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1. Vitamin D, Calbindin, and calcium signaling: Unraveling the Alzheimer's connection.

Author

Acharya, M, Singh, N, Gupta, G, Tambuwala, MM, Aljabali, AAA, Chellappan, DK, Dua, K, Goyal, R, Acharya, M, Singh, N, Gupta, G, Tambuwala, MM, Aljabali, AAA, Chellappan, DK, Dua, K, and Goyal, R

Abstract

Calcium is a ubiquitous second messenger that is indispensable in regulating neurotransmission and memory formation. A precise intracellular calcium level is achieved through the concerted action of calcium channels, and calcium exerts its effect by binding to an array of calcium-binding proteins, including calmodulin (CAM), calcium-calmodulin complex-dependent protein kinase-II (CAMK-II), calbindin (CAL), and calcineurin (CAN). Calbindin orchestrates a plethora of signaling events that regulate synaptic transmission and depolarizing signals. Vitamin D, an endogenous fat-soluble metabolite, is synthesized in the skin upon exposure to ultraviolet B radiation. It modulates calcium signaling by increasing the expression of the calcium-sensing receptor (CaSR), stimulating phospholipase C activity, and regulating the expression of calcium channels such as TRPV6. Vitamin D also modulates the activity of calcium-binding proteins, including CAM and calbindin, and increases their expression. Calbindin, a high-affinity calcium-binding protein, is involved in calcium buffering and transport in neurons. It has been shown to inhibit apoptosis and caspase-3 activity stimulated by presenilin 1 and 2 in AD. Whereas CAM, another calcium-binding protein, is implicated in regulating neurotransmitter release and memory formation by phosphorylating CAN, CAMK-II, and other calcium-regulated proteins. CAMK-II and CAN regulate actin-induced spine shape changes, which are further modulated by CAM. Low levels of both calbindin and vitamin D are attributed to the pathology of Alzheimer's disease. Further research on vitamin D via calbindin-CAMK-II signaling may provide newer insights, revealing novel therapeutic targets and strategies for treatment.

Published
2024

2. Exploring the therapeutic potential of naturally occurring piceatannol in non-communicable diseases.

Author

Gandhi, H, Mahant, S, Sharma, AK, Kumar, D, Dua, K, Chellappan, DK, Singh, SK, Gupta, G, Aljabali, AAA, Tambuwala, MM, Kapoor, DN, Gandhi, H, Mahant, S, Sharma, AK, Kumar, D, Dua, K, Chellappan, DK, Singh, SK, Gupta, G, Aljabali, AAA, Tambuwala, MM, and Kapoor, DN

Abstract

Piceatannol is a naturally occurring hydroxylated resveratrol analogue that can be found in a variety of fruits and vegetables. It has been documented to have a wide range of beneficial effects, including anti-inflammatory, antioxidant, anti-aging, anti-allergic, antidiabetic, neuroprotective, cardioprotective, and chemopreventive properties. Piceatannol has significantly higher antioxidant activity than resveratrol. Piceatannol has been shown in preclinical studies to have the ability to inhibit or reduce the growth of cancers in various organs such as the brain, breast, lung, colon, cervical, liver, prostate, and skin. However, the bioavailability of Piceatannol is comparatively lower than resveratrol and other stilbenes. Several approaches have been reported in recent years to enhance its bioavailability and biological activity, and clinical trials are required to validate these findings. This review focuses on several aspects of natural stilbene Piceatannol, its chemistry, and its mechanism of action, and its promising therapeutic potential for the prevention and treatment of a wide variety of complex human diseases.

Published
2023

3. Recent Advances in Anticancer Activity of Novel Plant Extracts and Compounds from Curcuma longa in Hepatocellular Carcinoma.

Author

Gull, N, Arshad, F, Naikoo, GA, Hassan, IU, Pedram, MZ, Ahmad, A, Aljabali, AAA, Mishra, V, Satija, S, Charbe, N, Negi, P, Goyal, R, Serrano-Aroca, Á, Al Zoubi, MS, El-Tanani, M, Tambuwala, MM, Gull, N, Arshad, F, Naikoo, GA, Hassan, IU, Pedram, MZ, Ahmad, A, Aljabali, AAA, Mishra, V, Satija, S, Charbe, N, Negi, P, Goyal, R, Serrano-Aroca, Á, Al Zoubi, MS, El-Tanani, M, and Tambuwala, MM

Abstract

PURPOSE: Among all forms of cancers, hepatocellular carcinoma (HCC) is the fifth most common cancer worldwide. There are several treatment options for HCC ranging from loco-regional therapy to surgical treatment. Yet, there is high morbidity and mortality. Recent research focus has shifted towards more effective and less toxic cancer treatment options. Curcumin, the active ingredient in the Curcuma longa plant, has gained widespread attention in recent years because of its multifunctional properties as an antioxidant, anti-inflammatory, antimicrobial, and anticancer agent. METHODS: A systematic search of PubMed, Embase and Google Scholar was performed for studies reporting incidence of HCC, risk factors associated with cirrhosis and experimental use of curcumin as an anti-cancer agent. RESULTS: This review exclusively encompasses the anti-cancer properties of curcumin in HCC globally and it's postulated molecular targets of curcumin when used against liver cancers. CONCLUSIONS: This review is concluded by presenting the current challenges and future perspectives of novel plant extracts derived from C. longa and the treatment options against cancers.

Published
2023

4. Gene Therapy for Neuropsychiatric Disorders: Potential Targets and Tools.

Author

Shahcheraghi, SH, Ayatollahi, J, Lotfi, M, Aljabali, AAA, Al-Zoubi, MS, Panda, PK, Mishra, V, Satija, S, Charbe, NB, Serrano-Aroca, Á, Bahar, B, Takayama, K, Goyal, R, Bhatia, A, Almutary, AG, Alnuqaydan, AM, Mishra, Y, Negi, P, Courtney, A, McCarron, PA, Bakshi, HA, Tambuwala, MM, Shahcheraghi, SH, Ayatollahi, J, Lotfi, M, Aljabali, AAA, Al-Zoubi, MS, Panda, PK, Mishra, V, Satija, S, Charbe, NB, Serrano-Aroca, Á, Bahar, B, Takayama, K, Goyal, R, Bhatia, A, Almutary, AG, Alnuqaydan, AM, Mishra, Y, Negi, P, Courtney, A, McCarron, PA, Bakshi, HA, and Tambuwala, MM

Abstract

Neuropsychiatric disorders that affect the central nervous system cause considerable pressures on the health care system and have a substantial economic burden on modern societies. The present treatments based on available drugs are mostly ineffective and often costly. The molecular process of neuropsychiatric disorders is closely connected to modifying the genetic structures inherited or caused by damage, toxic chemicals, and some current diseases. Gene therapy is presently an experimental concept for neurological disorders. Clinical applications endeavor to alleviate the symptoms, reduce disease progression, and repair defective genes. Implementing gene therapy in inherited and acquired neurological illnesses entails the integration of several scientific disciplines, including virology, neurology, neurosurgery, molecular genetics, and immunology. Genetic manipulation has the power to minimize or cure illness by inducing genetic alterations at endogenous loci. Gene therapy that involves treating the disease by deleting, silencing, or editing defective genes and delivering genetic material to produce therapeutic molecules has excellent potential as a novel approach for treating neuropsychiatric disorders. With the recent advances in gene selection and vector design quality in targeted treatments, gene therapy could be an effective approach. This review article will investigate and report the newest and the most critical molecules and factors in neuropsychiatric disorder gene therapy. Different genome editing techniques available will be evaluated, and the review will highlight preclinical research of genome editing for neuropsychiatric disorders while also evaluating current limitations and potential strategies to overcome genome editing advancements.

