
Marzia MarcielloUniversidad Complutense de Madrid (UCM) · Dept. of Chemistry in Pharmaceutical Sciences- Nanobiotechnology for Life Sciences group
Marzia Marciello
PhD Pharmaceutical Chemistry
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73
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Publications (73)
Background and Aims
Targeting epigenetic mechanisms offer a potential breakthrough in addressing kidney diseases. Thus, inhibition of the bromodomain and extra-terminal (BET) domain proteins using the small molecule inhibitor JQ1, has shown promise in preclinical models of acute kidney injury (AKI) and chronic kidney disease (CKD). However, clinica...
We have fabricated an implantable dressing material able to reduce antipressure ulcer disease. This biomaterial is based on electrospun poly(lactic acid) (PLA) nanofibers (NFs) containing the hydroethanolic extract (HE) of T. ramosissimum. Optimized synthesis conditions (17-PLA/HE NFs) resulted in homogeneous and nonwoven mat structures formed by p...
Biosensors based on graphene field-effect transistors have become a promising tool for detecting a broad range of analytes. However, their performance is substantially affected by the functionalization protocol. In this work, we use a controlled in-vacuum physical method for the covalent functionalization of graphene to construct ultrasensitive apt...
Biosensors based on graphene field-effect transistors have become a promising tool for detecting a broad range of analytes. However, they lack the stability and reproducibility required to step into biotechnological and biomedical applications. In this work, we use a controlled in-vacuum physical method for the covalent functionalization of graphen...
A new series of theranostic silica materials based on fibrous silica particles acting as nanocarriers of two different cytotoxic agents, namely, chlorambucil and an organotin metallodrug have been prepared and structurally characterized. Besides the combined therapeutic activity, these platforms have been decorated with a targeting molecule (folic...
In recent years, nanotechnology and biocatalysis have undergone awesome improvements, finally bringing a great revolution in different scientific areas. In this sense, working at the interface of materials engineering and biological sciences, the research branch of nanobiocatalys has emerged and demonstrated its wide application scope. As a represe...
Inorganic materials can provide a set of tools to decontaminate solid, liquid or air containing viral particles. The use of disinfectants can be limited or not practical in scenarios where continuous cleaning is not feasible. Physicochemical differences between viruses raise the need for effective formulations for all kind of viruses. In the presen...
The treatment of skin wounds poses significant clinical challenges, including the risk of bacterial infection. In particular due to its antimicrobial and tissue regeneration abilities chitosan (a polymeric biomaterial obtained by the deacetylation of chitin) has received extensive attention for its effectiveness in promoting skin wound repair. On t...
Cancer is the second leading cause of death in the world, which is why it is so important to make an early and very precise diagnosis to obtain a good prognosis. Thanks to the combination of several imaging modalities in the form of the multimodal molecular imaging (MI) strategy, a great advance has been made in early diagnosis, in more targeted an...
List of contributors for the Book named "Magnetic Nanoparticle-Based Hybrid Materials" by Woodhead Publishing Series in Electronic and Optical Materials, 2021, Pages xv-xxi.
As cancer remains one of the leading causes of death, its accurate diagnosis at a very early stage is an important goal to obtain the best possible prognosis. By integrating complementary modalities, multimodal molecular imaging has improved the ability to diagnose early, guide therapy, and predict outcomes of cancer treatment. Toward this end, mag...
Applied nanotechnology has experienced tremendous advance over the last decade. In this study, the efficient synthesis of highly stable palladium-nanoparticles (PdNPs) biohybrids based on the application of an enzyme, which induces in situ the generation of spherical nanoparticles on the protein network, has been described. A heterogeneous material...
Enzyme‐powered micro/nanomotors have myriads of potential applications in various areas. To efficiently reach those applications, it is necessary and critical to understand the fundamental aspects affecting the motion dynamics. Herein, we explored the impact of enzyme orientation on the performance of lipase‐powered nanomotors by tuning the lipase...
