Your search keyword '"Abhijit De"' showing total 288 results

1. Plasmonic semi shells derived from simultaneous in situ gold growth and anisotropic acid etching of ZIF-8 for photothermal ablation of metastatic breast tumor

Author

Kritika Sood, Purvi Mathur, Sulagna Rath, Pranjali Yadav, Navneet Kaur, Priyanka Sharma, Mimansa, Deepak Singh Chauhan, Sonalika Vaidya, Rohit Srivastava, Abhijit De, and Asifkhan Shanavas

Subjects

Chemistry, QD1-999

Abstract

Abstract Open nanoshells such as nanobowls or nanocups collectively described as ‘semi shells’ have unique plasmonic properties due to their lack of symmetry. So far, their fabrication was based on multistep and laborious methods such as solid state sputter coating or selective deposition/etching using sacrificial templates. In this work, we report a rapid one step colloidal synthetic protocol for PEGylated semi-shell (SS) fabrication by simultaneous facet specific anisotropic chemical etching of rhombic dodecahedral ZIF-8 and heterogenous nucleation & growth of gold. The SS possesses a strong localized surface plasmon resonance in the near-infrared region, which is retained after surface passivation with polyethylene glycol and subsequent cryopreservation for extended shelf-life. Freshly reconstituted PEGylated SS was found to be safe & non-toxic in healthy C57BL/6 mice post intravenous administration. The PEGylated SS displayed significant photothermal efficiency of ~37% with 808 nm laser irradiation. Preclinical assessment of intra-tumoral photothermal efficacy indicated complete remission of primary breast tumor mass with insignificant metastasis to vital organs in 4T1 FL2 tumor bearing CD1 nude mice. Further, PEGylated SS mediated photothermal therapy also yielded morbidity free survivael of 75% for up to 90 days, indicating their potential to significantly improve outcomes in advanced breast tumors.

Published

2024

2. Autophagy-mediated ID1 turnover dictates chemo-resistant fate in ovarian cancer stem cells

Author

Pratham Phadte, Aniketh Bishnu, Pranay Dey, Manikandan M, Megha Mehrotra, Prerna Singh, Shritama Chakrabarty, Rounak Majumdar, Bharat Rekhi, Malay Patra, Abhijit De, and Pritha Ray

Subjects

Autophagy, Cancer stem cells, Chemo-resistance, Differentiation, Epithelial Ovarian Cancer, ID1, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background The mechanisms enabling dynamic shifts between drug-resistant and drug-sensitive states in cancer cells are still underexplored. This study investigated the role of targeted autophagic protein degradation in regulating ovarian cancer stem cell (CSC) fate decisions and chemo-resistance. Methods Autophagy levels were compared between CSC-enriched side population (SP) and non-SP cells (NSP) in multiple ovarian cancer cell lines using immunoblotting, immunofluorescence, and transmission electron microscopy. The impact of autophagy modulation on CSC markers and differentiation was assessed by flow cytometry, immunoblotting and qRT-PCR. In silico modeling and co-immunoprecipitation identified ID1 interacting proteins. Pharmacological and genetic approaches along with Annexin-PI assay, ChIP assay, western blotting, qRT-PCR and ICP-MS were used to evaluate effects on cisplatin sensitivity, apoptosis, SLC31A1 expression, promoter binding, and intracellular platinum accumulation in ID1 depleted backdrop. Patient-derived tumor spheroids were analyzed for autophagy and SLC31A1 levels. Results Ovarian CSCs exhibited increased basal autophagy compared to non-CSCs. Further autophagy stimulation by serum-starvation and chemical modes triggered proteolysis of the stemness regulator ID1, driving the differentiation of chemo-resistant CSCs into chemo-sensitive non-CSCs. In silico modeling predicted TCF12 as a potent ID1 interactor, which was validated by co-immunoprecipitation. ID1 depletion freed TCF12 to transactivate the cisplatin influx transporter SLC31A1, increasing intracellular cisplatin levels and cytotoxicity. Patient-derived tumor spheroids exhibited a functional association between autophagy, ID1, SLC31A1, and platinum sensitivity. Conclusions This study reveals a novel autophagy-ID1-TCF12-SLC31A1 axis where targeted autophagic degradation of ID1 enables rapid remodeling of CSCs to reverse chemo-resistance. Modulating this pathway could counter drug resistance in ovarian cancer.