Published
2023

6. Nature bioinspired and engineered nanomaterials

Author

Aljabali, AAA, Obeid, MA, Awadeen, SA, Migdadi, EM, Barhoum, A, Al Zoubi, MS, Chellappan, DK, Mishra, V, Charbe, NB, Dureja, H, Gupta, G, Prasher, P, Dua, K, Tambuwala, MM, Aljabali, AAA, Obeid, MA, Awadeen, SA, Migdadi, EM, Barhoum, A, Al Zoubi, MS, Chellappan, DK, Mishra, V, Charbe, NB, Dureja, H, Gupta, G, Prasher, P, Dua, K, and Tambuwala, MM

Abstract

Over the last few decades of research, the development of bionanotechnology was fueled by the need for a new type of nanomaterials with properties that are unmatchable with their counterpart synthetic nanoparticles. These characteristics include biodegradability, biocompatibility, and uneven shapes and formulations, with the ability to express current and novel properties that make biomaterials as the perfect nanoparticles for chemical and biological conjugations. Newly developed nanomaterials showed promising characteristics in medical, pharmaceutical, environmental, and energy applications. This chapter highlights different types of nature-inspired biosynthesized nanomaterials and their green synthesis methods, as well as some of their emerging applications, especially in the fields of nanomedicine, cosmetics, drug delivery, molecular imaging, and catalytic precursors. The chapter also covers different types of bionanomaterials (e.g., viruses, protein cages, and phages) and highlights their unique properties and potential applications.

Published
2022

7. Liquid crystalline polymer-based bio-nanocomposites for spectroscopic applications

Author

Aljabali, AAA, Pal, K, Tambuwala, MM, Dua, K, Aljabali, AAA, Pal, K, Tambuwala, MM, and Dua, K

Abstract

Liquid-crystalline elastomers (LCEs) are the focus of many research studies, owing to this interest to their reversible and controllable shape deformities in the environment of soft robotics and artificial muscles. Their high ability to be used. This chapter focuses on recent studies of LCE-based polymers and nanomaterials with different chemistry and morphology to instill new physical characteristics into LCE. The characteristics of an inorganic or organic nanomaterial or mineral at nanoscale depend on their components, such as natural biopolymers and synthetic, biologically-degraded polymers. Research papers and reviews are currently discussing the value of bio-based and synthetic polymers and their difficulty concerning coating surface applications. For every novel synthetic bio-driven material, properties and applications vary, and several such materials were manufactured in recent years. A new collection of advanced materials is classified as bionanocomposites. The Polymer matrix in these materials is known to be the biological base, whether natural or synthetic polymers or biomolecules, while nano-scale products are considered to be added-value materials. The electrical, chemical, and mechanical characteristics of composite materials are more significant than the components they represent.

Published
2022

8. Designing and Synthesis of Green Polymeric Nanomaterials for Pharmaceutical Applications

Author

Aljabali, AAA, Zoubi, MSA, Al-Batanyeh, KM, Alqudah, A, Obeid, MA, Prasher, P, Mishra, V, Gupta, G, Negi, P, Kapoor, DN, Dureja, H, Satija, S, Chellappan, DK, Dua, K, Tambuwala, MM, Aljabali, AAA, Zoubi, MSA, Al-Batanyeh, KM, Alqudah, A, Obeid, MA, Prasher, P, Mishra, V, Gupta, G, Negi, P, Kapoor, DN, Dureja, H, Satija, S, Chellappan, DK, Dua, K, and Tambuwala, MM

Abstract

Nanotechnology provides areas that vary from conventional chemistry innovations to medical and climate technologies with productive applications. In practice, NPs have been synthesized by physical and chemical processes, including hydrothermal pyrolysis, spray pyrolysis, sonochemical, sol-gel, coprecipitation, and so on, using different chemical agents to minimize and maintain the harsh conditions of different chemicals to control the properties of the generated nanomaterials. NPs have been used as toxic agents. Biological synthesis is emerging as a green and safe method for synthesizing metal/metal oxide NPs with precursor materials from plants and microbes. Green synthesis of nanomaterials has emerged as an eco-friendly and alternative approach for the synthesis of novel nano-materials with great potential in medical and pharmaceutical applications. The nanomaterials generated from biomolecules, plant extract, algae, and microorganisms have been given considerable appreciation. It is believed the phytochemicals, alkaloids, flavonoids, and sugar compounds content to act as reducing and stabilization agents to prevent the agglomeration of the nanoparticles.

Published
2022

9. Introduction to Sensor Nanotechnology and Flexible Electronics

Author

Aljabali, AAA, Dua, K, Pal, K, Tambuwala, MM, Aljabali, AAA, Dua, K, Pal, K, and Tambuwala, MM

Abstract

The inspiration for miniature, high-quality, lightweight, and intricately linked technologies has come from traditional electric devices made of rigid crystalline semiconductor wafers. A concurrent investigation that progresses quickly for emerging electronics combines functionality and extensibility to produce user-friendly applications. A variety of studies have already been reported on the manufacture of sensors and smart gadgets for stretchable, foldable, and composite materials, such as polyurethane sponge, polyimide, cellulose paper, natural rubber, etc. The nanomaterials are highly suited to producing broadband photodetectors, temperature, pressure, and stress sensor applications in the fields of optoelectronic devices, cameras, drugs, protection, and surveillance. Like consumer electronics, robots, prevention, medical care, security equipment, environmental monitoring, domestic defense, and space travel, modular sensors can also be used as promising components for smart sensing applications. Sensors are typically created with flexible substrates. Wearable smart sensors and technology essentially hold tremendous potential for monitoring a person’s physiological parameters to prevent body malfunctions. This chapter classifies the research according to the materials used to make the device, networking technologies, and various control tasks. Also, throughout the chapter, obstacles for current sensing systems as well as emerging prospects for versatile wearables concerning their market prices are briefly explained.

Published
2022

10. Targeting eosinophils in chronic respiratory diseases using nanotechnology-based drug delivery.

Author

Sharma, P, Dhanjal, DS, Chopra, C, Tambuwala, MM, Sohal, SS, van der Spek, PJ, Sharma, HS, Satija, S, Sharma, P, Dhanjal, DS, Chopra, C, Tambuwala, MM, Sohal, SS, van der Spek, PJ, Sharma, HS, and Satija, S

Abstract

Asthma, COPD, COVID-19, EGPA, Lung cancer, and Pneumonia are major chronic respiratory diseases (or CRDs) affecting millions worldwide and account for substantial morbidity and mortality. These CRDs are irreversible diseases that affect different parts of the respiratory system, imposing a considerable burden on different socio-economic classes. All these CRDs have been linked to increased eosinophils in the lungs. Eosinophils are essential immune mediators that contribute to tissue homeostasis and the pathophysiology of various diseases. Interestingly, elevated eosinophil level is associated with cellular processes that regulate airway hyperresponsiveness, airway remodeling, mucus hypersecretion, and inflammation in the lung. Therefore, eosinophil is considered the therapeutic target in eosinophil-mediated lung diseases. Although, conventional medicines like antibiotics, anti-inflammatory drugs, and bronchodilators are available to prevent CRDs. But the development of resistance to these therapeutic agents after long-term usage remains a challenge. However, progressive development in nanotechnology has unveiled the targeted nanocarrier approach that can significantly improve the pharmacokinetics of a therapeutic drug. The potential of the nanocarrier system can be specifically targeted on eosinophils and their associated components to obtain promising results in the pharmacotherapy of CRDs. This review intends to provide knowledge about eosinophils and their role in CRDs. Moreover, it also discusses nanocarrier drug delivery systems for the targeted treatment of CRDs.

Published
2022

11. Exosomal mediated signal transduction through artificial microRNA (amiRNA): A potential target for inhibition of SARS-CoV-2.

Author

Vadivalagan, C, Shitut, A, Kamalakannan, S, Chen, R-M, Serrano-Aroca, Á, Mishra, V, Aljabali, AAA, Singh, SK, Chellappan, DK, Gupta, G, Dua, K, El-Tanani, M, Tambuwala, MM, Krishnan, A, Vadivalagan, C, Shitut, A, Kamalakannan, S, Chen, R-M, Serrano-Aroca, Á, Mishra, V, Aljabali, AAA, Singh, SK, Chellappan, DK, Gupta, G, Dua, K, El-Tanani, M, Tambuwala, MM, and Krishnan, A

Abstract

Exosome trans-membrane signals provide cellular communication between the cells through transport and/or receiving the signal by molecule, change the functional metabolism, and stimulate and/or inhibit receptor signal complexes. COVID19 genetic transformations are varied in different geographic positions, and single nucleotide polymorphic lineages were reported in the second waves due to the fast mutational rate and adaptation. Several vaccines were developed and in treatment practice, but effective control has yet to reach in cent presence. It was initially a narrow immune-modulating protein target. Controlling these diverse viral strains may inhibit their transuding mechanisms primarily to target RNA genes responsible for COVID19 transcription. Exosomal miRNAs are the main sources of transmembrane signals, and trans-located miRNAs can directly target COVID19 mRNA transcription. This review discussed targeted viral transcription by delivering the artificial miRNA (amiRNA) mediated exosomes in the infected cells and significant resources of exosome and their efficacy.