The impact of enzyme orientation on the performance of lipase‐powered nanomotors was explored and analysed, indicating that hydrophobic interaction is the best strategy for immobilizing lipase to provide high‐efficiency catalysis. This results in a high‐efficiency enhanced Brownian motion, which would be vital in promoting the future applications o...
Functional properties of each enzyme strictly depend on immobilization protocol used for linking enzyme and carrier. Different strategies were applied to prepare the immobilized derivatives of Rhizomucor miehei lipase (RML) and chemically aminated RML (NH2-RML). Both RML and NH2-RML forms were covalently immobilized on glyoxyl sepharose (Gx-RML and...
Three different multifunctional nanosystems based on the tethering onto mesoporous silica nanoparticles (MSN) of different fragments such as an organotin-based cytotoxic compound Ph3Sn{SCH2CH2CH2Si(OMe)3} (MSN-AP-Sn), a folate fragment (MSN-AP-FA-Sn), and an enzyme-responsive peptide able to release the metallodrug only inside cancer cells (MSN-AP-...
Magnetic resonance imaging (MRI) is the most powerful technique for non-invasive diagnosis of human diseases and disorders. Properly designed contrast agents can be accumulated in the damaged zone and be internalized by cells, becoming interesting cellular MRI probes for disease tracking and monitoring. However, this approach is sometimes limited b...
Superparamagnetic iron oxide nanoparticles are one of the most prominent agents used in theranostic applications, with MRI imaging the main application assessed. The biomolecular interface formed on the surface of a nanoparticle in a biological medium determines its behaviour in vitro and in vivo. In this study, we have compared the formation of th...
Technologically useful and robust graphene-based interfaces for devices require the introduction of highly selective, stable, and covalently bonded functionalities on the graphene surface, whilst essentially retaining the electronic properties of the pristine layer. This work demonstrates that highly controlled, ultrahigh vacuum covalent chemical f...
Technologically useful and robust graphene-based interfaces for devices require the introduction of highly selective, stable and covalently bonded functionalities on the graphene surface, whilst essentially retaining the electronic properties of the pristine layer. This work demonstrates that highly-controlled, ultra-high vacuum covalent chemical f...
The immobilization of biocatalysts on magnetic nanomaterial surface is a very attractive alternative to achieve enzyme nanoderivatives with highly improved properties. The combination between the careful tailoring of nanocarrier surfaces and the site-specific chemical modification of biomacromolecules is a crucial parameter to finely modulate the c...
This paper reports the development of a novel strategy for the easy immobilization of low molecular weight haptens to microarray platforms by coating with modified lipase molecules. The chimers consist of a dextran network covalently coupled to bacterial thermoalkalophilic lipase (BTL2). The relative high surface hydrophobicity of lipase allows eas...
Statement of significance:
Magnetic iron oxide nanoparticles have great potential for biomedical applications. It is however imperative that these nanoreagents preserve their magnetic properties once inoculated, and that their degradation products can be eliminated. When placed in a biological milieu nanoparticles can aggregate and this can affect...
This work aims to emphasize that the magnetic response of single-domain magnetic nanoparticles (NPs) is driven by the NPs' internal structure, and the NP size dependencies of magnetic properties are overestimated. The relationship between the degree of the NPs' crystallinity and magnetic response is unambiguously demonstrated in eight samples of un...
Recently nanoparticle-based vaginal drug delivery formulations have been acquiring great attention for the administration of peptide based-vaccines or microbicides to prevent or treat sexually transmitted diseases. In this work, a straightforward and efficient strategy for the vaginal application and release of peptide-loaded mucoadhesive nanoparti...
In recent years nanomedicine showed quick growth by developing nanotechnologies that give new hope for detection, prevention, and treatment in oncology. In particular, magnetic nanoparticles—specifically the iron oxides—have emerged as one of the best candidates for cancer diagnosis (MRI) and therapy (hyperthermia, drug delivery, and gene therapy)...
Nowadays, thanks to the successful discoveries in the biomedical field achieved in the last two decades, a deeper understanding about the complexity of mechanistic aspects of different pathological processes has been obtained. As a consequence, even the standard therapeutic protocols have undergone a vast redesign. In fact, the awareness about the...
