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1. Gauge $\times$ Gauge $=$ Gravity on Homogeneous Spaces using Tensor Convolutions

Author

Borsten, L., Jubb, I., Makwana, V., and Nagy, S.

Subjects
High Energy Physics - Theory, Mathematical Physics
Abstract

A definition of a convolution of tensor fields on group manifolds is given, which is then generalised to generic homogeneous spaces. This is applied to the product of gauge fields in the context of `gravity $=$ gauge $\times$ gauge'. In particular, it is shown that the linear Becchi-Rouet-Stora-Tyutin (BRST) gauge transformations of two Yang-Mills gauge fields generate the linear BRST diffeomorphism transformations of the graviton. This facilitates the definition of the `gauge $\times$ gauge' convolution product on, for example, the static Einstein universe, and more generally for ultrastatic spacetimes with compact spatial slices.

Published
2021
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2. Gauge $\times$ Gauge on Spheres

Author

Borsten, L., Jubb, I, Makwana, V., and Nagy, S.

Subjects
High Energy Physics - Theory, General Relativity and Quantum Cosmology
Abstract

We introduce a convolution on a 2-sphere and use it to show that the linearised Becchi-Rouet-Stora-Tyutin transformations and gauge fixing conditions of Einstein-Hilbert gravity coupled to a two-form and a scalar field, follow from the product of two Yang-Mills theories. This provides an example of the convolutive product of gauge theories on a non-trivial background. By introducing a time direction the product is shown to extend to the $D=1+2$ Einstein-static universe., Comment: 24 pages

Published
2019
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12. Mid-term Outcomes of Patella Resurfacing During Total Knee Arthroplasty (TKA): Clinical, Functional, and Radiographic Insights.

Author

Bajwa S, Aneja K, Rudraraju RT, Machaiah P, Bhalodiya HP, Singh RK, Makwana V, Singh A, Logani V, Chatterjee B, Solanki DS, Wakankar H, Mahajan S, Yadav C, Thakkar AK, Chandra U, Ansari S, and Sivakumar S