Published

2024

3. Recent advancements in targeted protein knockdown technologies—emerging paradigms for targeted therapy

Author

Mansi Joshi, Pranay Dey, and Abhijit De

Subjects

protein knockdown, post-translational modification, proteolysis targeting chimeras, intrabodies, tripartite motif-21, cancer, Internal medicine, RC31-1245

Abstract

A generalized therapeutic strategy for various disease conditions, including cancer, is to deplete or inactivate harmful protein targets. Various forms of protein or gene silencing molecules, e.g., small molecule inhibitors, RNA interference (RNAi), and microRNAs (miRNAs) have been used against druggable targets. Over the past few years, targeted protein degradation (TPD) approaches have been developed for direct degradation of candidate proteins. Among the TPD approaches, proteolysis targeting chimeras (PROTACs) have emerged as one of the most promising approaches for the selective elimination of proteins via the ubiquitin-proteasome system. Other than PROTACs, TPD methods with potential therapeutic use include intrabody-mediated protein knockdown and tripartite motif-21 (TRIM-21) mediated TRIM-Away. In this review, protein knockdown approaches, their modes of action, and their advantages over conventional gene knockdown approaches are summarized. In cancers, disease-associated protein functions are often executed by specific post-translational modifications (PTMs). The role of TRIM-Away is highlighted in the direct knockdown of PTM forms of target proteins. Moreover, the application challenges and the prospective clinical use of TPD approaches in various diseases are also discussed.

Published

2023

4. Novel BRET combination for detection of rapamycin-induced protein dimerization using luciferase from fungus Neonothopanus nambi

Author

Aaiyas Mujawar, Shalini Dimri, Ksenia A. Palkina, Nadezhda M. Markina, Karen S. Sarkisyan, Anastasia V. Balakireva, Ilia V. Yampolsky, and Abhijit De

Subjects

Bioluminescence resonance energy transfer, Luciferase, Cancer, Cell signaling, Rapamycin, Fungal BRET, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Bioluminescence resonance energy transfer (BRET) is one of the most promising approaches used for noninvasive imaging of protein-protein interactions in vivo. Recently, our team has discovered a genetically encodable bioluminescent system from the fungus Neonothopanus nambi and identified a novel luciferase that represents an imaging tool orthogonal to other luciferin-luciferase systems. We demonstrated the possibility of using the fungal luciferase as a new BRET donor by creating fused pairs with acceptor red fluorescent proteins, of which tdTomato provided the highest BRET efficiency. Using this new BRET system, we also designed a mTOR pathway specific rapamycin biosensor by integrating the FRB and FKBP12 protein dimerization system. We demonstrated the specificity and efficacy of the new fungal luciferase-based BRET combination for application in mammalian cell culture that will provide the unique opportunity to perform multiplexed BRET assessment in the future.

Published

2024

5. Triple Reporter Assay: A Non-Overlapping Luciferase Assay for the Measurement of Complex Macromolecular Regulation in Cancer Cells Using a New Mushroom Luciferase–Luciferin Pair

Author

Aaiyas Mujawar, Pratham Phadte, Ksenia A. Palkina, Nadezhda M. Markina, Ameena Mohammad, Bhushan L. Thakur, Karen S. Sarkisyan, Anastasia V. Balakireva, Pritha Ray, Ilia Yamplosky, and Abhijit De

Subjects

bioluminescence, fungal luciferase, triple luciferase assay, gene expression, transcriptional regulation, cancer, Chemical technology, TP1-1185