Published
2022

13. Azelaic acid and Melaleuca alternifolia essential oil co-loaded vesicular carrier for combinational therapy of acne

Author

Bisht, A, Hemrajani, C, Upadhyay, N, Nidhi, P, Rolta, R, Rathore, C, Gupta, G, Dua, K, Chellappan, DK, Dev, K, Sourirajan, A, Aljabali, AAA, Bakshi, HA, Negi, P, and Tambuwala, MM

Subjects
0903 Biomedical Engineering, 1004 Medical Biotechnology, 1115 Pharmacology and Pharmaceutical Sciences
Abstract

Aim: Azelaic acid (AzA), a comedolytic, antibacterial, anti-inflammatory anti-melanogenic agent, prescribed against acne vulgaris is safe on skin. Its combination with another widely used anti-acne agent, tea tree oil (EO) whose delivery is limited by volatility, instability and lipophilicity constraints was attempted. Method: Solvent injection was used to prepare AzA-EO integrated ethosomes. Result: Ethosomes were transformed into carbopol hydrogel, which exhibited pseudo-plastic properties with appreciable firmness, work of shear, stickiness and work of adhesion. The hydrogel showed better permeation and retention characteristics vis-a-vis commercial formulation (AzidermTM), when evaluated in Wistar rat skin. Further, ethosome hydrogel composite was better tolerated with no side effects. Conclusion: The findings suggests that the aforementioned strategy could be a potential treatment used for acne management.

Published
2021

17. Synthesis and anticancer properties of ‘Azole’ based chemotherapeutics as emerging chemical moieties: A comprehensive review

Author

Prasher, P, Sharma, M, Zacconi, F, Gupta, G, Aljabali, AAA, Mishra, V, Tambuwala, MM, Kapoor, DN, Negi, P, Pinto, TDJA, Singh, I, Chellappan, DK, and Dua, K

Subjects
Organic Chemistry, 0305 Organic Chemistry
Abstract

Azole frameworks serve as privileged scaffolds in the contemporary drug design paradigm owing to their unique physicochemical profile that promotes the development of highly selective, physiological benevolent chemotherapeutics. Several azole nuclei function as bioisostere in medicinal chemistry and prompt the development of tailored therapeutics for targeting the desired biological entities. Besides, the azole scaffold forms an integral part in the advanced drug designing methodologies, such as target template in-situ drug synthesis, that assists in rapid identification of the hit molecules form a diverse pool of leads; and direct biomolecule-drug conjugation, along with bioorthogonal strategies that ensure localization, and superior target specificity of the directed therapeutic. Lastly, the structural diversity of azole framework and high yielding click synthetic meth-ods provide a comprehensive Structure-Activity Relationship analysis for design optimization of the potential drug molecules by fine-tuning the placement of different substituents critical for the activity. This review provides a comprehensive analysis of the synthesis and anticancer potential of azole based chemotherapeutics.

Published
2021

20. Innovative Applications of Plant Viruses in Drug Targeting and Molecular Imaging- A review.

Author

Aljabali, AAA, Al Zoubi, MS, Al-Batayneh, KM, Pardhi, DM, Dua, K, Pal, K, Tambuwala, MM, Aljabali, AAA, Al Zoubi, MS, Al-Batayneh, KM, Pardhi, DM, Dua, K, Pal, K, and Tambuwala, MM

Abstract

Background

Nature had already engineered various types of nanoparticles (NPs), especially viruses, which can deliver their cargo to the host/targeted cells. The ability to selectively target specific cells offers a significant advantage over the conventional approach. Numerous organic NPs, including native protein cages, virus-like pieces, polymeric saccharides, and liposomes, have been used for the preparation of nanoparticulate. Such nanomaterials have demonstrated better performance and as well as improved biocompatible, devoid of side effects, and stable without any deterioration.

Objective

This review discusses current clinical and scientific research on naturally occurring nanomaterials. The review illustrates and updates the tailor-made approaches for selective delivery and targeted medications that require a highaffinity interconnection to the targeted cells.

Method

A comprehensive search was performed using keywords for viral nanoparticles, viral particles for drug delivery, viral nanoparticles for molecular imaging, theranostics applications of viral nanoparticles and plant viruses in nanomedicine. We searched in Google Scholar, PubMed, Springer, Medline, and Elsevier from 2000 to till date and by the bibliographic review of all identified articles.

Results

The findings demonstrated that structures dependent on nanomaterials might have potential applications in diagnostics, cell marking, comparing agents (computed tomography and magnetic resonance imaging), and antimicrobial drugs, as well as drug delivery structures. However, measures should be taken in order to prevent or mitigate in pharmaceutical or medical applications the toxic impact or incompatibility of nanoparticle-based structures with biological systems.

Conclusion

The review provided an overview of the latest advances in nanotechnology, outlining the difficulties and the advantages of in vivo and in vitro structures that are focused on a specific subset of t

Published
2021

21. An overview of vaccine development for COVID-19

Author

Shahcheraghi, SH, Ayatollahi, J, Aljabali, AA, Shastri, MD, Shukla, SD, Chellappan, DK, Jha, NK, Anand, K, Katari, NK, Mehta, M, Satija, S, Dureja, H, Mishra, V, Almutary, AG, Alnuqaydan, AM, Charbe, N, Prasher, P, Gupta, G, Dua, K, Lotfi, M, Bakshi, HA, Tambuwala, MM, Shahcheraghi, SH, Ayatollahi, J, Aljabali, AA, Shastri, MD, Shukla, SD, Chellappan, DK, Jha, NK, Anand, K, Katari, NK, Mehta, M, Satija, S, Dureja, H, Mishra, V, Almutary, AG, Alnuqaydan, AM, Charbe, N, Prasher, P, Gupta, G, Dua, K, Lotfi, M, Bakshi, HA, and Tambuwala, MM

Abstract

The COVID-19 pandemic continues to endanger world health and the economy. The causative SARS-CoV-2 coronavirus has a unique replication system. The end point of the COVID-19 pandemic is either herd immunity or widespread availability of an effective vaccine. Multiple candidate vaccines - peptide, virus-like particle, viral vectors (replicating and nonreplicating), nucleic acids (DNA or RNA), live attenuated virus, recombinant designed proteins and inactivated virus - are presently under various stages of expansion, and a small number of vaccine candidates have progressed into clinical phases. At the time of writing, three major pharmaceutical companies, namely Pfizer and Moderna, have their vaccines under mass production and administered to the public. This review aims to investigate the most critical vaccines developed for COVID-19 to date.

Published
2021

22. Circadian Rhythm Disruption and Alzheimer's Disease: The Dynamics of a Vicious Cycle.

Author

Sharma, A, Sethi, G, Tambuwala, MM, Aljabali, AAA, Chellappan, DK, Dua, K, Goyal, R, Sharma, A, Sethi, G, Tambuwala, MM, Aljabali, AAA, Chellappan, DK, Dua, K, and Goyal, R

Abstract

All mammalian cells exhibit circadian rhythm in cellular metabolism and energetics. Autonomous cellular clocks are modulated by various pathways that are essential for robust time keeping. In addition to the canonical transcriptional translational feedback loop, several new pathways of circadian timekeeping - non-transcriptional oscillations, post-translational modifications, epigenetics and cellular signaling in the circadian clock - have been identified. The physiology of circadian rhythm is expansive, and its link to the neurodegeneration is multifactorial. Circadian rhythm disruption is prevelant in contamporary society where light-noise, shift-work, and transmeridian travel are commonplace, and is also reported from the early stages of Alzheimer's disease (AD). Circadian alignment by bright light therapy in conjunction with chronobiotics is beneficial for treating sundowning syndrome and other cognitive symptoms in advanced AD patients. We performed a comprehensive analysis of the clinical and translational reports to review the physiology of the circadian clock, delineate its dysfunction in AD, and unravel the dynamics of the vicious cycle between two pathologies. The review delineates the role of putative targets like clock proteins PER, CLOCK, BMAL1, ROR, and clock-controlled proteins like AVP, SIRT1, FOXO, and PK2 towards future approaches for management of AD. Furthermore, the role of circadian rhythm disruption in aging is delineated.

