School Of Basic And Applied Sciences
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Item The creation of selenium nanoparticles decorated with troxerutin and their ability to adapt to the tumour microenvironment have therapeutic implications for triple-negative breast cancer(Royal Society of Chemistry, 2023-02-09T00:00:00) Saranya, Thiruvenkataswamy; Kavithaa, Krishnamoorthy; Paulpandi, Manickam; Ramya, Sennimalai; Winster, Sureshbabu Harysh; Mani, Geetha; Dhayalan, Sangeetha; Balachandar, Vellingiri; Narayanasamy, ArulDespite advancements in treatment, managing aggressive types of breast cancer, particularly Triple Negative Breast Cancer (TNBC), remains a daunting task. Newer chemotherapeutics enhance the multidrug resistance in cancer cells, making them untreatable. The current research work was framed to develop a novel therapeutic target by utilizing the flavanol, troxerutin (TXN) as a drug of interest to target TNBC. And also, to increase the efficiency of the drug at the target site, a nanocarrier called selenium nanoparticles (SeNPs) has been exploited. Thus, the anticancer efficacy of TXN and Se-TXN against TNBC (in vitro and in vivo) has been compared and analysed in the present study. Se-TXN was synthesized by a precipitation approach and characterized by diverse analytical techniques, which confirmed the successful loading of TXN on the SeNPs. The inhibitory concentration (IC50) of Se-TXN was determined to be 6.5 � 0.5 ?g mL?1 according to the in vitro data. Even at lower concentrations, the existence of apoptotic bodies shows that Se-TXN is effective against TNBC. Additionally, the Se-TXN expression study shows that the activation of the caspase cascade pathway, which results in apoptosis, occurs from the downregulation of anti-apoptotic proteins and genes and the upregulation of pro-apoptotic proteins and genes. And the in vivo investigations like histopathology, hematology and biochemical parameters revealed that the Se-TXN had significantly lowered the tumour volume of treated Balb/C mice without having any significant systemic toxicity when compared to other treatment groups. Altogether, our data suggests the efficacy of Se-TXN nanoconjugates as an effective management therapy for treating TNBC. � 2023 The Royal Society of Chemistry.Item Biosynthesis of Zinc Oxide Nanoparticles Using Catharanthus Roseus Leaves and Their Therapeutic Response in Breast Cancer (MDA-MB-231) Cells(Routledge, 2021-07-26T00:00:00) Bangroo, Apoorva; Malhotra, Akshay; Sharma, Uttam; Jain, Aklank; Kaur, AnupreetAs the current study reports the utilization of the leaf extract of Catharanthus roseus (C.roseus) for the biological synthesis of zinc oxide nanoparticles (ZnO NPs) because of the importance of the importance of health and environment. Bioinspired synthesis were characterized using Fourier Transform Infrared Spectroscopy (FT-IR), Field Emission-Scanning Electron Microscopy (FE-SEM), Transmission Electron Microscopy (TEM), Energy-Dispersive X-ray Spectroscopy (EDX) and X-Ray diffraction (XRD). XRD and TEM micrograph analysis revealed that the synthesized nanostructures were well-dispersed and spherical with the average particle size in the 18-30 nm range were produced. The FT-IR spectra confirmed presence of phenolic compounds that act as reducing and capping agents. Further, it suggested the possible utilization of hydroxyl groups and amides in the reduction of Zn ions and stablization of ZnO NPs. Zinc oxide nanomaterials are effective in cancer treatments, including the destruction of tumor cells with minimal damage to healthy cells. The toxicity of zinc oxide nanomaterials was checked in vitro in the human breast cancer line MDA-MB-231. Inverse relation of the percentage of viable cells to the concentration of zinc oxide nanomaterials at increasing molar levels was assessed. The cytotoxicity analysis used in the MTT test shows the substantial viable MDA-MB-231-cells despite the increased concentration of exposure to zinc oxide nanomaterials. Reduction in the ratio of viable MDA-MB-231 cells after being exposed to zinc oxide nanomaterials was compared to untreated cancerous cells. The present approach to biosynthesis is quick, inexpensive, eco-friendly, and high-rise stable nanomaterials of zinc oxide with substantial cancer potential. This is the first study that reports molar concentrations (with the lowest concentration of 10 mM) as an anticancer agent for breast cancer and potential clinical uses for synthesized zinc oxide nanomaterials. Thus, C. roseus