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

Identifiers

Full item page

Search Results

Now showing 1 - 10 of 30

Amperometric Immunosensing Scaffolds for Rapid, Simple, Non-Invasive and Accurate Determination of Protein Biomarkers of Well-Accepted and Emerging Clinical Importance
(Proceedings, 2017) Pedrero Muñoz, María; Muñoz San Martín, Cristina; Torrente Rodríguez, Rebeca Magnolia; Ruiz Valdepeñas Montiel, Víctor; Vargas Orgaz, Eva; Manuel de Villena Rueda, Francisco Javier; Barderas Manchado, Rodrigo; Campuzano Ruiz, Susana; Pingarrón Carrazón, José Manuel
Toward Liquid Biopsy: Determination of the Humoral Immune Response in Cancer Patients Using HaloTag Fusion Protein-Modified Electrochemical Bioplatforms
(Analytical Chemistry, 2016) Garranzo Asensio, María; Guzmán Aránguez, Ana Isabel; Povés Francés, Carmen; Fernández Aceñero, Mª Jesús; Torrente Rodríguez, Rebeca Magnolia; Ruiz Valdepeñas Montiel, Víctor; Domínguez Muñóz, Gemma; San Frutos Llorente, Luis; Rodríguez Salas, Nuria; Villalba Díaz, Mayte; Pingarrón Carrazón, José Manuel; Campuzano Ruiz, Susana; Barderas Manchado, Rodrigo
Autoantibodies raised against tumor-associated antigens have shown high promise as clinical biomarkers for reliable diagnosis, prognosis, and therapy monitoring of cancer. An electrochemical disposable biosensor for the specific and sensitive determination of p53-specific autoantibodies has been developed for the first time in this work. This biosensor involves the use of magnetic microcarriers (MBs) modified with covalently immobilized HaloTag fusion p53 protein as solid supports for the selective capture of specific autoantibodies. After magnetic capture of the modified MBs onto screen-printed carbon working electrodes, the amperometric signal using the system hydroquinone/H2O2 was related to the levels of p53-autoantibodies in the sample. The biosensor was applied for the analysis of sera from 24 patients with high-risk of developing colorectal cancer and 6 from patients already diagnosed with colorectal (4) and ovarian (2) cancer. The developed biosensor was able to determine p53 autoantibodies with a sensitivity higher than that of a commercial standard ELISA using a just-in-time produced protein in a simpler protocol with less sample volume and easily miniaturized and cost-effective instrumentation.
Multiplexed biosensing diagnostic platforms detecting autoantibodies to tumor-associated antigens from exosomes released by CRC cells and tissue samples showed high diagnostic ability for colorectal cancer
(Engineering, 2021) Montero Calle, Ana; Aranguren Abeigon, Itziar; Garranzo Asensio, María; Povés Francés, Carmen; Fernández Aceñero, María Jesús; Martínez Useros, Javier; Sanz, Rodrigo; Dziaková, Jana; Rodríguez Cobos, Javier; Solís Fernández, Guillermo; Povedano, Eloy; Gamella Carballo, Maria; Torrente Rodríguez, Rebeca Magnolia; Alonso Navarro, Miren; Ríos, Vivian de los; Casal, J. Ignacio; Domínguez Muñóz, Gemma; Guzmán Aránguez, Ana Isabel; Peláez García, Alberto, Alberto; Pingarrón Carrazón, José Manuel; Campuzano Ruiz, Susana; Barderas Manchado, Rodrigo
Colorectal cancer (CRC) is the second leading cause of cancer-related death worldwide. The 5-year survival rate of CRC patients depends on the stage at diagnosis, being higher than 80% when CRC is diagnosed in the early stages but lower than 10% when CRC is diagnosed in advanced stages. Autoantibodies against specific CRC autoantigens (tumor-associated antigens (TAAs)) in the sera of patients have been widely demonstrated to aid in early diagnosis. Thus, we herein aim to identify autoantigens target of autoantibodies specific to CRC that possess a significant ability to discriminate between CRC patients and healthy individuals by means of liquid biopsy. To that end, we examined the protein content of the exosomes released by five CRC cell lines and tissue samples from CRC patients by means of immunoprecipitation coupled with mass spectrometry analysis. A total of 103 proteins were identified as potential autoantigens specific to CRC. After bioinformatics and meta-analysis, we selected 15 proteins that are more likely to be actual CRC autoantigens in order to evaluate their role in CRC prognosis by Western blot (WB) and immunohistochemistry (IHC). We found dysregulation at the protein level for 11 of these proteins in both tissue and plasma exosome samples from patients, along with an association of nine of these proteins with CRC prognosis. After validation, all but one showed a statistically significant high diagnostic ability to distinguish CRC patients and individuals with premalignant lesions from healthy individuals, either by luminescence Halotag-based beads, or by a multiplexed biosensing platform involving the use of magnetic microcarriers as solid support modified with covalently immobilized Halotag fusion proteins constructed for CRC detection. Taken together, our results highlight the usefulness of the approach defined here to identify the TAAs specific to chronic diseases; they also demonstrate that the measurement of autoantibody levels in plasma against the TAAs identified here could be integrated into a point-of-care (POC) device for CRC detection with high diagnostic ability.