Published
2021

23. Perfluorocarbons Therapeutics in Modern Cancer Nanotechnology for Hypoxiainduced Anti-tumor Therapy.

Author

Satija, S, Sharma, P, Kaur, H, Dhanjal, DS, Chopra, RS, Khurana, N, Vyas, M, Sharma, N, Tambuwala, MM, Bakshi, HA, Charbe, NB, Zacconi, FC, Chellappan, DK, Dua, K, Mehta, M, Satija, S, Sharma, P, Kaur, H, Dhanjal, DS, Chopra, RS, Khurana, N, Vyas, M, Sharma, N, Tambuwala, MM, Bakshi, HA, Charbe, NB, Zacconi, FC, Chellappan, DK, Dua, K, and Mehta, M

Abstract

With an estimated failure rate of about 90%, immunotherapies that are intended for the treatment of solid tumors have caused an anomalous rise in the mortality rate over the past decades. It is apparent that resistance towards such therapies primarily occurs due to elevated levels of HIF-1 (Hypoxia-induced factor) in tumor cells, which are caused by disrupted microcirculation and diffusion mechanisms. With the advent of nanotechnology, several innovative advances were brought to the fore; and, one such promising direction is the use of perfluorocarbon nanoparticles in the management of solid tumors. Perfluorocarbon nanoparticles enhance the response of hypoxia-based agents (HBAs) within the tumor cells and have been found to augment the entry of HBAs into the tumor micro-environment. The heightened penetration of HBAs causes chronic hypoxia, thus aiding in the process of cell quiescence. In addition, this technology has also been applied in photodynamic therapy, where oxygen self-enriched photosensitizers loaded perfluorocarbon nanoparticles are employed. The resulting processes initiate a cascade, depleting tumour oxygen and turning it into a reactive oxygen species eventually to destroy the tumour cell. This review elaborates on the multiple applications of nanotechnology based perfluorocarbon formulations that are being currently employed in the treatment of tumour hypoxia.

Published
2021

24. Pharmaceutical aspects of green synthesized silver nanoparticles: A boon to cancer treatment.

Author

Mishra, V, Nayak, P, Singh, M, Tambuwala, MM, Aljabali, AA, Chellappan, DK, Dua, K, Mishra, V, Nayak, P, Singh, M, Tambuwala, MM, Aljabali, AA, Chellappan, DK, and Dua, K

Abstract

Background: Silver nanoparticles (AgNPs) are among the most investigated nanostructures in recent years, which exhibit more challenging and promising qualities in different biomedical applications. The AgNPs synthesized by the green approach provide potential healthcare benefits over chemical approaches, including improvement of tissue restoration, drug delivery, diagnosis, being environmentally friendly, and a boon to cancer treatment. Objective: In the current scenario, the development of safe and effective drug delivery systems is the utmost concern of formulation development scientists as well as clinicians. Methods: Google, Web of Science, and PubMed portals have been searched for potentially relevant literature to get the latest developments and updated information related to different aspects of green synthesized AgNPs along with their biomedical applications, especially in the treatment of different types of cancers. Results: The present review highlights the latest published research regarding the different green approaches for the synthesis of AgNPs, their characterization techniques as well as various biomedical applications, particularly in cancer treatment. In this context, environment-friendly AgNPs are proving themselves as better candidates in terms of size, drug loading and release efficiency, targeting efficiency, minimal drug-associated side effects, pharmacokinetic profiling, and biocompatibility issues. Conclusion: With continuous efforts by multidisciplinary team approaches, nanotechnology-based AgNPs will shed new light on diagnostics and therapeutics in various disease treatments. However, the toxicity issues of AgNPs need greater attention as unanticipated toxic effects must be ruled out for their diversified applications.

Published
2021

25. Nanotechnology based advanced therapeutic strategies for targeting interleukins in chronic respiratory diseases.

Author

Hussain, MS, Sharma, P, Dhanjal, DS, Khurana, N, Vyas, M, Sharma, N, Mehta, M, Tambuwala, MM, Satija, S, Sohal, SS, Oliver, BGG, Sharma, HS, Hussain, MS, Sharma, P, Dhanjal, DS, Khurana, N, Vyas, M, Sharma, N, Mehta, M, Tambuwala, MM, Satija, S, Sohal, SS, Oliver, BGG, and Sharma, HS

Abstract

Both communicable and non-communicable chronic respiratory conditions have accorded for suffering of millions of people of all ages and stated to be leading cause of death, morbidity, economic and social pressures, and disability-adjusted life-years (DALYs) worldwide. These illnesses impair patient's health and negatively impacts families and society, particularly in low and middle-income countries. Chronic respiratory diseases (CRDs) affect different organs of respiratory system, involving airways, parenchyma, and pulmonary vasculature. As the number of respiratory diseases are exponentially escalating but still the stakeholders are not paying attention towards its serious complications. Currently, the treatment being used primarily focusses only on alleviating symptoms of these illness rather delivering the therapeutic agent at target site for optimal care and/or prevention. Lately, extensive research is being conducted on airways and systemic inflammation, oxidative stress, airway, or parenchymal rehabilitation. From which macrophages, neutrophils, and T cells, as well as structural cells as fibroblasts, epithelial, endothelial, and smooth muscle cells have been found to be active participants that are involved in these chronic respiratory diseases. The pathogenesis of all these chronic respiratory diseases gets caused differently via mediators and proteins, including cytokines, chemokines, growth factors and oxidants. Presently, the target of prescription therapies is to reduce the inflammation of airways and relieve the airway contraction. In all studies, cytokines have been found to play an imperative role in fostering chronic airway inflammation and remodelling. Owing to the limitations of conventional treatments, the current review aims to summarize the current knowledge about the chronic respiratory disease and discuss further about the various conventional methods that can be used for treating this ailment. Additionally, it also highlights and discusses ab

Published
2021

26. Nanosuspensions - An Update on Recent Patents, Methods of Preparation, and Evaluation Parameters.

Author

Khanuja, HK, Awasthi, R, Mehta, M, Satija, S, Aljabali, AA, Tambuwala, MM, Chellappan, DK, Dua, K, Dureja, H, Khanuja, HK, Awasthi, R, Mehta, M, Satija, S, Aljabali, AA, Tambuwala, MM, Chellappan, DK, Dua, K, and Dureja, H

Abstract

Background

Nanosuspensions are colloidal systems consisting of pure drug and stabilizers, without matrix or lyophilized into a solid matrix. Nanosuspensions improve the solubility of the drug both in the aqueous and organic phases. Nanosuspensions are also known as brick dust molecules, as they increase the dissolution of a system and improve absorption.

Methods

Extensive information related to nanosuspensions and its associated patents were collected using PubMed and Google Scholar.

Results

Over the last decade nanosuspensions have attracted tremendous interest in pharmaceutical research. It provides unique features including, improved solubility, high drug loading capacity, and passive targeting. These particles are costeffective, simple, and have lesser side effects with minimal dose requirements. However, the stability of nanosuspensions still warrants attention.

Conclusion

Nanosuspensions plays a vital role in handling the numerous drug entities with difficult physico-chemical characteristics such as solubility and can further aid with a range of routes that include nasal, transdermal, occular, parenteral, pulmonary etc. This review highlights the relevance of nanosuspensions in achieving safe, effective and targeted drug delivery.

Published
2021

27. Induction of Caspase-Mediated Apoptosis in HepG2 Liver Carcinoma Cells Using Mutagen-Antioxidant Conjugated Self-Assembled Novel Carbazole Nanoparticles and In Silico Modeling Studies.