based synthesized ZnO NPs could be explored not only as environmentally benign method but also as a potential anti-carcinogenic agent. � 2022 Taylor & Francis Group, LLC.Item Effect of oxygen vacancies, lattice distortions and secondary phase on the structural, optical, dielectric and ferroelectric properties in Cd-doped Bi2Ti2O7 nanoparticles(Elsevier Ltd, 2021-04-27T00:00:00) Anu; Yadav, Kamlesh; Gaur, Anurag; Haldar, Krishna Kanta(Bi1-xCdx)2Ti2O7 (x = 0.00, 0.02, 0.04, 0.06, 0.08, 0.10 and 0.12) nanoparticles are synthesised using the co-precipitation method. The prepared samples show pyrochlore phase formation except for x = 0.02 and 0.08, where Bi4Ti3O12 appears as a secondary phase. The crystallite size and unit cell volume decrease while the strain and dislocation density increase with an increase in Cd-doping. The vibrational bands corresponding to Cd?O and C[dbnd]O are red-shifted, while the H[sbnd]O[sbnd]H bending band is blue-shifted with increasing Cd-doping. The band gap energy for x = 0.00 is found to be 1.78 eV. It increases with an increase in �x� up to 0.06 and then decreases with a further increase in �x� except for x = 0.02 and x = 0.08. The impedance data show non-Debye type relaxation. The pyrochlore phase is found to be non-ferroelectric. However, the samples with x = 0.02 and x = 0.08 having the secondary phase (Bi4Ti3O12) are ferroelectric. � 2021 Elsevier LtdItem A Protein and Membrane Integrity Study of TiO2 Nanoparticles-Induced Mitochondrial Dysfunction and Prevention by Iron Incorporation(Springer, 2021-03-31T00:00:00) Barkhade, Tejal; Mahapatra, Santosh Kumar; Banerjee, IndraniThe paper assessed the toxic effect of titanium dioxide (TiO2) nanoparticles (NPs) on isolated mitochondria and its dysfunction prevention after Iron (Fe) incorporation. TiO2 and Fe content TiO2 NPs were synthesized and characterized using XPS, PL spectroscopy, and TEM. The nanostructure interaction with isolated mitochondria was investigated using circular dichroism (CD) confocal microscopy, flow cytometry, atomic force microscopy (AFM), surface-enhanced Raman spectroscopy (SERS), and FT-IR spectroscopy via nonspecific pathway. Fe content TiO2 NPs helps to control the dissolution rate of parent nanomaterial of TiO2 on the mitochondrial membrane. Confocal micrographs and flow cytometry results confirmed that Rhodamine 123 dye intensity get increased after interaction with Fe content TiO2 NPs which states the integrity of the mitochondrial membrane. AFM results revealed that TiO2 induces the swelling of mitochondrial tubules and also impaired the mitochondrial structure, whereas Fe content TiO2 NPs interaction prevents the impairment of mitochondrial tubules. The denaturation of a membrane protein by TiO2 interactions was observed through CD Spectroscopy. Further, nano-bio-interface study was performed using SERS, through shifting and extinct of peaks affiliated to membrane proteins and lipids. However, Fe content TiO2-treated samples showed a significant increase in the membrane potential of mitochondria via flow cytometry results. Graphic Abstract: [Figure not available: see fulltext.] � 2021, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.Item Iron content titanium dioxide nanoparticles as exogenous contrast agent for tissue imaging using swept-source optical coherence tomography(American Institute of Physics Inc., 2021-01-08T00:00:00) Barkhade, Tejal; Indoliya, Abhishek; Poddar, Raju; Mahapatra, Santosh Kumar; Banerjee, IndraniEx vivo tissue imaging was performed by swept-source optical coherence tomography (SS-OCT) using titanium dioxide (TiO2) and Fe content TiO2 nanoparticles (NPs). The comparative effects of TiO2 and Fe content TiO2 NPs in terms of contrast enhancement, penetration, scattering, and accumulation in the chicken breast tissue have been monitored at different exposure times. Powder NP samples were synthesized using the sol-gel method, and characterization was carried out via transmission electron microscopy, x-ray photoelectron spectroscopy, and diffuse reflectance spectroscopy techniques. Fe incorporation in the TiO2 matrix reduces its toxic effect on tissue skin and produces a safe exogenous contrast agent, which is analyzed by SS-OCT. The scattering coefficients and contrast to noise ratio of the tissues with and without NPs were determined to study the imaging efficacy. The improvement in the coefficient was observed with an increase in the exposure time of NPs. Nano-TiO2 has shown the ability to penetrate within the tissue