Abstract

Aim The primary objective of the study was to evaluate the mid-term implant survivability, rate of revisions, and clinical and functional outcomes following patella resurfacing during total knee arthroplasty (TKA) utilizing posterior stabilized (PS) total knee system (TKS). Methods A prospective, single-arm, multi-center, post-marketing surveillance encompassed patients with end-stage primary knee osteoarthritis (OA) or inflammatory arthritis. The time points of the study included baseline, six weeks, six months, one year, and three years post-operatively. Clinical outcomes included Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC) score, Short Form-36 questionnaire (SF-36), and Knee Society Score (KSS) for quality of life (QoL). Radiographs assessed loosening, patella tracking, and implant longevity. Functional outcomes were assessed by range of motion (ROM). Result The study included 74 patients undergoing patella resurfacing during TKA with a PS all-poly component TKS at 10 centers in India. Among the study population, 85% were female, and the average age of the population was 65.13±7.20 years. End-stage OA (70 patients) and inflammatory arthritis (four patients) were the prevalent conditions. Patella sizes used were: 25 mm (n=1), 28 mm (n=29), 31 mm (n=40), and 34 mm (n=4). Primary outcomes showed implant survival was 100% with no revisions after three years. Local soft tissue infections and discomfort affected 3.2%, with no additional adverse events. Radiographs showed well-implanted patellar components with no misalignment or wear after three years. Secondary outcomes showed a significant three-year increase in mean ROM from 85.50°±15.02° to 122.45°±2.44°. After three years, clinical and functional KSS improved to 90.36±3.72 (baseline: 21.11±14.49) p<0.001 and 97.95±3.67 (baseline: 27.16±13.22) p<0.001, respectively. WOMAC values for pain, stiffness, and difficulty decreased significantly (p<0.001) over the three-year duration. SF-36 evaluating QoL showed substantial improvements (physical functioning, role limitation, and general health). Conclusion The study highlights the success of patella resurfacing during TKA, demonstrating excellent implant survival, improved functional outcomes, and QoL over a three-year period., Competing Interests: Human subjects: Consent for treatment and open access publication was obtained or waived by all participants in this study. Saviour Hospital Ethics Committee, Ahmedabad issued approval ECR/656/Inst/GJ/2014/RR-21 2026. The study was reviewed and approved by the local Institutional Review Boards at respective sites. Following are details of the Ethics Committee approval number of each site: (i) Saviour Hospital Ethics Committee, Ahmedabad - ECR/656/Inst/GJ/2014/RR-21 2026; (ii) Sangini Hospital Ethics Committee, Ahmedabad - ECR/147/Inst/GJ/2013/RR-19; (iii) Amandeep Hospital and Clinics Institutional Ethics Committee, Ludhiana - ECR/692/Inst/PB/2014/RR-20; (iv) Paras Hospital Ethics Committee, Gurugram - ECR/249/Inst/Har/2013/RR-19; (v) Apollo Gleneagles Hospital Institutional Ethics Committee, Kolkata - ECR/373/Inst/WB/2013/RR-19; (vi) Artemis Health Sciences Institutional Ethics Committee, Gurgaon - ECR/53/Inst/HR/2013/RR-19; (vii) Deenanath Mangeshkar Hospital and Research Centre Institutional Ethics Committee, Pune - ECR/15/Inst/Maha/2013/RR-22; (viii) Fortis Hospital Institutional Ethics Committee, Ludhiana - ECR/746/Inst/PB/2015/RR-22; (ix) All India Institute of Medical Sciences Institutional Ethics Committee, Delhi - ECR/538/Inst/DL/2014/RR-20. Animal subjects: All authors have confirmed that this study did not involve animal subjects or tissue. Conflicts of interest: In compliance with the ICMJE uniform disclosure form, all authors declare the following: Payment/services info: All authors have declared that no financial support was received from any organization for the submitted work. Financial relationships: Ashok Kumar Thakkar declare(s) employment from Meril Life Sciences Private Limited, Gujarat, India. He is the Head of the Department of Clinical Research and Medical Writing and is a full-time employee of Meril Life Sciences Private Limited, Gujarat, India. Shivadharshni Sivakumar declare(s) employment from Meril Life Sciences Private Limited, Gujarat, India. She is a full time employee of Meril Life Sciences Private Limited, Gujarat, India. Udita Chandra declare(s) employment from Meril Life Sciences Private Limited, Gujarat, India. She is the Deputy General Manager of the Department of Clinical Research and Medical Writing and is a full-time employee of Meril Life Sciences Private Limited, Gujarat, India. Sanaa Ansari declare(s) employment from Meril Life Sciences Private Limited, Gujarat, India. She is a full-time employee of Meril Life Sciences Private Limited, Gujarat, India. Other relationships: The study is part of an ongoing “Freedom 400-PMS" study (CTRI No: CTRI/2016/11/007455) funded by Meril Life Sciences Private Limited, Vapi, Gujarat, India. Ashok Kumar Thakkar, Udita Chandra, Sanaa Ansari, and Shivadharshni Sivakumar are full-time employees of Meril Life Sciences Private Limited, Vapi, Gujarat, India. All other authors have no conflict of interest to declare related to the manuscript., (Copyright © 2024, Bajwa et al.)

Published
2024
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13. Tumor-derived systems as novel biomedical tools-turning the enemy into an ally.

Author

Desai N, Katare P, Makwana V, Salave S, Vora LK, and Giri J

Abstract

Cancer is a complex illness that presents significant challenges in its understanding and treatment. The classic definition, "a group of diseases characterized by the uncontrolled growth and spread of abnormal cells in the body," fails to convey the intricate interaction between the many entities involved in cancer. Recent advancements in the field of cancer research have shed light on the role played by individual cancer cells and the tumor microenvironment as a whole in tumor development and progression. This breakthrough enables the utilization of the tumor and its components as biological tools, opening new possibilities. This article delves deeply into the concept of "tumor-derived systems", an umbrella term for tools sourced from the tumor that aid in combatting it. It includes cancer cell membrane-coated nanoparticles (for tumor theranostics), extracellular vesicles (for tumor diagnosis/therapy), tumor cell lysates (for cancer vaccine development), and engineered cancer cells/organoids (for cancer research). This review seeks to offer a complete overview of the tumor-derived materials that are utilized in cancer research, as well as their current stages of development and implementation. It is aimed primarily at researchers working at the interface of cancer biology and biomedical engineering, and it provides vital insights into this fast-growing topic., (© 2023. The Author(s).)