Promising advances in nanomedicine such as magnetic hyperthermia rely on a precise control of the nanoparticle performance in the cellular environment. This constitutes a huge research challenge due to difficulties for achieving a remote control within the human body. Here we report on the significant double role of the shape of ellipsoidal magneti...
This work has focused on the synthesis of three nanosystems composed of superparamagnetic iron oxide nanoparticles (SPIONs) coated either with a carboxylate platinum(IV) complex (PD = cis,cis,trans-[Pt(NH 3) 2 Cl 2 (HOOCCH 2 CH 2 COO)(OH)]) or with platinum(II) complex functionalized dextrans (DexPt1 = [Pt(Dex-NH 2)Cl 3 ] and DexPt2 = [Pt(Dex-NH 2)...
Three biocompatible polymers, polyethylene glycol (PEG), dextran and chitosan, have been used in this work to control the colloidal stability of magnetic nanoparticles (14 ± 5 nm in diameter) and to vary the aggregation state in order to study their effect on relaxometric and heating properties. Two different coating strategies have been deeply dev...
Biomedical magnetic colloids commonly used in magnetic hyperthermia experiments often display a bidisperse structure, i.e. are composed of stable nanoclusters coexisting with well dispersed nanoparticles. However, the influence of nanoclusters in the optimization of colloids for heat dissipation is usually left aside. In this work, bidisperse collo...
Magnetic nanoparticles (MNPs), in particular those based on iron oxides, have attracted a lot of attention during the last years for their applications in nanomedicine. This is due to their unique physicochemical properties, such as good biocompatibility, their size in the nanoscale and their superparamagnetism, making them useful for drug delivery...
A lipase-catalyzed preparation of ethyl and stearyl esters of chenodeoxycholic acid is described. Stearyl chenodeoxycholate is a new product and both bile acid esters were prepared through an enzymatic approach for the first time. The heterologous Rhizopus oryzae lipase, immobilized on two different supports proved to be an efficient catalyst, even...
Gum arabic (GA) is a hydrophilic composite polysaccharide derived from exudates of Acacia senegal and Acacia seyal trees. It is biocompatible, possesses emulsifying and stabilizing properties and has been explored as coating agent of nanomaterials for biomedical applications, namely magnetic nanoparticles (MNPs). Previous studies focused on the ads...
The preparation and performance of a suitable chimeric biosensor based on antibodies (Abs) immobilized on lipase-coated magnetic particles by means of a standing orienting strategy are presented. This novel system is based on hydrophobic magnetic particles coated with modified lipase molecules able to orient and further immobilize different Abs in...
Purpose:
Tumor cells can be effectively inactivated by heating mediated by magnetic nanoparticles. However, optimized nanomaterials to supply thermal stress inside the tumor remain to be identified. The present study investigates the therapeutic effects of magnetic hyperthermia induced by superparamagnetic iron oxide nanoparticles on breast (MDA-M...
The oriented attachment of magnetic nanoparticles is recognized as an
important pathway in the magnetic-hyperthermia cancer treatment roadmap, thus,
understanding the physical origin of their enhanced heating properties is a crucial task
for the development of optimized application schemes. Here, we present a detailed
theoretical analysis of the hy...
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In this work, a straightforward aqueous synthesis for mass production (up to 20 g) of uniform and
crystalline magnetite nanoparticles with a core sizes between 20 and 30 nm, which are the optimum
nanoparticle core sizes for hyperthermia application, is proposed. Magnetic and heating properties
have been analyzed showing very high saturation magneti...
The development of effective array biosensors is critically dependent on careful control of the density of surface immobilized ligands on the transducing platform. This paper describes the synthesis of new dextran-lipase conjugates of use as generic tools for immobilizing low molecular weight haptens onto glass planar waveguides for immunosensor de...
The straightforward synthesis of novel enzyme-metalNP nanobiohybrids in aqueous medium was developed. These new nanobiohybrids were excellent multivalent catalysts combining both activities in various sets of synthetic reactions even at ultra-low concentrations (ppb amount).