Abstract

This study demonstrates the development of a humanized luciferase imaging reporter based on a recently discovered mushroom luciferase (Luz) from Neonothopanus nambi. In vitro and in vivo assessments showed that human-codon-optimized Luz (hLuz) has significantly higher activity than native Luz in various cancer cell types. The potential of hLuz in non-invasive bioluminescence imaging was demonstrated by human tumor xenografts subcutaneously and by the orthotopic lungs xenograft in immunocompromised mice. Luz enzyme or its unique 3OH-hispidin substrate was found to be non-cross-reacting with commonly used luciferase reporters such as Firefly (FLuc2), Renilla (RLuc), or nano-luciferase (NLuc). Based on this feature, a non-overlapping, multiplex luciferase assay using hLuz was envisioned to surpass the limitation of dual reporter assay. Multiplex reporter functionality was demonstrated by designing a new sensor construct to measure the NF-κB transcriptional activity using hLuz and utilized in conjunction with two available constructs, p53-NLuc and PIK3CA promoter-FLuc2. By expressing these constructs in the A2780 cell line, we unveiled a complex macromolecular regulation of high relevance in ovarian cancer. The assays performed elucidated the direct regulatory action of p53 or NF-κB on the PIK3CA promoter. However, only the multiplexed assessment revealed further complexities as stabilized p53 expression attenuates NF-κB transcriptional activity and thereby indirectly influences its regulation on the PIK3CA gene. Thus, this study suggests the importance of live cell multiplexed measurement of gene regulatory function using more than two luciferases to address more realistic situations in disease biology.

Published

2023

6. FOXA1 Regulation Turns Benzamide HDACi Treatment Effect-Specific in BC, Promoting NIS Gene-Mediated Targeted Radioiodine Therapy

Author

Maitreyi Rathod, Madhura Kelkar, Snehal Valvi, Girish Salve, and Abhijit De

Subjects

sodium iodide symporter, breast cancer, benzamide, HDAC inhibitor, transcriptional factor, radio-iodine therapy, FOXA1, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Human sodium iodide symporter (NIS) gene mediated radio-ablation is a successful procedure in thyroid cancer clinics. In recent years, natural expression of NIS is reported in breast cancer (BC) cases but is yet to make its mark as a therapeutic procedure in BC clinics. A pre-exposure to histone deacetylase (HDAC) inhibitors to amplify endogenous NIS expression was attempted, but achieving cancer tissue-specific enhancement of NIS in patients is an important challenge to win. Here, for the first time, we show that a benzamide class of HDACi (bHDACi) can significantly induce NIS gene expression and function (p < 0.05) in BC cells with minimal off-target effects. Transcription factor (TF) profiler and promoter binding array reveals 22 TFs differentially activated by CI-994, of which FOXA1 is identified as a unique and positive regulator of NIS. Clonogenic assay shows reduced survival with bHDACi + 131I combination treatment. Further, AR-42 and MS-275 treatment shows enhanced NIS expression in an orthotopic breast tumor model. Combining bHDACi with 1 mCi 131I shows 40% drop in signal (p < 0.05), indicating enhanced radio-ablation effect. Cerenkov imaging revealed higher accumulation of 131I in MS-275-treated tumors. Thus, bHDACi-mediated selective enhancement ensuring minimal off-target effect is a step further toward using NIS as a therapeutic target for BC.

Published

2020

7. In Silico Identification of Potential Phosphorylation in the Cytoplasmic Domain of Epithelial Cell Adhesion Molecule

Author

Arijit Mal, Pranay Dey, Robert Michael Hayes, Justin V. McCarthy, Arjun Ray, and Abhijit De

Subjects

Chemistry, QD1-999

Published

2020

8. Predicting response to platinum and non-platinum drugs through bioluminescence resonance energy transfer (BRET) based bio-molecular interactions in platinum resistant epithelial ovarian cancer

Author

Aniketh Bishnu, Megha Mehrotra, Ajit Dhadve, Shalini Dimri, Abhijit De, and Pritha Ray