Author

Anand, K, Abdul, NS, Ghazi, T, Ramesh, M, Gupta, G, Tambuwala, MM, Dureja, H, Singh, SK, Chellappan, DK, Dua, K, Pandi, B, Saravanan, M, Chuturgoon, AA, Anand, K, Abdul, NS, Ghazi, T, Ramesh, M, Gupta, G, Tambuwala, MM, Dureja, H, Singh, SK, Chellappan, DK, Dua, K, Pandi, B, Saravanan, M, and Chuturgoon, AA

Abstract

In this study, novel self-assembled carbazole-thiooctanoic acid nanoparticles (CTNs) were synthesized from amino carbazole (a mutagen) and thiooctanoic acid (an antioxidant). The nanoparticles were characterized using hyperspectral techniques. Then, the antiproliferative potential of CTNs was determined in HepG2 liver carcinoma cells. This study employed a solvent-antisolvent interaction method to synthesize a spherical CTN of size less than 50 nm. Moreover, CT was subsequently capped to gold nanoparticles (AuNPs) in the additional comparative studies. The CT derivative was synthesized from carbazole and lipoic acid by the amide bond formation reaction using a coupling agent. Furthermore, it was characterized using infrared (IR), 1H nuclear magnetic resonance, dynamic light scattering (DLS), and transmission electron microscopy techniques. The CT-capped gold nanoparticles (CTAuNPs) were prepared from CT, chloroauric acid, and NaBH4. The CTAuNPs were characterized using ultraviolet-visible, high-resolution TEM, DLS, and Fourier transform IR techniques. The cytotoxicity and apoptosis-inducing ability of both nanoparticles were determined in HepG2 cells. The results demonstrate that CTNs exhibit antiproliferative activity in the cancerous HepG2 cells. Moreover, molecular docking and molecular dynamics studies were conducted to explore the therapeutic potential of CT against human EGFR suppressor protein to gain more insights into the binding mode of the CT, which may show a significant role in anticancer therapy.

Published
2021

28. Targeting eosinophils in respiratory diseases: Biological axis, emerging therapeutics and treatment modalities.

Author

Lee, L-Y, Hew, GSY, Meenu, Shukla, SD, Satija, S, Khurana, N, Anand, K, Dureja, H, Singh, SK, Mishra, V, Singh, PK, Gulati, M, Prasher, P, Aljabali, AAA, Tambuwala, MM, Thangavelu, L, Panneerselvam, J, Gupta, G, Zacconi, FC, Shastri, M, Jha, NK, Xenaki, D, MacLoughlin, R, Oliver, BG, Chellappan, DK, Dua, K, Lee, L-Y, Hew, GSY, Meenu, Shukla, SD, Satija, S, Khurana, N, Anand, K, Dureja, H, Singh, SK, Mishra, V, Singh, PK, Gulati, M, Prasher, P, Aljabali, AAA, Tambuwala, MM, Thangavelu, L, Panneerselvam, J, Gupta, G, Zacconi, FC, Shastri, M, Jha, NK, Xenaki, D, MacLoughlin, R, Oliver, BG, Chellappan, DK, and Dua, K

Abstract

Eosinophils are bi-lobed, multi-functional innate immune cells with diverse cell surface receptors that regulate local immune and inflammatory responses. Several inflammatory and infectious diseases are triggered with their build up in the blood and tissues. The mobilization of eosinophils into the lungs is regulated by a cascade of processes guided by Th2 cytokine generating T-cells. Recruitment of eosinophils essentially leads to a characteristic immune response followed by airway hyperresponsiveness and remodeling, which are hallmarks of chronic respiratory diseases. By analysing the dynamic interactions of eosinophils with their extracellular environment, which also involve signaling molecules and tissues, various therapies have been invented and developed to target respiratory diseases. Having entered clinical testing, several eosinophil targeting therapeutic agents have shown much promise and have further bridged the gap between theory and practice. Moreover, researchers now have a clearer understanding of the roles and mechanisms of eosinophils. These factors have successfully assisted molecular biologists to block specific pathways in the growth, migration and activation of eosinophils. The primary purpose of this review is to provide an overview of the eosinophil biology with a special emphasis on potential pharmacotherapeutic targets. The review also summarizes promising eosinophil-targeting agents, along with their mechanisms and rationale for use, including those in developmental pipeline, in clinical trials, or approved for other respiratory disorders.

Published
2021

29. Comparative in vitro evaluation of glimepiride containing nanosuspension drug delivery system developed by different techniques

Author

Bose, S, Sharma, P, Mishra, V, Patial, S, Saraogi, GK, Tambuwala, MM, Dua, K, Bose, S, Sharma, P, Mishra, V, Patial, S, Saraogi, GK, Tambuwala, MM, and Dua, K

Abstract

The present study was aimed to develop the Glimepiride (GLM) loaded nanosuspension by different methods for increasing the solubility of GLM. Twelve formulations were prepared by combination method (FG), which included antisolvent precipitation method followed by sonication (Method 1) selecting drug and polymer in ratio of 1:10, 1:20 and 1:30. Further 6 formulations were prepared by nanoprecipitation method (Fg) (Method 2) selecting drug and polymer in ratio of 1:10, 1:20 by using different polymers like polyvinyl pyrolidone (PVP K30), and poly(ethylene glycol) (PEG) such as PEG 6000 and PEG 400. The GLM nanosuspensions prepared by different techniques were evaluated by optical microscopy, percent entrapment efficiency (%EE), particle size analysis, zeta potential, transmission electron microscopy (TEM) and in vitro dissolution. FG1 formulation was found to be better formulation showing 82.04% EE, 129–180 nm particle size range, 30.16 mV zeta potential, 0.253 polydispersity index (PDI) and 86.76% drug release as compared to Fgii formulation having %EE, average particle size, zeta potential, PDI value and drug release as 80.03%, 72–383 nm, -22.19 mV, 0.358 and 74.77%, respectively. On the basis of results obtained from different studies, it can be concluded that GLM nanosuspension prepared by combination technique (FG) shows good solubility and dissolution than those prepared by nanoprecipitation technique (Fg), hence the combination technique is found to be a preferred technique to prepare GLM nanosuspension over nanoprecipitation technique.

Published
2021

31. Overview of key molecular and pharmacological targets for diabetes and associated diseases

Author

Shahcheraghi, SH, Aljabali, AAA, Al Zoubi, MS, Mishra, V, Charbe, NB, Haggag, YA, Shrivastava, G, Almutary, AG, Alnuqaydan, AM, Barh, D, Dua, K, Chellappan, DK, Gupta, G, Lotfi, M, Serrano-Aroca, Á, Bahar, B, Mishra, YK, Takayama, K, Panda, PK, Bakshi, HA, Tambuwala, MM, Shahcheraghi, SH, Aljabali, AAA, Al Zoubi, MS, Mishra, V, Charbe, NB, Haggag, YA, Shrivastava, G, Almutary, AG, Alnuqaydan, AM, Barh, D, Dua, K, Chellappan, DK, Gupta, G, Lotfi, M, Serrano-Aroca, Á, Bahar, B, Mishra, YK, Takayama, K, Panda, PK, Bakshi, HA, and Tambuwala, MM

Published
2021

32. Bioinspired Nanomaterials for Improving Sensing and Imaging Spectroscopy

Author

Pal, K, Qar, J, Aljabali, AAA, Al-Zanati, T, Al Zoubi, MS, Al-Batanyeh, KM, Negi, P, Gupta, G, Pardhi, DM, Dua, K, Tambuwala, MM, Pal, K, Qar, J, Aljabali, AAA, Al-Zanati, T, Al Zoubi, MS, Al-Batanyeh, KM, Negi, P, Gupta, G, Pardhi, DM, Dua, K, and Tambuwala, MM

Published
2021

33. Correction: Aljabali, A.A.A.; et al. Albumin Nano-Encapsulation of Piceatannol Enhances Its Anticancer Potential in Colon Cancer via down Regulation of Nuclear p65 and HIF-1α. Cancers 2020, 12, 113

Author

Aljabali, AAA, Bakshi, HA, Hakkim, FL, Haggag, YA, Al-Batanyeh, KM, Zoubi, MSA, Al-Trad, B, Nasef, MM, Satija, S, Mehta, M, Pabreja, K, Mishra, V, Khan, M, Abobaker, S, Azzouz, IM, Dureja, H, Pabari, RM, Dardouri, AAK, Kesharwani, P, Gupta, G, Dhar Shukla, S, Prasher, P, Charbe, NB, Negi, P, Kapoor, DN, Chellappan, DK, Webba da Silva, M, Thompson, P, Dua, K, McCarron, P, and Tambuwala, MM

Subjects
1112 Oncology and Carcinogenesis
Abstract

The authors wish to make the following corrections to this paper [...].