This Communication presents the development of a novel strategy for the easy conjugation of biomolecules to hydrophobic magnetic microparticles via reversible coating with previously functionalized lipase molecules. First, the ability of lipase to be strongly adsorbed onto hydrophobic surfaces was exploited for the stabilization of microparticles i...
β-galactosidase from Kluyveromyces lactis was covalently immobilised on a Glyoxyl Sepharose (GS) support by multi-point attachment. The enzyme immobilisation process was very efficient; the supports immobilised almost all the protein responsible for the catalytic activity in a short period of time, retaining approximately 82% of the activity in the...
Carbohydrates are complex and structurally diverse compounds in nature with key roles in a broad range of life processes including signal transduction, carcinogenesis and immune responses. Many natural products contain oligosaccharides that are vital for their biological activity. Despite ongoing challenges, tremendous progresses have been made in...
The enzymatic preparation of a monoacetyl derivative of the corticosteroid cortexolone, through a transesterification reaction, is described. The heterologous Rhizopus oryzae lipase, immobilized on three different supports, proved to be an efficient catalyst in the acylation reaction using a complex substrate such as cortexolone. Immobilization of...
The design of new strategies for improving the catalytic activity of lipases in their application on non-natural substrates is in great demand due to their biotechnological applications. This perspective illustrates the power of technologies, such as the immobilization of enzymes on nanomaterials and the site-specific chemical modification of enzym...
Rhizomucor miehei lipase (RML) is greatly hyperactivated (around 20- to 25-fold toward small substrates) in the presence of sucrose laurate. Hyperactivation appears to be an intramolecular process because it is very similar for soluble enzymes and covalently immobilized derivatives. The hyperactivated enzyme was immobilized (in the presence of sucr...
Sucrose laurate is a detergent that is useful for various biochemical applications because it is a green compound and is easily degradable after hydrolysis with a lipase or esterase. One problem observed in the process of sucrose laurate degradation is that most commercial detergent preparations are impure, necessitating the hydrolysis of all of th...
The aim of the present work was the development of vaginal sponge-like dressings based on chitosan ascorbate (CS) and on hyaluronic acid sodium salt/lysine acetate (HAS) combination. Sponge-like dressings were prepared by freeze-drying and characterized for mechanical resistance and mucoadhesion. CS dressings show higher mechanical and mucoadhesion...
The aim of the present work was the development of a thermally sensitive mucoadhesive gel based on chitosan derivatives for the treatment of oral mucositis. Trimethyl chitosan (TMC) and methylpyrrolidinone chitosan (MPC) were considered. They were mixed with glycerophosphate (GP) according to different polymer/GP molar ratios and characterized for...
Surface and structural investigations of natural biopolymer (chitosan) films containing various conventionally applied hydrophilic plasticizers (glycerol and poly(ethylene glycol) 400) were performed and the results were compared, with the aim of acquiring new information concerning the formation of these plasticized films. The surface tests reveal...
The aim of the present work was to investigate if chitosan salification with ascorbic acid could produce an increase in chitosan penetration enhancement properties towards buccal mucosa and intestinal Caco-2 cell monolayer. Three different chitosan grades were considered. Chitosan hydrochloride and lactate were used as references. Fluorescein isoth...
In the present work wound dressings, based on chitosan hydrochloride (HCS), 5-methyl-pyrrolidinone chitosan (MPC), and their mixtures with an anionic polymer, hyaluronic acid (HA), were prepared by freeze-drying. Chlorhexidine diacetate (CX) was used as an antimicrobic drug. The mechanical properties of the wound dressings were investigated. In par...
Negli ultimi anni è stata rivolta grande attenzione, in campo farmaceutico, alla messa a punto di sistemi di rilascio di farmaci da somministrare per vie alternative a quella orale, quali le vie buccale e vaginale, attraverso cui è possibile realizzare una somministrazione mucosale o transmucosale di farmaci. Una prima fase della ricerca è stata de...