Subjects

BRET, Chemoresistance, Second line non-platinum drugs, ERK1/2, AKT, HGSOC, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Therapy induced rewiring of signalling networks often lead to acquirement of platinum-resistance, thereby necessitating the use of non-platinum agents as second-line treatment particularly for epithelial ovarian cancer (EOC). A prior subject-specific assessment can guide the choice of optimal non-platinum agent/s and possible targeted therapeutic/s. Assessment of protein-protein interactions are superior to simple cytotoxicity assays to determine therapeutic efficacy and associated molecular responses. Utilizing improved PIP3-AKT and ERK1/2 activation Bioluminescence Resonance Energy Transfer (BRET) sensors, we report chemotherapy-induced ERK1/2 activation predominantly in cisplatin-paclitaxel resistant EOC cells and increased activation of both ERK1/2 and AKT in malignant ascites derived cancer cells from platinum-resistant patients but not from treatment-naive or platinum-sensitive relapse patients. Further, majority of the non-platinum drugs except irinotecan increased ERK1/2 activation in platinum-taxol resistant cells as observed by live-cell BRET assessment which were associated with p90RSK1/2 and BAD activation along with upregulation of multidrug transporter gene ABCC1 and cell survival genes like cyclin D1 and Bcl2. Interestingly, only irinotecan was able to sensitize these resistant cells. Altogether, this first report of BRET based sensing of molecular pathway activations in platinum resistant cell lines and patient's derived cancer cells highlight the clinical potential of BRET sensors in management of therapy resistant cancer.

Published

2021

9. EpCAM-Mediated Cellular Plasticity Promotes Radiation Resistance and Metastasis in Breast Cancer

Author

Arijit Mal, Amirali B. Bukhari, Ram K. Singh, Aastha Kapoor, Amlan Barai, Ishan Deshpande, Tabassum Wadasadawala, Pritha Ray, Shamik Sen, and Abhijit De

Subjects

EpCAM, breast cancer, radiation resistance, cancer stem cell, metastasis, Biology (General), QH301-705.5

Abstract

Substantial number of breast cancer (BC) patients undergoing radiation therapy (RT) develop local recurrence over time. During RT therapy, cells can gradually acquire resistance implying adaptive radioresistance. Here we probe the mechanisms underlying this acquired resistance by first establishing radioresistant lines using ZR-75-1 and MCF-7 BC cells through repeated exposure to sub-lethal fractionated dose of 2Gy up to 15 fractions. Radioresistance was found to be associated with increased cancer stem cells (CSCs), and elevated EpCAM expression in the cell population. A retrospective analysis of TCGA dataset indicated positive correlation of high EpCAM expression with poor response to RT. Intriguingly, elevated EpCAM expression in the radioresistant CSCs raise the bigger question of how this biomarker expression contributes during radiation treatment in BC. Thereafter, we establish EpCAM overexpressing ZR-75-1 cells (ZR-75-1EpCAM), which conferred radioresistance, increased stemness through enhanced AKT activation and induced a hybrid epithelial/mesenchymal phenotype with enhanced contractility and invasiveness. In line with these observations, orthotopic implantation of ZR-75-1EpCAM cells exhibited faster growth, lesser sensitivity to radiation therapy and increased lung metastasis than baseline ZR-75-1 cells in mice. In summary, this study shows that similar to radioresistant BC cells, EpCAM overexpressing cells show high degree of plasticity and heterogeneity which ultimately induces radioresistant and metastatic behavior of cancer cells, thus aggravating the disease condition.

Published

2021

10. Cancer gene therapy: Prospects of using human sodium iodide symporter gene in non-thyroidal cancer

Author

Shruti Dutta and Abhijit De

Subjects

sodium iodide symporter, breast cancer, histone deacetylase inhibitors, radioiodine therapy, molecular imaging, Microbiology, QR1-502, Biochemistry, QD415-436

Abstract

Gene therapy is one of the promising therapeutic strategies evolved rapidly in the frontier of translational biology in cancer. To overcome the off target effect of conventional cancer therapies it is the most flourishing approach in present epoch. Various researches in this context are ongoing to eradicate devastating cancer cells with minimal or no side effects. Of the various gene therapy protocols developed, a set of genes called suicide genes, are being actively pursued as potential strategy. Briefly, this strategy involves tumor targeted delivery of a therapy/reporter gene to convert a systematically administered pro-drug into a cytotoxic drug which in turn induces tumor cell death. Additionally, advancement in small animal imaging modalities facilitates real-time monitoring of the delivered transgene by using appropriate imaging probe developed against the transgene. Non-invasive monitoring helps to realize precise transgene delivery and also aid to understand therapy response. In this background, we have reviewed potential suicide genes frequently explored for cancer treatment, which supports both diagnostic and therapeutic applications with special emphasis on sodium iodide symporter (NIS). Apart from its natural expression in thyroid, NIS protein expression has raised the possibility of using radioiodide therapy and diagnosis in few non-thyroidal cancers as well. In this review, we also covered various challenges to get NIS gene therapeutics from bench to bedside in various non-thyroidal cancers.