Published
2020

34. Beta-catenin non-canonical pathway: A potential target for inflammatory and hyperproliferative state via expression of transglutaminase 2 in psoriatic skin keratinocyte

Author

Gupta, G, Singh, Y, Tiwari, J, Raizaday, A, Alharbi, KS, Al-Abbasi, FA, Kazmi, I, Satija, S, Tambuwala, MM, Devkota, HP, Krishnan, A, Chellappan, DK, and Dua, K

Subjects
Dermatology & Venereal Diseases, 1103 Clinical Sciences
Abstract

Psoriasis is a chronic, local as well as a systemic, inflammatory skin condition. Psoriasis influences the quality of life up to 3.8% of the population and occurs often between 15 and 30 years of age. Specific causes are linked to psoriasis, including the interleukin IL-23/IL-17 Axis, human antigen leucocyte (HLA), and tumor necrosis factor-α (TNF-α). Secukinumab is a monoclonal antibody that specifically binds and neutralizes IL-17A required in the treatment of Psoriasis. The signaling pathways of Wnt govern multiple functions of cell-like fate specification, proliferation, polarity, migration, differentiation with their signaling controlled rigorously, given that dysregulation caused by various stimuli, can lead to alterations in cell proliferation, apoptosis, and human inflammatory disease. Current data has supported non-canonical Wnt signaling pathways in psoriasis development, particularly Wnt5a activated signaling cascades. These interconnected factors are significant in interactions between immune cells, keratinocytes, and inflammatory factors due to a higher degree of transglutaminase 2, mediated by activation of the keratinocyte hyperproliferation of the psoriatic patient's epidermis. This study discusses the pathology of Wnt5a signaling and its involvement in the epidermal inflammatory effects of psoriasis with other related pathways.

Published
2020

36. Development of a novel HPTLC fingerprint method for simultaneous estimation of berberine and rutin in medicinal plants and their pharmaceutical preparations followed by its application in antioxidant assay

Author

Satija, S, Tambuwala, MM, Pabreja, K, Bakshi, HA, Chellappan, DK, Aljabali, AA, Nammi, S, Singh, TG, Dureja, H, Gupta, G, Dua, K, Mehta, M, and Garg, M

Subjects
0301 Analytical Chemistry, Analytical Chemistry
Abstract

The present study was designed to develop and validate a high-performance thin-layer chromatography (HPTLC) system for the simultaneous quantitative determination of berberine and rutin in Tinospora cordifolia extract and their pharmaceutical preparations. Chromatographic development was done using a blend of n-hexane, ethyl acetate, glacial acetic acid and methanol (10:1.1:1.1:2.5, v/v) as the mobile phase. Detection was completed densitometrically at 254 nm. The R estimation of berberine and rutin was observed to be 0.67 ± 0.02 and 0.47 ± 0.02, respectively. The developed HPTLC method was validated according to ICH guidelines; the method was specific, linear and accurate and can be used to determine berberine and rutin in marketed herbal preparations. The Tinospora cordifolia plant extract was further evaluated for antioxidant activity using HPTLC, and berberine was found to be more active than rutin during DPPH (2,2-diphenyl-1-picrylhydrazyl) scavenging activity. The method was found simple, rapid, accurate, specific and robust for the analysis of berberine and rutin in crude drug using the same method. [Figure not available: see fulltext.] F

Published
2020

37. Hybrid molecules based on 1,3,5-triazine as potential therapeutics: A focused review

Author

Prasher, P, Sharma, M, Aljabali, AAA, Gupta, G, Negi, P, Kapoor, DN, Singh, I, Zacconi, FC, de Jesus Andreoli Pinto, T, da Silva, MW, Bakshi, HA, Chellappan, DK, Tambuwala, MM, and Dua, K

Subjects
Pharmacology & Pharmacy, 1115 Pharmacology and Pharmaceutical Sciences
Abstract

Majority of the representative drugs customarily interact with multiple targets manifesting unintended side effects. In addition, drug resistance and over expression of the cellular efflux-pumps render certain classes of drugs ineffective. With only a few innovative formulations in development, it is necessary to identify pharmacophores and novel strategies for creating new drugs. The conjugation of dissimilar pharmacophoric moieties to design hybrid molecules with an attractive therapeutic profile is an emerging paradigm in the contemporary drug development regime. The recent decade witnessed the remarkable biological potential of 1,3,5-triazine framework in the development of various chemotherapeutics. The appending of the 1,3,5-triazine nucleus to biologically relevant moieties has delivered exciting results. The present review focuses on 1,3,5-triazine based hybrid molecules in the development of pharmaceuticals.

Published
2020

38. Circadian Rhythm Disruption and Alzheimer's Disease: The Dynamics of a Vicious Cycle

Author

Sharma, A, Sethi, G, Tambuwala, MM, Aljabali, AAA, Chellappan, DK, Dua, K, and Goyal, R

Subjects
Neurology & Neurosurgery, 1109 Neurosciences, 1115 Pharmacology and Pharmaceutical Sciences, 1701 Psychology
Abstract

All mammalian cells exhibit circadian rhythm in cellular metabolism and energetics. Autonomous cellular clocks are modulated by various pathways that are essential for robust time keeping. In addition to the canonical transcriptional translational feedback loop, several new pathways of circadian timekeeping - non-transcriptional oscillations, post-translational modifications, epigenetics and cellular signaling in the circadian clock - have been identified. The physiology of circadian rhythm is expansive, and its link to the neurodegeneration is multifactorial. Circadian rhythm disruption is prevelant in contamporary society where light-noise, shift-work, and transmeridian travel are commonplace, and is also reported from the early stages of Alzheimer's disease (AD). Circadian alignment by bright light therapy in conjunction with chronobiotics is beneficial for treating sundowning syndrome and other cognitive symptoms in advanced AD patients. We performed a comprehensive analysis of the clinical and translational reports to review the physiology of the circadian clock, delineate its dysfunction in AD, and unravel the dynamics of the vicious cycle between two pathologies. The review delineates the role of putative targets like clock proteins PER, CLOCK, BMAL1, ROR, and clock-controlled proteins like AVP, SIRT1, FOXO, and PK2 towards future approaches for management of AD. Furthermore, the role of circadian rhythm disruption in aging is delineated.

Published
2020

39. COVID-19 pandemic: an overview of epidemiology, pathogenesis, diagnostics and potential vaccines and therapeutics

Author

Amawi H, Abu Deiab GI, A Aljabali AA, Dua K, and Tambuwala MM

Subjects
viruses, 0903 Biomedical Engineering, 1004 Medical Biotechnology, 1115 Pharmacology and Pharmaceutical Sciences, skin and connective tissue diseases
Abstract

At the time of writing this review, severe acute respiratory coronavirus syndrome-2 (SARS-CoV-2) has infected more than 2,355,853 patients and resulted in more than 164,656 deaths worldwide (as of 20 April 2020). This review highlights the preventive measures, available clinical therapies and the potential of vaccine development against SARS-CoV-2 by taking into consideration the strong genetic similarities of the 2003 epidemic SARS-CoV. Recent studies are investigating the repurposing of US FDA-approved drugs as there is no available vaccine yet with many attempts under clinical evaluation. Several antivirals, antimalarials and immunomodulators that have shown activity against SARS-CoV and Middle East coronavirus respiratory syndromes are being evaluated. In particular, hydroxychloroquine, remdesivir, favipiravir, arbidol, tocilizumab and bevacizumab have shown promising results. The main aim of this review is to provide an overview of this pandemic and where we currently stand.