Published
2023
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14. Engineering immunity via skin-directed drug delivery devices.

Author

Polaka S, Makwana V, Vasdev N, Sheth A, Rajpoot K, Sengupta P, and Tekade RK

Subjects
Adjuvants, Immunologic, Drug Delivery Systems, Immunity, Cellular, Immunity, Mucosal, Liposomes, Reproducibility of Results, Vaccination, Nanoparticles, Vaccines
Abstract

Extensive research is underway to discover a safe and effective vehicle to deliver the vaccines at the desired cutaneous site. These efforts majorly comprise the development of a fit-to-purpose vehicle for in-situ intracutaneous vaccine delivery for achieving the systemic cellular and humoral response to combat infectious diseases. Advancements in nanoscience, bioengineering, and skin science provided much support to vaccine adjuvant development. However, the bench-to-bed side translation of vaccines is still unsatisfactory. A skilfully designed vaccine delivery program aiming to translate the product into market use must address safety, efficacy, scaleup, reproducibility, cost of production, self-administrative potential, and regulatory concerns. This review provides deep insights into skin immunization approaches like mucosal vaccines, cellular/molecular immunological responses, and antigen-adjuvant combinations in modulating immunity. Further, the manuscript discusses distinct vaccine delivery systems used to date for engineering skin immunization, including microparticles, nanoparticles, spherical nucleic acids, STAR particles, niosomes, dendrimers, ethosomes, liposomes, and microneedles. The manuscript will interest researchers working towards developing a next-generation fit-to-purpose vehicle for intracutaneous vaccine delivery., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published
2022
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15. Development, Characterization, and In Vivo Evaluation of a Novel Aptamer (Anti-MUC1/Y) for Breast Cancer Therapy.

Author

Khan H, Makwana V, Santos SND, Bonacossa de Almeida CE, Santos-Oliveira R, and Missailidis S

Abstract

MUC1, the transmembrane glycoprotein Mucin 1, is usually found to be overexpressed in a variety of epithelial cancers playing an important role in disease progression. MUC1 isoforms such as MUC1/Y, which lacks the entire variable number of tandem repeat region, are involved in oncogenic processes by enhancing tumour initiation. MUC1/Y is therefore considered a promising target for the identification and treatment of epithelial cancers; but so far, the precise role of MUC1/Y remains to be elucidated. In this work, we developed and identified a DNA aptamer that specifically recognizes the splice variant MUC1/Y for the first time. The DNA aptamer could bind to a wide variety of human cancer cells, and treatment of MUC1/Y positive cells resulted in reduced growth in vitro. Moreover, MUC1/Y aptamer inhibited the tumour growth of breast cancer cells in vivo. The present study highlights the importance of targeting MUC1/Y for cancer treatment and unravels the suitability of a DNA aptamer to act as a new therapeutic tool.

Published
2021
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16. Signalling transduction of O-GlcNAcylation and PI3K/AKT/mTOR-axis in prostate cancer.

