal). Sandwich-type immunoassays with specifc antibodies (cAbs) and a strategy for signal amplifcation based on labelling the detection antibodies (dAbs) with binary MoS2/ MWCNTs nanostructures and using horseradish peroxidase (HRP) were implemented. Amperometric detection was carried out at screen-printed dual carbon electrodes (SPdCEs) through the hydroquinone HQ/H2O2 system. The developed dual immunosensor provided limit of detection (LOD) of 0.08 and 0.06 ng mL−1 for BAFF and APRIL, respectively, and proved to be useful for the determination of both cytokines in cancer cell lysates and serum samples from patients diagnosed with autoimmune diseases and cancer. The obtained results agreed with those found using ELISA methodologies.
Phage-Derived and Aberrant HaloTag Peptides Immobilized on Magnetic Microbeads for Amperometric Biosensing of Serum Autoantibodies and Alzheimer's Disease Diagnosis
(Analysis & Sensing, 2021) Valverde de la Fuente, Alejandro; Montero Calle, Ana; Arévalo Pérez, Beatriz; San Segundo Acosta, Pablo; Serafín González-Carrato, Verónica; Alonso Navarro, Miren; Solís Fernández, Guillermo; Pingarrón Carrazón, José Manuel; Campuzano Ruiz, Susana; Barderas Manchado, Rodrigo
An electrochemical biosensing platform for serum autoantibodies (AAbs) detection is reported in this work, exploiting for the first time six Alzheimer's disease (AD)-specific phage-derived and frameshift aberrant HaloTag peptides as receptors, immobilized on magnetic microbeads (MBs) surface and captured on disposable electrodes to perform amperometric detection. Operational analytical characteristics and clinical diagnostic ability of the bioplatform were probed in optimized key experimental conditions by analysing serum AAbs of AD patients and healthy subjects. The value of 100% obtained for AUC, sensitivity, and selectivity from the all peptides combined ROC curve, indicate full AD-diagnostic capability of the methodology, which was further implemented, as proof of concept, in a POC multiplexing platform to detect the signature in a single test over clinically actionable times (1 h 15 min), opening great promise for the type of diagnosis and AD patients’ monitoring follow-up currently pursued.
Angiogenesis inhibitor or aggressiveness marker? The function of endostatin in cancer through electrochemical biosensing
(Bioelectrochemistry, 2024) Tejerina Miranda, Sandra; Pedrero Muñoz, María; Blázquez García, Marina; Serafín González-Carrato, Verónica; Montero Calle, Ana; Garranzo Asensio, María; Reviejo García, Ángel Julio; Pingarrón Carrazón, José Manuel; Barderas Manchado, Rodrigo; Campuzano Ruiz, Susana
This work reports the first electrochemical bioplatform developed for the determination of human endostatin (HE), a biomarker with recognized antiangiogenic potential whose elevated circulating levels have also been associated with the development of aggressive cancers. The developed electroanalytical biotool combines the benefits of using magnetic microparticles for the implementation of sandwich immunoassays and amperometric transduction on disposable carbon electrodes. A limit of detection (LOD) of 34.1 pg mL−1 for HE standards and a selectivity suitable for its foray into the clinical oncology area, are demonstrated. The determination of HE in clinical samples such as lysates and secretomes of colorectal cancer (CRC) cells, plasma, and tissue samples from patients with CRC in different stages, has been faced with satisfactory results showing the ability for discriminating the metastatic capabilities of cells and for identifying and staging CRC patients. The developed bioplatform allows precise quantitative determinations, requiring minimal pre-treatments and sample amounts in only 75 min. In addition, due to the instrumentation and the type of substrates used in the detection step, the biotool is compatible with implementation in multiplexed and/or point-of-need devices, features in which this bioplatform is advantageous with respect to the enzyme linked immunosorbent assay (ELISA) or immunoblotting technologies.
Fast Electrochemical miRNAs Determination in Cancer Cells and Tumor Tissues with Antibody-Functionalized Magnetic Microcarriers
(ACS Sensors, 2016) Torrente Rodríguez, Rebeca Magnolia; Ruiz Valdepeñas Montiel, Víctor; Campuzano Ruiz, Susana; Farchado-Dinia, Meryem; Barderas Manchado, Rodrigo; San Segundo Acosta, Pablo; Montoya, Juan ; Pingarrón Carrazón, José Manuel
Microribonucleic acids (miRNAs) have been linked with various regulatory functions and diseases and constitute important targets in future medical diagnostics and prognostics. We report here a novel sensitive and rapid bioelectrochemical strategy for miRNA determination. This strategy involves the development of a sensing approach making use of magnetic beads (MBs) modified with a specific DNA-RNA antibody as capture bioreceptor and amperometric detection implying the H2O2/hydroquinone (HQ) system at disposable screen-printed carbon electrodes (SPCEs). The developed biosensor exhibits a dynamic range from 8.2 to 250 pM and a detection limit of 2.4 pM (60 amol) of a synthetic target without any amplification step in 2 h. The usefulness of the approach was evaluated by analyzing total RNA (RNAt) extracted from metastatic cancer cell lines and human tumor tissues, which demonstrated its potential to perform determination of mature miRNAs in these complex samples. Moreover, the feasibility of the developed methodology to detect simultaneously the expression of two different miRNAs at dual SPCEs (SPdCEs) in one single experiment was also explored. The feasibility to capture and release target miRNAs make the developed methodology also an attractive tool to isolate, purify, and determine target miRNAs with great applicability in the clinical field.
Rapid endoglin determination in serum samples using an amperometric magneto-actuated disposable immunosensing platform
(Journal of Pharmaceutical and Biomedical Analysis, 2016) Torrente Rodríguez, Rebeca Magnolia; Campuzano Ruiz, Susana; Ruiz Valdepeñas Montiel, Víctor; Pedrero Muñoz, María; Fernández Aceñero, María Jesús; Barderas Manchado, Rodrigo; Pingarrón Carrazón, José Manuel
A sensitive and rapid method for the determination of the clinically relevant biomarker human endoglin (CD105) in serum samples is presented, involving a magneto-actuated immunoassay and amperometric detection at disposable screen-printed carbon electrodes (SPCEs). Micro-sized magnetic particles were modified with a specific antibody to selectively capture the target protein which was further sandwiched with a secondary HRP-labeled antibody. The immunocomplexes attached to the magnetic carriers were amperometrically detected at SPCEs using the hydroquinone (HQ)/H2O2/HRP system. The magneto-actuated immunosensing platform was able to detect 5 pmoles of endoglin (in 25μL of sample, 0.2μM) in 30min providing statistically similar results to those obtained using a commercial ELISA kit for the determination of endogenous content of endoglin in human serum samples.