Avaliação da atividade anti-glicação de proteína por 4-nerolidilcatecol isolado de Pothormorphe umbellata (L.) Miq. / Evaluation of the protein anti-glycation activity of 4-nerolydilcatechol isolated from Pothomorphe umbellata (L.) Miq.

Mary Sanae Nakamura

07 November 2007

A glicação é uma reação não enzimática que ocorre entre proteínas e açúcares redutores e, é responsável pela formação de adultos e de ligações cruzadas entre proteínas, como por exemplo: a pentosidina, produto final de glicação avançada que se acumula em vários tecidos ao longo do tempo. A glicação é deletéria para o organismo e está associada a modificações estruturais em proteínas e alterações de suas funções específicas, tais como: atividade enzimática, capacidade de ligação e tempo de vida de proteínas, além de ser responsável pela produção de espécies reativas de oxigênio (EROS). O mecanismo de formação da pentosidina envolve reações oxidativas e, uma das estratégias para minimizá-Ia é o aumento da atividade antioxidante nos tecidos. A pariparoba (Pothomorphe umbellata (L.) Miq) demonstrou atividade antioxidante in vitro e in vivo quando aplicada sobre a pele. Essa atividade foi atribuída ao 4-nerolidilcatecol (4-NC), que se mostrou 10 vezes mais potente que o α-tocoferol. Os extratos de pariparoba também inibiram a lipoperoxidação espontânea da pele em camundongos sem pelo. Neste trabalho empregou-se o modelo de glicação de albumina de soro bovino (BSA) frente à D-ribose, com avaliação da fluorescência produzida pela pentosidina formada na reação. Avaliou-se igualmente a atividade do 4-NC em diferentes concentrações sobre a reação de glicação da BSA em presença de D-ribose após 24 horas, empregando-se a aminoguanidina como controle positivo. Nas condições experimentais o 4-NC não foi capaz de inibir a reação de glicação, ao contrário da aminoguanidina. Foi também utilizado modelo para avaliação da propriedade contrátil de fibroblastos em matriz tridimensional de gel de colágeno, glicado e não glicado com D-ribose. O 4-NC na concentração de 100 µM permitiu a manutenção da propriedade contrátil de fibroblastos em gel colágeno glicado. Estudos de glicação em maiores períodos de tempo devem ser realizados visando a confirmar a possível atividade anti-glicação deste composto. / Glycation is a non enzymatic reaction which occurs between proteins and reductor sugars, responsible for the formation of adducts and crosslinkers between proteins, such as, pentosidine, an advanced glycation end-product (AGE) which accumulates in many tissues during aging. AGEs accumulation is deleterious to the body and is associated with structural modifications in proteins and imbalance in their specific functions, such as: enzymatic activity, binding capacity, protein turnover and also responsible for the production of reactive oxygen species (ROS). The mechanism of pentosidine formation involves oxidative reactions. One of the strategies to reduce pentosidine formation is by increasing antioxidant activity in tissues. Pariparoba (Pothomorphe umbellata (L.) Miq. has showed antioxidant activity in vitro and in vivo when applied on the skin. This activity was attributed to 4-nerolydilcatechol (4-NC), which is 10 times more potent than α-tocopherol. Extracts of Pariparoba also inhibited the spontaneous lipid peroxidation in the skin of hairless mice. In this work, the bovine serum albumin (BSA) model for glycation with D-ribose, evaluated by pentosidine fluorescence spectroscopy was employed. The activity of 4¬NC was evaluated in different concentrations in this model after 24 hours. Aminoguanidine was used as positive control. In this experimental condition, 4-NC was not capable to inhibit the BSA glycation. We also evaluated the contractile properties of fibroblasts on tridimensional matriz of collagen gel glycated or not with D-ribose. 4-NC (100 µM) was able to keep the contractile capacity of fibroblasts in glycated collagen. Studies of glycation in longer periods of time should be made in order to further evaluate the possible anti-glycation activity of this compound.

4-nerolidilcatecol

Albumina de soro bovino

Antioxidantes (Efeitos; Avaliação)

Contração de gel de colágeno

Cosméticos (Experimentos)

Farmacognosia

Glicação

Pentosidina

4-nerolydilcatechol

Antioxidants (Effects; Evaluation)

Bovine serum albumin

Collagen gel contraction

Cosmetics (Experiments)