Author

Makwana V, Rudrawar S, and Anoopkumar-Dukie S

Subjects
Humans, Male, Phosphatidylinositol 3-Kinases chemistry, Prostatic Neoplasms metabolism, Proto-Oncogene Proteins c-akt chemistry, Signal Transduction, TOR Serine-Threonine Kinases chemistry, Acetylglucosamine metabolism, N-Acetylglucosaminyltransferases metabolism, Phosphatidylinositol 3-Kinases metabolism, Prostatic Neoplasms pathology, Protein Processing, Post-Translational, Proto-Oncogene Proteins c-akt metabolism, TOR Serine-Threonine Kinases metabolism
Abstract

Hexosamine biosynthetic (HBP) and PI3K/AKT/mTOR pathways are found to predominate the proliferation and survival of prostate cancer cells. Both these pathways have their own specific intermediates to propagate the secondary signals in down-stream cascades and besides having their own structured network, also have shared interconnecting branches. These interconnections are either competitive or co-operative in nature depending on the microenvironmental conditions. Specifically, in prostate cancer HBP and mTOR pathways increases the expression and protein level of androgen receptor in order to support cancer cell proliferation, advancement and metastasis. Pharmacological inhibition of a single pathway is therefore insufficient to stop disease progression as the cancer cells manage to alter the signalling channel. This is one of the primary reasons for the therapeutic failure in prostate cancer and emergence of chemoresistance. Inhibition of these multiple pathways at their common junctures might prove to be of benefit in men suffering from an advanced disease state. Hence, a thorough understanding of these cellular intersecting points and their significance with respect to signal transduction mechanisms might assist in the rational designing of combinations for effective management of prostate cancer., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2021
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17. Bisubstrate Ether-Linked Uridine-Peptide Conjugates as O-GlcNAc Transferase Inhibitors.

Author

Makwana V, Ryan P, Malde AK, Anoopkumar-Dukie S, and Rudrawar S

Subjects
Dose-Response Relationship, Drug, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors chemistry, Ethers chemistry, Humans, Molecular Dynamics Simulation, Molecular Structure, N-Acetylglucosaminyltransferases metabolism, Peptides chemistry, Structure-Activity Relationship, Substrate Specificity, Uridine chemistry, Enzyme Inhibitors pharmacology, Ethers pharmacology, N-Acetylglucosaminyltransferases antagonists & inhibitors, Peptides pharmacology, Uridine pharmacology
Abstract

The O-linked β-N-acetylglucosamine (O-GlcNAc) transferase (OGT) is a master regulator of installing O-GlcNAc onto serine or threonine residues on a multitude of target proteins. Numerous nuclear and cytosolic proteins of varying functional classes, including translational factors, transcription factors, signaling proteins, and kinases are OGT substrates. Aberrant O-GlcNAcylation of proteins is implicated in signaling in metabolic diseases such as diabetes and cancer. Selective and potent OGT inhibitors are valuable tools to study the role of OGT in modulating a wide range of effects on cellular functions. We report linear bisubstrate ether-linked uridine-peptide conjugates as OGT inhibitors with micromolar affinity. In vitro evaluation of the compounds revealed the importance of donor substrate, linker and acceptor substrate in the rational design of bisubstrate analogue inhibitors. Molecular dynamics simulations shed light on the binding of this novel class of inhibitors and rationalized the effect of amino acid truncation of acceptor peptide on OGT inhibition., (© 2020 Wiley-VCH GmbH.)

Published
2021
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18. Liposomal doxorubicin as targeted delivery platform: Current trends in surface functionalization.

Author

Makwana V, Karanjia J, Haselhorst T, Anoopkumar-Dukie S, and Rudrawar S

Subjects
Drug Delivery Systems, Liposomes, Polyethylene Glycols, Antineoplastic Agents therapeutic use, Doxorubicin analogs & derivatives
Abstract

Liposomal delivery systems have significantly enhanced the efficacy and safety of chemotherapeutic agents compared to free (non-liposomal) formulations. Liposomes are vesicles made up of lipophilic bilayer and a hydrophilic core which provides perfect opportunity for their application as transport vehicle for various therapeutic and diagnostic agents. Doxorubicin is the most exploited chemotherapeutic agent for evaluation of different liposomal applications, as its physicochemical properties permit high drug entrapment and easy remote loading in pre-formulated liposomes. Pegylated liposomal doxorubicin clinically approved and, on the market, Doxil®, exemplifies the benefits offered upon the surface modification of liposome with polyethylene glycol. This unique formulation prolonged the drug residence time in the circulation and increased accumulation of doxorubicin in tumor tissue via passive targeting (enhanced permeability and retention effect). However, there is ample scope for further improvement in the efficiency of targeting tumors by coupling biological active ligands onto the liposome surface to generate intelligent drug delivery systems. Small biomolecules such as peptides, fraction of antibodies and carbohydrates have the potential to target receptors present on the surface of the malignant cells. Hence, active targeting of malignant cells using functionalised nanocarrier (liposomes encapsulated with doxorubicin) have been attempted which is reviewed in this article., (Copyright © 2020. Published by Elsevier B.V.)