Published
2020

40. Efficacy of resveratrol encapsulated microsponges delivered by pectin based matrix tablets in rats with acetic acid-induced ulcerative colitis

Author

Gandhi, H, Rathore, C, Dua, K, Vihal, S, Tambuwala, MM, and Negi, P

Subjects
1115 Pharmacology and Pharmaceutical Sciences
Abstract

Objectives: The objective of the present work to encapsulate the resveratrol (RES) inside the chitosan-based microsponges, employing the systematic optimization by 33 Box-Behnken design for the colonic targeting.Significance: Enhanced therapeutic efficacy of RES-loaded microsponges and matrix tablets, vis-a-vis pureRES for ulcerative colitis.Methods: RES-loaded microsponges were prepared employing the systematic optimization by 33 Box-Behnken design for the colonic targeting. The best-optimizedRES-loaded microsponge was compressed in the form of a tablet, employing pectin as a matrix-forming material. The encapsulation of RES inside microsponge was confirmed by XRD, DSC and FT-IR. Further, both RES-loaded microsponges and matrix tablets were evaluated for in vitro release kinetics and further evaluated for in vivo ulcerative colitis animal model.Results: Optimization experiments was obtained as the high value of r2 (particle size = 0.9999; %EE = 0.9652; %CDR = 0.9469) inferred excellent goodness of fit. SEM revealed nearly spherical and porous nature of RES-loaded microsponges. The in vitro release kinetic showed zero-order release for RES-loaded microsponges and Korsmeyer-Peppas model for matrix tablets. The pharmacodynamic studies, in ulcerative colitis rat model, indicated better therapeutic efficacy of drug-loaded microsponges and matrix tablets, vis-a-vis pure RES. Thus, the present study advocates the potential of RES based microsponges delivered by pectin based matrix tablet, in the treatment of various colonic disorders.Conclusion: The present study proved that RES-loaded microsponges and matrix tablets based on chitosan and pectin can be the ideal delivery system for colonic delivery of RES.

Published
2020

41. Emerging trends in clinical implications of bio-conjugated silver nanoparticles in drug delivery

Author

Prasher, P, Sharma, M, Mudila, H, Gupta, G, Sharma, AK, Kumar, D, Bakshi, HA, Negi, P, Kapoor, DN, Chellappan, DK, Tambuwala, MM, and Dua, K

Abstract

© 2020 Elsevier B.V. From nanopharmaceutics to renewable energy, silver nanoparticles (AgNPs) present innumerable applications in the contemporary era. However, the associated toxicity to the biosystems limits their application. Effective utilization of AgNPs, therefore, requires their surface conjugation with biologically benevolent moieties that enhance the bio-acceptability of silver-based nanosystems, and supplementary functionalities for further extension of their unique applications. The clinical importance of AgNPs was established long ago, but their clinical utilization has been explored only recently with the phenomenon of bio-conjugation. The biomolecule-conjugated AgNPs present operable solutions for tedious clinical complications of the present era, such as multidrug resistance, designing of pharmaceuticals with improved bioavailability, superior drug delivery vehicles and in situ bio imaging of important metabolites that utilize the biomolecule-anchored surface engineered AgNPs. This review epigrammatically discusses some interesting clinical applications of surface conjugated AgNPs with biomolecules such as peptides, nucleic acids, amino acids and antibodies in the current nanopharmaceutical paradigm.

Published
2020

42. Small interfering RNA for cancer treatment: overcoming hurdles in delivery

Author

Charbe, NB, Amnerkar, ND, Ramesh, B, Tambuwala, MM, Bakshi, HA, Aljabali, AAA, Khadse, SC, Satheeshkumar, R, Satija, S, Metha, M, Chellappan, DK, Shrivastava, G, Gupta, G, Negi, P, Dua, K, and Zacconi, FC

Abstract

© 2020 Chinese Pharmaceutical Association and Institute of Materia Medica, Chinese Academy of Medical Sciences In many ways, cancer cells are different from healthy cells. A lot of tactical nano-based drug delivery systems are based on the difference between cancer and healthy cells. Currently, nanotechnology-based delivery systems are the most promising tool to deliver DNA-based products to cancer cells. This review aims to highlight the latest development in the lipids and polymeric nanocarrier for siRNA delivery to the cancer cells. It also provides the necessary information about siRNA development and its mechanism of action. Overall, this review gives us a clear picture of lipid and polymer-based drug delivery systems, which in the future could form the base to translate the basic siRNA biology into siRNA-based cancer therapies.

Published
2020

43. Chronic respiratory diseases: An introduction and need for novel drug delivery approaches

Author

Dua, K, Hansbro, PM, Wadhwa, R, Haghi, M, Pont, LG, Williams, KA, Shukla, S, Vanka, KS, Chavelier, A, Shastri, M, Tambuwala, MM, Bakshi, HA, Pabreja, K, Mahmood, Malik Quasir, O' Tool, RF, Dua, K, Hansbro, PM, Wadhwa, R, Haghi, M, Pont, LG, Williams, KA, Shukla, S, Vanka, KS, Chavelier, A, Shastri, M, Tambuwala, MM, Bakshi, HA, Pabreja, K, Mahmood, Malik Quasir, and O' Tool, RF

Abstract

This book examines numerous nanoparticle-based drug systems such as nanocrystals, dendrimers, polymeric micelles, protein-based, carbon nanotube, and liposomes that can offer advantages over traditional drug delivery systems such as ...

Published
2020

44. Plants derived therapeutic strategies targeting chronic respiratory diseases: Chemical and immunological perspective.

Author

Prasher, P, Sharma, M, Mehta, M, Paudel, KR, Satija, S, Chellappan, DK, Dureja, H, Gupta, G, Tambuwala, MM, Negi, P, Wich, PR, Hansbro, NG, Hansbro, PM, Dua, K, Prasher, P, Sharma, M, Mehta, M, Paudel, KR, Satija, S, Chellappan, DK, Dureja, H, Gupta, G, Tambuwala, MM, Negi, P, Wich, PR, Hansbro, NG, Hansbro, PM, and Dua, K

Abstract

The apparent predicament of the representative chemotherapy for managing respiratory distress calls for an obligatory deliberation for identifying the pharmaceuticals that effectively counter the contemporary intricacies associated with target disease. Multiple, complex regulatory pathways manifest chronic pulmonary disorders, which require chemotherapeutics that produce composite inhibitory effect. The cost effective natural product based molecules hold a high fervor to meet the prospects posed by current respiratory-distress therapy by sparing the tedious drug design and development archetypes, present a robust standing for the possible replacement of the fading practice of poly-pharmacology, and ensure the subversion of a potential disease relapse. This study summarizes the experimental evidences on natural products moieties and their components that illustrates therapeutic efficacy on respiratory disorders.

Published
2020

45. Nanocarriers: more than tour de force for thymoquinone.

Author

Rathore, C, Rathbone, MJ, Chellappan, DK, Tambuwala, MM, Pinto, TDJA, Dureja, H, Hemrajani, C, Gupta, G, Dua, K, Negi, P, Rathore, C, Rathbone, MJ, Chellappan, DK, Tambuwala, MM, Pinto, TDJA, Dureja, H, Hemrajani, C, Gupta, G, Dua, K, and Negi, P

Abstract

Introduction: Thymoquinone (TQ), 2-isopropyl-5-methylbenzo-1, 4-quinone, the main active constituent of Nigella sativa (NS) plant, has been proven to be of great therapeutic aid in various in vitro and in vivo conditions. Despite the promising therapeutic activities of TQ, this molecule is not yet in the clinical trials, restricted by its poor biopharmaceutical properties including photo-instability.Area covered: This review compiles the different types of polymeric and lipidic nanocarriers (NCs), encapsulating TQ for their improved oral bioavailability, and augmented in vitro and in vivo efficacy, evidenced on various pathologies. Furthermore, we provide a comprehensive overview of TQ in relation to its encapsulation approaches advancing the delivery and improving the efficacy of TQ.Expert opinion: TQ was first identified in the essential oil of Nigella sativa L. black seed. TQ has not been used in formulations because it is a highly hydrophobic drug having poor aqueous solubility. To deal with the poor physicochemical problems associated with TQ, various NCs encapsulating TQ have been tried in the past. Nevertheless, these NCs could be impending in bringing forth this potential molecule to clinical reality. This will also be beneficial for a large research community including pharmaceutical & biological sciences and translational researchers.