Glycation

Pentosidine

Pharmacognosy

Electrochemical Biosensors based on Novel Receptors for Diabetes Management

Kumar, Vinay

January 2016

To address the challenge of accurate, low cost and robust biosensors for diabetes management and early detection of diabetes complications, we have developed novel, robust sensing chemistry (or receptors) for electrochemical POC biosensors. The biosensors have been developed for the bio-markers associated with diabetes management such as glycated haemoglobin (HbA1c), glycated albumin, glucose, biomarkers associated with diabetes complications such as microalbuminuria, urine creatinine and albumin-to-creatinine ratio (ACR) and biomarkers associated with anaemia and malnutrition conditions such as haemoglobin and serum albumin. For haemoglobin detection, a new POC bio sensing technique has been developed based on Aza-heterocyclic chemicals. The repeatability and accuracy of the biosensor have been tested on real pathology samples. The glycated form of haemoglobin, called glycated haemoglobin or HbA1c, is the gold standard test in diabetes management as it gives the 90-days average blood glucose value. We demonstrate a simple method for electrochemical detection of HbA1c by combining bosonic affinity principle along with aza-heterocyclic receptors. The technique has been verified on the real clinical patient samples. Albumin is the most abundant protein in the human blood. Human serum albumin (HSA) is either alone or an associative biomarker in several chronic diseases like necrosis, nephrosis, hepatitis, malnutrition, arthritis, immune disorders, cancer, diabetes and in some severe infections. In pathology laboratories, the serum albumin is usually tested on serum samples and not in whole blood samples. Since albumin is not a metalloproteinase, it is very difficult to develop electrochemical POC biosensor. We have developed a novel technique for the electrochemical detection of serum albumin in whole blood samples, by exploiting its binding property with redox active copper salts. The accuracy of technique has been verified on both real human blood plasma as well as whole blood samples. Glycated albumin, which is the glycated form of serum albumin, is emerging as a novel biomarker for diabetes management, as it gives the average blood glucose value of 15-20 days. It is also extremely useful in chronic kidney disease patients and patients with hemoglobinopathies where HbA1c can give the erroneous results. By combining the copper chemistry along with bosonic affinity principle, we present the first ever demonstration of glycated albumin sensing. Instant blood glucose monitoring is an integral part of diabetes management. Most of the glucometers available in the market are based on glucose oxidase enzyme. We have demonstrated a low cost non-enzymatic electrochemical technique for blood glucose detection using alkaline methylene blue chemistry. The accuracy of the technique has been verified on real human blood plasma samples. Glucometer is one of the most easily available POC biosensor and a useful tool for diabetes population. India has second largest diabetes population in the world. To analyse the accuracy of the POC glucometers which are available in Indian market, a comprehensive study was conducted. The results were compared with clinical accuracy guidelines using exhaustive statistical analysis techniques. The shortcomings of the commercial glucometers are elucidated, regarding different international standards. Diabetic nephropathy is one of the major diabetes complications and is the primary cause of chronic kidney disease (CKD). The presence of albumin in urine is a well-established biomarker for the early detection of diabetic nephropathy. We have developed a technique for electrochemical detection of microalbuminuria for point of care applications by exploring the binding property of human albumin with electrochemically active molecules like copper and hemin. Methylene blue mediated sensing technique has also been proposed. Urine Albumin-to creatinine ratio (ACR) is another variant of the microalbumuria test that can be done any time and does not suffer from the dilution factor of urine. Iron binding property of creatinine is exploited to develop creatinine biosensor, thus enabling POC ACR tests.

Electrochemical Biosensors

Targeted Biomarkers

Hemoglogin Electrochemical Detection

Blood Glucose Electrochemical Detection

Electrochemical Point of Care Biosensors

Electrochemical Glucose Biosensors

Blood Glucose

Nano Science and Engineering

Elektrochemická impedanční spektroskopie jako charakterizační metoda modifikovaných nanostrukturovaných elektrod / Electrochemical impedance spectroscopy as a nanostructured bioelectrodes characterization method

Vrbová, Eva

January 2015

Diploma thesis deals of nanostructured surfaces, nanoparticles and electrochemical characterization methods such as cyclic voltammetry, differential pulse voltammetry and electrochemical impedance spectroscopy. The aim of this thesis is a theoretical research issues of production and characterization nanostructured modified electrodes. The practical part is the production of biomodified nanostructured electrodes by anodi- zation W/Al layers with galvanic deposition of gold or deposition of mercury, a modifi- cation of the electrodes by 11-mercaptoundecanoic acid and by bovine serum albumin (BSA). The thesis includes SEM images of nanostructured electrodes contact angle mea- surements of these electrodes and form an electrical circuit with subsequent simulation waveforms.

Studium buněčné toxicity vybraných nanočástic v tkáňových kulturách. / Study of Cellular Toxicity of Representative Nanoparticles in Tissue Cultures.