Published
2021
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19. Investigating the Impact of OGT Inhibition on Doxorubicin- and Docetaxel-Induced Cytotoxicity in PC-3 and WPMY-1 Cells.

Author

Makwana V, Dukie AS, and Rudrawar S

Subjects
Apoptosis, Cell Line, Tumor, Gene Expression Regulation drug effects, Humans, Male, Prostatic Neoplasms, Antineoplastic Agents pharmacology, Cell Survival drug effects, Docetaxel pharmacology, Doxorubicin pharmacology, N-Acetylglucosaminyltransferases antagonists & inhibitors
Abstract

Reduction in sensitivity in terms of cytotoxicity is responsible for therapy failure in patients undergoing chemotherapy with first-line anticancer drug molecules. A plethora of literature evidence points out that increased O -linked β- N -acetylglucosamine transferase (OGT) enzyme level/hyper- O -GlcNAcylation has direct implications in development of cancer and interferes with clinical outcomes of chemotherapy via interaction with oncogenic factors. The aim of this research was to evaluate the combination approach of anticancer drugs with an OGT inhibitor (OSMI-1) as an alternative way to resolve issues in the treatment of prostate cancer and assess the benefits offered by this approach. Effect of combination of doxorubicin and docetaxel with OSMI-1 on drug-induced cell death and synergism/antagonism was investigated using resazurin assay. Reduction in OGT enzyme level was evaluated using ELISA kit. Caspase-3/7 fluorescence assay was performed to detect apoptosis induction in PC-3 cells after treatment with the combinations of doxorubicin and OGT inhibitor to further understand the mechanism of cell death by concomitant treatment. Studies reveal that combination approach is indeed effective in terms of reducing the half-maximum growth inhibition value of doxorubicin when concomitantly treated with OSMI-1 and has synergistic effect in prostate cancer cells. PC-3 cells exhibited elevated levels of OGT enzyme in comparison to WPMY-1, and OSMI-1 has potential to inhibit OGT enzyme significantly. Data show that OSMI-1 alone and in combination with doxorubicin reduces OGT enzyme level significantly accompanied by increased apoptosis in prostate cancer cells. Combination of doxorubicin with OSMI-1 reduced the elevated OGT level which led to a drastic increase in sensitivity of PC-3 cells toward doxorubicin in comparison to doxorubicin alone. This finding provides important insight regarding alternative treatment strategies for effective management of cancer.

Published
2020
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20. Essential role of O-GlcNAcylation in stabilization of oncogenic factors.

Author

Makwana V, Ryan P, Patel B, Dukie SA, and Rudrawar S

Subjects
Enzyme Inhibitors metabolism, Glycosylation, Humans, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Neoplasms metabolism, Sterol Regulatory Element Binding Proteins metabolism, beta Catenin metabolism, Acetylglucosamine metabolism, Oncogenes
Abstract