Published
2020

46. Monotherapy of RAAS blockers and mobilization of aldosterone: A mechanistic perspective study in kidney disease.

Author

Gupta, G, Dahiya, R, Singh, Y, Mishra, A, Verma, A, Gothwal, SK, Aljabali, AAA, Dureja, H, Prasher, P, Negi, P, Kapoor, DN, Goyal, R, Tambuwala, MM, Chellappan, DK, Dua, K, Gupta, G, Dahiya, R, Singh, Y, Mishra, A, Verma, A, Gothwal, SK, Aljabali, AAA, Dureja, H, Prasher, P, Negi, P, Kapoor, DN, Goyal, R, Tambuwala, MM, Chellappan, DK, and Dua, K

Abstract

In patients with acute kidney injury progressively converting into chronic kidney disease (CKD), proteinuria and high blood pressure predict progression to end-stage renal disease (ESRD). Although, Renin-angiotensin-aldosterone system (RAAS) regulates blood pressure and kidney disease through both direct and indirect mechanisms. RAAS blockers that act at the level of angiotensin or lower in the cascade can cause compensatory increases in the plasma renin and angiotensin II level. Here, in this review article, we are exploring the evidence-based on RAAS blockade action releases of aldosterone and hypothesizing the molecular mechanism for converting the acute kidney injury into chronic kidney disease to end-stage renal disease.

Published
2020

47. Enhanced oral bioavailability and hepatoprotective activity of thymoquinone in the form of phospholipidic nano-constructs.

Author

Rathore, C, Upadhyay, N, Kaundal, R, Dwivedi, RP, Rahatekar, S, John, A, Dua, K, Tambuwala, MM, Jain, S, Chaudari, D, Negi, P, Rathore, C, Upadhyay, N, Kaundal, R, Dwivedi, RP, Rahatekar, S, John, A, Dua, K, Tambuwala, MM, Jain, S, Chaudari, D, and Negi, P

Abstract

Background: The poor biopharmaceutical properties of thymoquinone (TQ) obstruct its development as a hepatoprotective agent. To surmount the delivery challenges of TQ, phospholipid nanoconstructs (PNCs) were constructed.Method: PNCs were constructed employing microemulsification technique and systematic optimization by three-factor three level Box-Behnken design.Result: Optimized PNC composition exhibited nano size (<100 nm), spherical morphology, within acceptable range of polydispersity index (0.55), high drug entrapment efficiency (>90%), controlled drug release pattern, and neutral surface charge (zeta potential of -0.65 mV). After oral administration of a single dose of PNC, it showed a relative bioavailability of 386.03% vis-à-vis plain TQ suspension. Further, TQ-loaded PNC demonstrated significant enhanced hepato-protective effect vis-à-vis pure TQ suspension and silymarin, as evidenced by reduction in the ALP, ALT, AST, bilirubin, and albumin level and ratified by histopathological analysis.Conclusion: TQ-loaded PNCs can be efficient nano-platforms for the management of hepatic disorders and promising drug delivery systems to enhance oral bioavailability of this hydrophobic molecule.

Published
2020

48. Emerging era of 'somes': polymersomes as versatile drug delivery carrier for cancer diagnostics and therapy.

Author

Sharma, AK, Prasher, P, Aljabali, AA, Mishra, V, Gandhi, H, Kumar, S, Mutalik, S, Chellappan, DK, Tambuwala, MM, Dua, K, Kapoor, DN, Sharma, AK, Prasher, P, Aljabali, AA, Mishra, V, Gandhi, H, Kumar, S, Mutalik, S, Chellappan, DK, Tambuwala, MM, Dua, K, and Kapoor, DN

Abstract

Over the past two decades, polymersomes have been widely investigated for the delivery of diagnostic and therapeutic agents in cancer therapy. Polymersomes are stable polymeric vesicles, which are prepared using amphiphilic block polymers of different molecular weights. The use of high molecular weight amphiphilic copolymers allows for possible manipulation of membrane characteristics, which in turn enhances the efficiency of drug delivery. Polymersomes are more stable in comparison with liposomes and show less toxicity in vivo. Furthermore, their ability to encapsulate both hydrophilic and hydrophobic drugs, significant biocompatibility, robustness, high colloidal stability, and simple methods for ligands conjugation make polymersomes a promising candidate for therapeutic drug delivery in cancer therapy. This review is focused on current development in the application of polymersomes for cancer therapy and diagnosis. Graphical abstract.

Published
2020

49. Anti-bacterial activity of inorganic nanomaterials and their antimicrobial peptide conjugates against resistant and non-resistant pathogens.

Author

Pardhi, DM, Şen Karaman, D, Timonen, J, Wu, W, Zhang, Q, Satija, S, Mehta, M, Charbe, N, McCarron, PA, Tambuwala, MM, Bakshi, HA, Negi, P, Aljabali, AA, Dua, K, Chellappan, DK, Behera, A, Pathak, K, Watharkar, RB, Rautio, J, Rosenholm, JM, Pardhi, DM, Şen Karaman, D, Timonen, J, Wu, W, Zhang, Q, Satija, S, Mehta, M, Charbe, N, McCarron, PA, Tambuwala, MM, Bakshi, HA, Negi, P, Aljabali, AA, Dua, K, Chellappan, DK, Behera, A, Pathak, K, Watharkar, RB, Rautio, J, and Rosenholm, JM

Abstract

This review details the antimicrobial applications of inorganic nanomaterials of mostly metallic form, and the augmentation of activity by surface conjugation of peptide ligands. The review is subdivided into three main sections, of which the first describes the antimicrobial activity of inorganic nanomaterials against gram-positive, gram-negative and multidrug-resistant bacterial strains. The second section highlights the range of antimicrobial peptides and the drug resistance strategies employed by bacterial species to counter lethality. The final part discusses the role of antimicrobial peptide-decorated inorganic nanomaterials in the fight against bacterial strains that show resistance. General strategies for the preparation of antimicrobial peptides and their conjugation to nanomaterials are discussed, emphasizing the use of elemental and metallic oxide nanomaterials. Importantly, the permeation of antimicrobial peptides through the bacterial membrane is shown to aid the delivery of nanomaterials into bacterial cells. By judicious use of targeting ligands, the nanomaterial becomes able to differentiate between bacterial and mammalian cells and, thus, reduce side effects. Moreover, peptide conjugation to the surface of a nanomaterial will alter surface chemistry in ways that lead to reduction in toxicity and improvements in biocompatibility.

Published
2020

50. Going Beyond Antibiotics: Natural Plant Extracts as an Emergent Strategy to Combat Biofilm-Associated Infections.

Author

Kou, J, Xin, TY, McCarron, P, Gupta, G, Dureja, H, Satija, S, Mehta, M, Bakshi, HA, Tambuwala, MM, Collet, T, Dua, K, Chellappan, DK, Kou, J, Xin, TY, McCarron, P, Gupta, G, Dureja, H, Satija, S, Mehta, M, Bakshi, HA, Tambuwala, MM, Collet, T, Dua, K, and Chellappan, DK

Abstract

Biofilms are a collective of multiple types of bacteria that develop on a variety of surfaces. Biofilm development results in heightened resistance to antibiotics. Quorum sensing plays an important role in biofilm development as it is one of the common communication mechanisms within cells, which balances and stabilizes the environment, when the amount of bacteria increases. Because of the important implications of the roles biofilms play in infectious diseases, it is crucial to investigate natural antibacterial agents that are able to regulate biofilm formation and development. Various studies have suggested that natural plant products have the potential to suppress bacterial growth and exhibit chemopreventive traits in the modulation of biofilm development. In this review, we discuss and collate potential antibiofilm drugs and biological molecules from natural sources, along with their underlying mechanisms of action. In addition, we also discuss the antibiofilm drugs that are currently under clinical trials and highlight their potential future uses.

Published
2020

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