Novel detection strategies that exploit the unique properties of gold nanoparticles (AuNPs) hold great promise for the advancement of diagnostic testing. Fundamental to many of these nanoparticle-enabled techniques is the immobilization of antibodies onto the AuNP surface to afford selective binding to target species. Orientation and loading density of the immobilized antibodies govern F ab accessibility and are critical to the analytical performance. Here, we use pH to systematically control the surface charge distribution on an antibody and investigate the impact of protein charge on adsorption to AuNPs. Nanoparticle tracking analysis (NTA) is used to measure the adsorption dynamics of anti-horseradish peroxidase antibody (anti-HRP) onto AuNPs at different pHs. NTA enables in situ measurement of antibody adsorption on AuNP by measuring the increase in hydrodynamic diameter (D H ) of the AuNPs as a function of antibody concentration. The adsorption affinity, protein layer thickness, and binding cooperativity at each pH are extracted from the best fit of the adsorption isotherms to the Hill-modified Langmuir equation. Our data show a monolayer of antibody is formed at saturation at pHs 7.5, 8.0, and 8.5, and no difference in anti-HRP-AuNP binding constants is observed in this pH range (K d ∼11 nM). However, the increase in D H of the AuNPs with adsorbed protein at monolayer coverage is pH-dependent, measuring 13.2 ± 1.1 nm, 9.8 ± 1.0 nm, and 7.4 ± 0.6 nm for pHs 7.5, 8.0, and 8.5, respectively. Moreover, results of an enzyme-mediated assay reveal the antigen-binding capacity of the immobilized anti-HRP antibody is 33 ± 2%, 23 ± 7%, and 18 ± 2% when adsorbed at pHs 7.5, 8.0, and 8.5, respectively. Our data confirm that antibody charge can be altered with pH to modulate and optimize antibody orientation on AuNP. These studies describe our continued efforts to establish design criteria to prepare conjugates with maximum antigen-binding activity that will enhance the performance of biofunctional nanomaterials.
Gold
nanoparticles (AuNPs) functionalized with antibodies have
the potential to improve biosensing technology because of the unique
optical properties of AuNPs and the specificity of antibody–antigen
interactions. Critical to the development and optimization of these
AuNP-enabled sensing technologies is the immobilization of the antibody
onto the AuNP. The development of novel immobilization strategies
that optimize antibody loading and orientation in an effort to enhance
antibody activity, and therefore assay performance, has been the focus
of many recent studies. However, few analytical methods exist to accurately
quantify the activity of conjugated antibodies and reliably compare
different immobilization strategies. Herein, we describe an enzyme-mediated
assay to quantify the fraction of the immobilized antibodies that
is accessible for antigen binding. Anti-horseradish peroxidase (anti-HRP)
antibody is mixed with AuNPs to allow for conjugation, and the unbound,
excess antibody is quantified with a modified Bradford assay to determine
antibody loading onto AuNPs. The conjugates are then mixed with excess
HRP to saturate all accessible binding sites, and bound HRP is quantified
based on enzymatic reaction rate. This analytical scheme was used
to compare two common immobilization strategies, nonspecific adsorption
and protein A-mediated immobilization. We found that the antibody
surface coverage is greater for direct adsorption than protein A-mediated
binding; however, 23 ± 6% of the directly adsorbed antibodies
were active, whereas 91 ± 19% of the antibodies bound through
protein A were active. In addition to establishing this method as
quantitatively precise and accurate, our results emphasize the need
to quantify both antibody loading and antibody activity upon conjugation
to gain greater insight into differences in immobilization chemistries
and identify optimum protein conjugation strategies to maximize immunoassay
performance.
RAS effector signaling instead of being simple, unidirectional and linear cascade, is actually recognized as highly complex and dynamic signaling network. RAF-MEK-ERK cascade, being at the center of complex signaling network, links to multiple scaffold proteins through feed forward and feedback mechanisms and dynamically regulate tumor initiation and progression. Three isoforms of Ras harbor mutations in a cell and tissue specific manner. Besides mutations, their epigenetic silencing also attributes them to exhibit oncogenic activities. Recent evidences support the functions of RAS oncoproteins in the acquisition of tumor cells with Epithelial-to-mesenchymal transition (EMT) features/ epithelial plasticity, enhanced metastatic potential and poor patient survival. Google Scholar electronic databases and PubMed were searched for original papers and reviews available till date to collect information on stimulation of EMT core inducers in a Ras driven cancer and their regulation in metastatic spread. Improved understanding of the mechanistic basis of regulatory interactions of microRNAs (miRs) and EMT by reprogramming the expression of targets in Ras activated cancer, may help in designing effective anticancer therapies. Apparent lack of adverse events associated with the delivery of miRs and tissue response make 'drug target miRNA' an ideal therapeutic tool to achieve progression free clinical response.
Sera from Indian patients with parasitologically confirmed visceral leishmaniasis were studied by immunoblot analysis in order to identify a specific pattern for Leishmania infection. A soluble extract of Leishmania donovani was used as antigen. At diagnosis the sera from patients with visceral leishmaniasis specifically recognized fractions represented by bands of 201 kDa (50% of serum samples), 193 kDa (60%), 147 kDa (50%), 120 kDa (60%), 100 kDa (50%), 80 kDa (80%), 70 kDa (70%), 65 kDa (100%), 50 kDa (50%), 36 kDa (50%), 20 kDa (70%), and 18 kDa (50%). The 65-kDa band, common to all patients infected with Leishmania parasites, was found at the time of diagnosis. However, the immunoblot pattern changed after patients were treated and cured with sodium antimony gluconate (SAG; n )01؍ or miltefosine (n ,)01؍ as was evident from blots of sera obtained pretreatment and at 1, 3, and 6 months posttreatment. At 6 months posttreatment, immunoblots of sera from patients on the SAG regimen showed the disappearance of all bands except the 70-kDa band. Similarly, sera from those on the miltefosine regimen showed the disappearance of all bands except the 65-and 70-kDa bands. This study shows that Western blot analysis is a sensitive test for detection of anti-Leishmania antibodies. Moreover, the persistence of reactivity with the 65-and 70-kDa bands in the sera of all groups shows its promise as a diagnostic and prognostic tool.
Background: Health care associated infections and emerging multi drug resistance in nosocomial pathogens is perceived as a serious public health threat with grievous concerns. Hand hygiene if practiced properly is cheapest, simplest and most effective tool in tackling this problem. The objective of this study was conducted to assess levels of knowledge, attitude and practice in various aspects of hand hygiene in nurses and nursing students in the study area for identifying gaps for planning necessary corrective measures.Methods: A cross sectional study involving self-administered pre-structured anonymous questionnaires administered to 50 staff nurses and 80 nursing students posted at a tertiary health care center of Central India. Z test of proportions was used to compare the percentages for each of the appropriate responses between the two study groups.Results: Most of the study participants exhibited moderate levels of knowledge and practice with marginal difference between two study groups. While nursing students were found to exhibit a remarkably higher level of attitude than staff nurses, difference being statistically significant.Conclusions: This study stresses upon the growing need for prompt interventions at institutional level for addressing the gaps evident from the study.
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