A reversible post-translational protein modification which involves addition of N-acetylglucosamine (GlcNAc) onto hydroxyl groups of serine and/or threonine residues which is known as O-GlcNAcylation, has emerged as a potent competitor of phosphorylation. This glycosyltransfer reaction is catalyzed by the enzyme O-linked β-N-acetylglucosamine transferase (OGT). This enzyme uses uridine diphosphate N-acetylglucosamine (UDP-GlcNAc), the end product of hexosamine biosynthetic pathway, to modify numerous nuclear and cytosolic proteins. O-GlcNAcylation influences cancer cell metabolism in such a way that hyper-O-GlcNAcylation is considered as a prominent trait of many cancers, and is proposed as a major factor enabling cancer cell proliferation and progression. Growing evidence supports a connection between O-GlcNAcylation and major oncogenic factors, including for example, c-MYC, HIF-1α, and NF-κB. A comprehensive study of the roles of O-GlcNAc modification of oncogenic factors is warranted as a thorough understanding may help drive advances in cancer diagnosis and therapy. The focus of this article is to highlight the interplay between oncogenic factors and O-GlcNAcylation along with OGT in cancer cell proliferation and survival. The prospects for OGT inhibitors will also be discussed., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published
2019
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21. Caprazamycins: Promising lead structures acting on a novel antibacterial target MraY.

Author

Patel B, Ryan P, Makwana V, Zunk M, Rudrawar S, and Grant G

Subjects
Anti-Bacterial Agents chemistry, Azepines chemistry, Bacterial Proteins metabolism, Biological Products chemistry, Dose-Response Relationship, Drug, Molecular Structure, Mycobacterium tuberculosis enzymology, Structure-Activity Relationship, Transferases metabolism, Transferases (Other Substituted Phosphate Groups), Uridine chemistry, Uridine pharmacology, Anti-Bacterial Agents pharmacology, Azepines pharmacology, Bacterial Proteins antagonists & inhibitors, Biological Products pharmacology, Mycobacterium tuberculosis drug effects, Transferases antagonists & inhibitors, Uridine analogs & derivatives
Abstract

The present status of antibiotic resistant requires an urgent invention of novel agents that act on clinically unexplored antibacterial targets. The enzyme MraY (phospho-MurNAc-pentapeptide translocase), essential for bacterial cell wall synthesis, fulfils this criterion as it has not been explored as a target in a clinical context. Specifically, the enzyme is involved in the lipid-linked cycle of peptidoglycan biosynthesis and is reportedly targeted by naturally-occurring nucleoside antibiotics. The antimicrobial 'caprazamycin' class of nucleoside antibiotics targets Mycobacterium tuberculosis and clinically relevant Gram-negative bacteria such as Pseudomonas aeruginosa besides various drug resistant strains and is therefore an eligible starting point for the development of novel agents. In this review, we aim to summarise the structure-activity relationships of the natural, semi-synthetic as well as synthetic analogues of nucleoside antibiotic caprazamycins. This review highlights caprazamycins as promising lead structures for development of potent and selective antimicrobial agents that target MraY, the bacterial enzyme involved in the first membrane-dependent step in bacterial peptidoglycan assembly., (Copyright © 2019 Elsevier Masson SAS. All rights reserved.)

Published
2019
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22. Peptides, Peptidomimetics, and Carbohydrate-Peptide Conjugates as Amyloidogenic Aggregation Inhibitors for Alzheimer's Disease.

Author

Ryan P, Patel B, Makwana V, Jadhav HR, Kiefel M, Davey A, Reekie TA, Rudrawar S, and Kassiou M

Subjects
Alzheimer Disease metabolism, Animals, Carbohydrates pharmacology, Carbohydrates therapeutic use, Humans, Peptides pharmacology, Peptidomimetics pharmacology, Protein Aggregation, Pathological metabolism, Alzheimer Disease drug therapy, Amyloid beta-Peptides metabolism, Peptides therapeutic use, Peptidomimetics therapeutic use, Protein Aggregation, Pathological drug therapy, tau Proteins metabolism
Abstract