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.
Simultaneous Determination of the Main Peanut Allergens in Foods Using Disposable Amperometric Magnetic Beads-Based Immunosensing Platforms
(Chemosensors, 2016) Ruiz Valdepeñas Montiel, Víctor; Torrente Rodríguez, Rebeca Magnolia; Campuzano Ruiz, Susana; Pellicanò, Alessandro; Reviejo García, Ángel Julio; Cosio, Maria; Pingarrón Carrazón, José Manuel
In this work, a novel magnetic beads (MBs)-based immunosensing approach for the rapid and simultaneous determination of the main peanut allergenic proteins (Ara h 1 and Ara h 2) is reported. It involves the use of sandwich-type immunoassays using selective capture and detector antibodies and carboxylic acid-modified magnetic beads (HOOC-MBs). Amperometric detection at −0.20 V was performed using dual screen-printed carbon electrodes (SPdCEs) and the H2O2/hydroquinone (HQ) system. This methodology exhibits high sensitivity and selectivity for the target proteins providing detection limits of 18.0 and 0.07 ng/mL for Ara h 1 and Ara h 2, respectively, with an assay time of only 2 h. The usefulness of the approach was evaluated by detecting the endogenous content of both allergenic proteins in different food extracts as well as trace amounts of peanut allergen (0.0001% or 1.0 mg/kg) in wheat flour spiked samples. The developed platform provides better Low detection limits (LODs) in shorter assay times than those claimed for the allergen specific commercial ELISA kits using the same immunoreagents and quantitative information on individual food allergen levels. Moreover, the flexibility of the methodology makes it readily translate to the detection of other food-allergens.
11PS04 is a new chemical entity identified by microRNA-based biosensing with promising therapeutic potential against cancer stem cells
(Scientific Reports, 2019) Aguado Sánchez, Tania; Romero-Revilla, José A.; Granados, Rosario; Campuzano Ruiz, Susana; Torrente Rodríguez, Rebeca Magnolia; Cuesta Martínez, Ángel; Albiñana, Virginia; Botella, Luisa María; Santamaría, Silvia; Garcia-Sanz, Jose A.; Pingarrón Carrazón, José Manuel; Sánchez-Sancho, Francisco; Sánchez-Puelles, José-María
Phenotypic drug discovery must take advantage of the large amount of clinical data currently available. In this sense, the impact of microRNAs (miRs) on human disease and clinical therapeutic responses is becoming increasingly well documented. Accordingly, it might be possible to use miR-based signatures as phenotypic read-outs of pathological status, for example in cancer. Here, we propose to use the information accumulating regarding the biology of miRs from clinical research in the preclinical arena, adapting it to the use of miR biosensors in the earliest steps of drug screening. Thus, we have used an amperometric dual magnetosensor capable of monitoring a miR-21/miR-205 signature to screen for new drugs that restore these miRs to non-tumorigenic levels in cell models of breast cancer and glioblastoma. In this way we have been able to identify a new chemical entity, 11PS04 ((3aR,7aS)-2-(3-propoxyphenyl)-7,7a-dihydro-3aH-pyrano[3,4-d]oxazol-6(4H)-one), the therapeutic potential of which was suggested in mechanistic assays of disease models, including 3D cell culture (oncospheres) and xenografts. These assays highlighted the potential of this compound to attack cancer stem cells, reducing the growth of breast and glioblastoma tumors in vivo. These data demonstrate the enhanced chain of translatability of this strategy, opening up new perspectives for drug-discovery pipelines and highlighting the potential of miR-based electro-analytical sensors as efficient tools in modern drug discovery.
Magnetic microbeads-based amperometric immunoplatform for the rapid and sensitive detection of N6-methyladenosine to assist in metastatic cancer cells discrimination
(Biosensors and Bioelectronics, 2021) Povedano Muñumel, Eloy; Gamella Carballo, María; Torrente Rodríguez, Rebeca Magnolia; Montero-Calle, Ana; Pedrero Muñoz, María; Solís-Fernández, Guillermo; Navarro Villoslada, Fernando; Barderas, Rodrigo; Campuzano Ruiz, Susana; Pingarrón, José; Pingarrón Carrazón, José Manuel