Filipová, Marcela

January 2020

Safety concerns arising from cytotoxic behavior of nanoparticles (NPs) in complex biological environment remain the main problem limiting NPs application in biomedicine. In this study, we have investigated cytotoxicity of NPs with different composition, shape and size, namely SiO2 NPs (SiNPs, 7-14 nm), superparamagnetic iron oxide NPs (SPIONs, 8 nm) and carboxylated multiwalled carbon nanotubes (CNTCOOHs, diameter: 60-100 nm, length: 1-2 μm). Cytotoxicity was evaluated with newly designed screening assay capable to simultaneously assess activity of cell dehydrogenases, activity of lactate dehydrogenase (LDH) released from cells into environment and number of intact cell nuclei and apoptotic bodies in human umbilical vein endothelial cell (HUVEC) culture growing in the very same well of the 96-well plate. Aforementioned attributes were subsequently utilized to obtain information about cell viability and necrotic and apoptotic aspects of cell death. Results from this "three-in-one" cell death screening (CDS) assay showed that SiNPs and CNTCOOHs evoked pronounced cytotoxic effect demonstrated as decrease of cell viability and development of apoptotic bodies formation. In contrast to this, SPIONs induced only mild cytotoxicity. Moreover, SiNPs impaired cell membrane leading to increased LDH release...

Reduced Burst Release of Bioactive rhBMP-2 from a Three-phase Composite Scaffold

Grant, David William

31 December 2010

Recombinant human bone morphogenic proteins (rhBMPs) are extensively studied and employed clinically for treatment of various bone defects. Current clinical delivery vehicles suffer wasteful burst releases that mandate supra-physiological dosing driving concerns over safety and cost. It was therefore investigated whether a unique drug delivery vehicle sequestered within a composite scaffold could lower the burst release of rhBMP-2. PLGA-calcium phosphate tri-phasic composite scaffolds delivered model protein BSA with burst release of ~13% and sustained kinetics of 0.5-1.5% BSA/day up to 45 days. rhBMP-2 was delivered with zero burst release however at much lower levels, totaling 0.09% to 0.9 % release over 10 days, but had up to 6.3-fold greater bioactivity than fresh rhBMP-2 (p<0.05). In conclusion, the three-phase composite scaffold can deliver bioactive proteins with a reduced burst release and sustained secondary kinetics.

Drug delivery

Bone

Bone morphogenic protein

BMP

BMP-2

rhBMP-2

bone graft

tissue engineering

scaffold

bone tissue engineering

regenerative medicine

osteoinduction

osteoconduction

osteogenesis

generative surgery

autoraft replacement

synthetic autograft replacement

morphogenic bioactivity assay

protein release kinetics

bovine serum albumin

model protein

biomaterials

biomaterial surface analysis

scanning electron microscope application

accelerating voltage application

burst release

sustained kinetics

sustained delivery

composite scaffold

three phase scaffold

PLGA

calcium phosphate

mineral-polymer composite

sterilization

BMP sterilization

long-term storage

BMP storage

0541

Reduced Burst Release of Bioactive rhBMP-2 from a Three-phase Composite Scaffold

Grant, David William

31 December 2010

Recombinant human bone morphogenic proteins (rhBMPs) are extensively studied and employed clinically for treatment of various bone defects. Current clinical delivery vehicles suffer wasteful burst releases that mandate supra-physiological dosing driving concerns over safety and cost. It was therefore investigated whether a unique drug delivery vehicle sequestered within a composite scaffold could lower the burst release of rhBMP-2. PLGA-calcium phosphate tri-phasic composite scaffolds delivered model protein BSA with burst release of ~13% and sustained kinetics of 0.5-1.5% BSA/day up to 45 days. rhBMP-2 was delivered with zero burst release however at much lower levels, totaling 0.09% to 0.9 % release over 10 days, but had up to 6.3-fold greater bioactivity than fresh rhBMP-2 (p<0.05). In conclusion, the three-phase composite scaffold can deliver bioactive proteins with a reduced burst release and sustained secondary kinetics.

Drug delivery

Bone

Bone morphogenic protein

BMP

BMP-2

rhBMP-2

bone graft

tissue engineering

scaffold

bone tissue engineering

regenerative medicine

osteoinduction

osteoconduction

osteogenesis

generative surgery

autoraft replacement

synthetic autograft replacement

morphogenic bioactivity assay

protein release kinetics

bovine serum albumin

model protein

biomaterials

biomaterial surface analysis

scanning electron microscope application

accelerating voltage application

burst release

sustained kinetics

sustained delivery

composite scaffold

three phase scaffold

PLGA

calcium phosphate

mineral-polymer composite

sterilization

BMP sterilization

long-term storage

BMP storage

0541