Alzheimer's disease (AD) is a progressive neurodegenerative disorder accounting for 60-80% of dementia cases. For many years, AD causality was attributed to amyloid-β (Aβ) aggregated species. Recently, multiple therapies that target Aβ aggregation have failed in clinical trials, since Aβ aggregation is found in AD and healthy patients. Attention has therefore shifted toward the aggregation of the tau protein as a major driver of AD. Numerous inhibitors of tau-based pathology have recently been developed. Diagnosis of AD has shifted from measuring late stage senile plaques to early stage biomarkers, amyloid-β and tau monomers and oligomeric assemblies. Synthetic peptides and some derivative structures are being explored for use as theranostic tools as they possess the capacity both to bind the biomarkers and to inhibit their pathological self-assembly. Several studies have demonstrated that O-linked glycoside addition can significantly alter amyloid aggregation kinetics. Furthermore, natural O-glycosylation of amyloid-forming proteins, including amyloid precursor protein (APP), tau, and α-synuclein, promotes alternative nonamyloidogenic processing pathways. As such, glycopeptides and related peptidomimetics are being investigated within the AD field. Here we review advancements made in the last 5 years, as well as the arrival of sugar-based derivatives.

Published
2018
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23. Solid lipid nanoparticles (SLN) of Efavirenz as lymph targeting drug delivery system: Elucidation of mechanism of uptake using chylomicron flow blocking approach.

Author

Makwana V, Jain R, Patel K, Nivsarkar M, and Joshi A

Subjects
Administration, Oral, Alkynes, Animals, Anti-Retroviral Agents pharmacokinetics, Benzoxazines pharmacokinetics, Chemistry, Pharmaceutical methods, Chylomicrons metabolism, Cyclopropanes, Drug Carriers chemistry, Drug Liberation, Drug Stability, Fatty Acids chemistry, Freeze Drying, Humans, Male, Particle Size, Poloxamer chemistry, Rats, Rats, Sprague-Dawley, Surface Properties, Tissue Distribution, Anti-Retroviral Agents administration & dosage, Benzoxazines administration & dosage, Lipids chemistry, Lymphatic System metabolism, Nanoparticles chemistry
Abstract

The aim of the present work was to develop a lymph targeted SLN formulation of antiretroviral (ARV) drug and to have an understanding of its underlying mechanism of uptake by the lymphatics. The lymphatics are the inaccessible reservoirs of HIV in human body. Efavirenz (EFV) is a BCS class II, ARV drug that undergoes extensive first pass metabolism. The EFV SLN formulation was prepared using Gelucire 44/14, Compritol 888 ATO, Lipoid S 75 and Poloxamer 188 by hot homogenization technique followed by ultrasonication method, with mean particle size of 168 nm, polydispersity index (PDI) <0.220, and mean zeta potential of -35.55 mV. DSC and XRPD studies revealed change in crystallinity index of drug when incorporated into SLN. In vitro drug release was found to be prolonged and biphasic in PBS pH 6.8. There was no significant change in the mean particle size, PDI, zeta potential and entrapment efficiency of EFV SLN after storage at 30 ± 2°C/60 ± 5%RH for two months. The results from lymphatic transport and tissue distribution study indicate that a significant part of the EFV had by-passed portal system and was recovered in the lymph via chylomicron uptake mechanism. Reduction in the amount (44.70%) of the EFV reaching to liver indicates that major amount of EFV bypasses the liver and thereby, enhances the oral bioavailability of the EFV. A significant amount of EFV was found in spleen, a major lymphatic organ. EFV SLN seems to have potential to target the ARV to lymphatics for the better management of HIV., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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24. Structure-based design of benzylamino-acridine compounds as G-quadruplex DNA telomere targeting agents.

Author

Martins C, Gunaratnam M, Stuart J, Makwana V, Greciano O, Reszka AP, Kelland LR, and Neidle S

Subjects
Acridines pharmacology, Antineoplastic Agents chemical synthesis, Antineoplastic Agents pharmacology, Benzylamines pharmacology, Drug Delivery Systems, Drug Design, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors pharmacology, G-Quadruplexes, Guanosine, Humans, Acridines chemical synthesis, Benzylamines chemical synthesis, DNA drug effects, Telomerase antagonists & inhibitors, Telomere drug effects
Abstract

The design, synthesis, biophysical and biochemical evaluation is presented of a new series of benzylamino-substituted acridines as G-quadruplex binding telomerase inhibitors. Replacement of the previously reported anilino substituents by benzylamino groups results in enhanced quadruplex interaction, and for one compound, superior telomerase inhibitory activity.

Published
2007
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