This work describes the preparation of an immunoplatform for the sensitive and selective determination of N6-methyladenosine (m6A). The simple and fast protocol involves for the first time the use of micromagnetic immunoconjugates to establish a direct competitive assay between the m6A target and a biotinylated RNA oligomer bearing a single m6A enzymatically labelled with a commercial conjugate of streptavidin-peroxidase (Strep-HRP) as tracer. The cathodic current change measured in the presence of H2O2/hydroquinone (HQ) at screen-printed carbon electrodes (SPCEs) upon surface capturing the magnetic bioconjugates is inversely proportional to the m6A target concentration. After evaluating the effect of key variables, the analytical characteristics were established for the determination of three different targets: the N6-methyladenosine-5′ -triphosphate (m6ATP) ribonucleotide, a short synthetic RNA oligomer bearing a single m6A and the positive control provided in a commercial colorimetric kit for m6A-RNA quantification. The obtained results show that this immunoplatform is competitive with other methods reported to date, achieving an improved sensitivity (limit of detection of 0.9 pM for the short synthetic oligomer) using a much simpler and faster protocol (~1 h) and disposable electrodes for the transduction. Furthermore, the applicability for discriminating the metastatic potential of cancer cells by directly analyzing a small amount of raw total RNA without enriching or fragmenting was also preliminary assessed.
Magnetic Beads-Based Sensor with Tailored Sensitivity for Rapid and Single-Step Amperometric Determination of miRNAs
(International Journal of Molecular Sciences, 2017) Vargas Orgaz, Eva; Torrente Rodríguez, Rebeca Magnolia; Ruiz Valdepeñas Montiel, Víctor; Povedano Muñumel, Eloy; Pedrero Muñoz, María; Montoya, Juan; Campuzano Ruiz, Susana; Pingarrón Carrazón, José Manuel
This work describes a sensitive amperometric magneto-biosensor for single-step and rapid determination of microRNAs (miRNAs). The developed strategy involves the use of direct hybridization of the target miRNA (miRNA-21) with a specific biotinylated DNA probe immobilized on streptavidin-modified magnetic beads (MBs), and labeling of the resulting heteroduplexes with a specific DNA–RNA antibody and the bacterial protein A (ProtA) conjugated with an horseradish peroxidase (HRP) homopolymer (Poly-HRP40) as an enzymatic label for signal amplification. Amperometric detection is performed upon magnetic capture of the modified MBs onto the working electrode surface of disposable screen-printed carbon electrodes (SPCEs) using the H2O2/hydroquinone (HQ) system. The magnitude of the cathodic signal obtained at −0.20 V (vs. the Ag pseudo-reference electrode) demonstrated linear dependence with the concentration of the synthetic target miRNA over the 1.0 to 100 pM range. The method provided a detection limit (LOD) of 10 attomoles (in a 25 μL sample) without any target miRNA amplification in just 30 min (once the DNA capture probe-MBs were prepared). This approach shows improved sensitivity compared with that of biosensors constructed with the same anti-DNA–RNA Ab as capture instead of a detector antibody and further labeling with a Strep-HRP conjugate instead of the Poly-HRP40 homopolymer. The developed strategy involves a single step working protocol, as well as the possibility to tailor the sensitivity by enlarging the length of the DNA/miRNA heteroduplexes using additional probes and/or performing the labelling with ProtA conjugated with homopolymers prepared with different numbers of HRP molecules. The practical usefulness was demonstrated by determination of the endogenous levels of the mature target miRNA in 250 ng raw total RNA (RNAt) extracted from human mammary epithelial normal (MCF-10A) and cancer (MCF-7) cells and tumor tissues.
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.
Project number: 316
Implementación de la metodología flipped classroom en los laboratorios de Química Analítica
(2023) Reviejo García, Ángel Julio; Agüí Chicharro, María Lourdes; Campuzano Ruiz, Susana; Gamella Carballo, Maria; García Martín, Ángel Felipe; González Cortés, Araceli; Guerrero Blanco, José Ignacio; Mateos Briz, María Raquel; Miguel Bravo, María; Pérez Ginés, Víctor; Reviejo Martínez, Eva; Romano Martín, Santiago; Ruiz-Valdepeñas Montiel, Víctor; Sánchez Tirado, Esther; Santiago Sáez, Andrés Sebastián; Serafín González-Carrato, Verónica; Torrente Rodríguez, Rebeca Magnolia; Yáñez-Sedeño, Paloma; Pedrero Muñoz, María
Adaptar el sistema tradicional de aprendizaje a las necesidades actuales del alumnado empleando la metodología flipped classroom en el laboratorio de Química Analítica I, con el objetivo de fomentar el aprendizaje utilizando herramientas digitales.