layer up to 780 ?m while Fe content TiO2 NPs samples showed the lowest rate of penetration up to 210 ?m after a 30 min time interval. � 2021 Author(s).Item Polymeric nanoparticles of aromatase inhibitors: A comprehensive review(Bentham Science Publishers, 2020-09-29T00:00:00) Mishra, Keerti; Ratre, Pooja; Thareja, Suresh; Jain, Akhlesh K.Being the second most frequent cancer, breast cancer is emerging worldwide with an alarming rate, specifically in post-menopausal women. Targeted drug delivery has been in the focus for the successful treatment of breast cancer by enhancing the drug delivery efficiency and reducing the systemic toxicity of drugs. Al-so, it eliminates the drawbacks associated with conventional chemotherapy, including neuropathy, memory loss, cardiotoxicity and low RBCs count. This review elaborates the polymeric nanoparticles based formulation approaches for selective and sustained delivery for effective cure of breast cancer. However, breast cancer, a life-threatening disease, is mostly caused because of estrogen, thus aromatase inhibitors and estrogen synthesis inhibitors could prevent chances of breast cancer. The disease is associated with drug resistance and some side effects, which could be easily eliminated by using novel therapeutic approaches. Aromatase inhibitors, when en-trapped in nanoparticles, have shown sustained drug release, advocating themselves to be beneficial for the treatment of breast cancer. � 2021 Bentham Science Publishers.Item Mannose conjugated starch nanoparticles for preferential targeting of liver cancer(Bentham Science Publishers, 2020-09-04T00:00:00) Jain, Akhlesh Kumar; Sahu, Hitesh; Mishra, Keerti; Thareja, SureshAim: To design D-Mannose conjugated 5-Fluorouracil (5-FU) loaded Jackfruit seed starch nanoparticles (JFSSNPs) for site-specific delivery. Background: Liver cancer is the third leading cause of death in the world and the fifth most often diagnosed cancer. It is a major global threat to public health. Treatment of liver cancer with conventional method bears several side effects, thus to undertake these side effects as a formulation chal-lenge, it is necessary to develop novel target-specific drug delivery system for the effective and bet-ter localization of drug into the proximity of target with restricting the movement of the drug in normal tissues. Objective: To optimize and characterize the developed D-Mannose conjugated 5-Fluorouracil (5--FU) loaded Jackfruit seed starch nanoparticles (JFSSNPs) for effective treatment of liver cancer. Materials and Methods: 5-FU loaded JFSSNPs were prepared and optimized formulations having higher encapsulation efficiency were conjugated with D-Mannose. These formulations were characterized for size, morphology, zeta potential, X-Ray Diffraction, and Differential Scanning Calorimetry. The potential of NPs was studied using in vitro cytotoxicity assay, in vivo kinetic studies, and bio-distribution studies. Result and Discussion: 5-Fluorouracil loaded NPs had a particle size between 336 to 802nm with drug entrapment efficiency between 64.2 to 82.3%. In XRD analysis, 5-FU peak was diminished in the diffractogram, which could be attributed to the successful incorporation of the drug in amorp-hous form. DSC study suggests there was no physical interaction between 5-FU and Polymer. NPs showed sustained in vitro 5-FU release up to 2 hours. In vivo, mannose conjugated NPs prolonged the plasma level of 5-FU and assisted in the selective accumulation of 5-FU in the liver (vs. other organs spleen, kidney, lungs, and heart) compared to unconjugated one and plain drug. Conclusion: In vivo, bio-distribution, and plasma profile studies resulted in a significantly higher concentration of 5-Fluorouracil liver, suggesting that these carriers are efficient, viable, and targeted carrier of 5-FU treatment of liver cancer. � 2021 Bentham Science Publishers.Item In silico molecular interaction studies of chitosan polymer with aromatase inhibitor: Leads to letrozole nanoparticles for the treatment of breast cancer(Bentham Science Publishers, 2020-08-26T00:00:00) Mishra, Keerti; Verma, Sant K.; Ratre, Pooja; Banjare, Laxmi; Jain, Abhishek; Thareja, Suresh; Jain, Akhlesh K.Background: It takes a lot more studies to evaluate the molecular interaction of nanoparticles with the drug, their drug delivery potential and release kinetics. Thus, we have taken in silico and in vitro approaches into account for the evaluation of the drug delivery ability of the chitosan nanoparticles. Objective: The present work was aimed to study the interaction of chitosan nanoparticles with appropriate aromatase inhibitors using in silico tools. Further, synthesis and characterization of chitosan nanoparticles having optimal binding energy and affinity between drug and polymer in terms of size, encapsulation efficiency were carried out. Methods: In the current study, molecular docking was used to map the molecular interactions and estimation of binding energy involved between the nanoparticles and the drug molecules in silico. Letrozole is used as a model cytotoxic agent currently being used clinically; hence Letrozole loaded chitosan nanoparticles were formulated and characterized using photomicroscope, particle size analyzer, scanning electron microscope and fourier transform infra-red spectroscopy. Results: Letrozole had the second-highest binding affinity within the core of chitosan with MolDock (-102.470) and Re-rank (-81.084) scores. Further, it was investigated that formulated nanoparticles were having superior drug loading capacity and high encapsulation efficiency. In vitro drug release study exhibited prolonged release of the drug from chitosan nanoparticles. Conclusion: Results obtained from the in silico and in vitro studies suggest that Letrozole loaded nanoparticles are ideal for breast cancer treatment. � 2021 Bentham Science Publishers.Item Role of nanoparticles in the treatment of human disease: a comprehensive review(Elsevier, 2022-12-09T00:00:00) Zomuansangi, Ruth; Singh, Bhim Pratap; Singh, Garima; Zothanpuia; Singh, Prashant Kumar; Song, Jae Jun; Kharat, Arun S.; Deka, Purbhajyoti; Yadav, Mukesh KumarNanoparticles (NPs) are nanosize particles which can be employed to treat human diseases and enhance the potential of existing drugs. The NPs can overcome biological barriers and enhance the drug delivery to the target site and thus increase efficiency of the drug. NPs are classified into various types, including polymeric, inorganic, and lipid-based NPs. In addition different types of NPs are used in medical fields, such as chitosan, alginate, cellulose, and liposome-based. The NPs have offered many advantages in disease diagnostic and therapeutic with the safe delivery of the various drugs into the tissue. In the past few years, the usage of nanotechnology in medicine has led to the improvement of vaccine efficiency, immunity strategies, and targeted delivery to attain a positive immune response at the cellular level and to advance vaccine efficiency. The NP carriers should defend the antigens from premature proteolytic degradation, ease antigen uptake and processing by antigen-presenting cells, control release, and be harmless for human consumption. This review chapter presents a summary of the current research and future trends in the use of NPs in the treatment of diseases with an emphasis on drug delivery. � 2023 Elsevier Inc. All rights reserved.Item Bifunctional electrochemical OER and HER activity of Ta2O5 nanoparticles over Fe2O3 nanoparticles(Royal Society of Chemistry, 2023-08-23T00:00:00) Ahmed, Imtiaz; Burman, Vishal; Biswas, Rathindranath; Roy, Ayan; Sharma, Rohit; Haldar, Krishna KantaHydrogen production via electrocatalytic water splitting offers encouraging innovations for sustainable and clean energy production as an alternative to conventional energy sources. The improvement of extraordinarily dynamic electrocatalysts is of great interest for work on the performance of gas generation, which is firmly blocked due to the sluggish kinetics of the oxygen evolution reaction (OER). The development of highly efficient base metal catalysts for electrochemical hydrogen and oxygen evolution reactions (HER and OER) is a challenging and promising task. In the present work, a particle over particles of Fe2O3 and Ta2O5 was successfully produced by hydrothermal treatment. The prepared composite shows promising catalytic performance when used as an electrochemical catalyst for OER and HER in alkaline and acidic electrolytes with low overpotentials of 231 and 201 mV at 10 mV cm?2, small Tafel slopes of 71 and 135 mV dec?1, respectively, and good stability properties. The calculated electrochemical surface area (ECSA) for composites is five times higher than that of the original oxides. The result of the OER is significantly better than that of commercial IrO2 catalysts and offers a promising direction for the development of water-splitting catalysts. � 2023 The Royal Society of Chemistry.
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