Published

2015

11. Dietary curcumin post-treatment enhances the disappearance of B(a)P-derived DNA adducts in mouse liver and lungs

Author

Gaurav Kumar, Pooja Tajpara, Amirali B. Bukhari, Asha G. Ramchandani, Abhijit De, and Girish B. Maru

Subjects

Benzo(a)pyrene, BPDE-DNA adducts, Apoptosis, Liver/lungs, IHC staining, Curcumin, Toxicology. Poisons, RA1190-1270

Abstract

To study the post-treatment effects of dietary curcumin on the levels of benzo(a)pyrene [B(a)P]-induced DNA adducts, mice were administered oil or B(a)P and randomized into 7 subgroups after 24 h. One of the subgroups from both the oil and B(a)P groups was killed at 24 h while the remaining 6 subgroups were shifted to powdered control or 0.05% curcumin diet and killed after 24, 72 and 120 h (experiment 1), and 7, 14, and 28 days (experiment 2). Quantitative comparisons of BPDE-DNA nuclear adducts (area and intensity) in immunohistochemically stained lungs and liver sections was carried out by IHC profiler. A time-dependent decrease in the levels of adducts in B(a)P-treated animals was further enhanced by curcumin exposure compared to the levels in time-matched controls. To assess the contribution of apoptosis and cell proliferation in observed curcumin-mediated enhanced decrease of BPDE-DNA adducts, comparative evaluation of apoptosis and cell proliferation markers was undertaken. Results suggested enhancement of B(a)P-induced apoptosis in liver and lungs by curcumin during 24–120 h while no such enhancement was observed at 7–28 days. Results suggest curcumin-mediated enhancement in apoptosis (experiment 1) and adduct dilution (experiment 2) to be the reason for the observed higher decrease of BPDE-DNA adducts.

Published

2014

12. Application of Adult Stem Cells in Medicine

Author

Pritha Ray, Abhijit De, Shahriar Yaghoubi, and Aparna Khanna

Subjects

Internal medicine, RC31-1245

Published

2015

13. IHC Profiler: an open source plugin for the quantitative evaluation and automated scoring of immunohistochemistry images of human tissue samples.

Author

Frency Varghese, Amirali B Bukhari, Renu Malhotra, and Abhijit De

Subjects

Medicine, Science

Abstract

In anatomic pathology, immunohistochemistry (IHC) serves as a diagnostic and prognostic method for identification of disease markers in tissue samples that directly influences classification and grading the disease, influencing patient management. However, till today over most of the world, pathological analysis of tissue samples remained a time-consuming and subjective procedure, wherein the intensity of antibody staining is manually judged and thus scoring decision is directly influenced by visual bias. This instigated us to design a simple method of automated digital IHC image analysis algorithm for an unbiased, quantitative assessment of antibody staining intensity in tissue sections. As a first step, we adopted the spectral deconvolution method of DAB/hematoxylin color spectra by using optimized optical density vectors of the color deconvolution plugin for proper separation of the DAB color spectra. Then the DAB stained image is displayed in a new window wherein it undergoes pixel-by-pixel analysis, and displays the full profile along with its scoring decision. Based on the mathematical formula conceptualized, the algorithm is thoroughly tested by analyzing scores assigned to thousands (n = 1703) of DAB stained IHC images including sample images taken from human protein atlas web resource. The IHC Profiler plugin developed is compatible with the open resource digital image analysis software, ImageJ, which creates a pixel-by-pixel analysis profile of a digital IHC image and further assigns a score in a four tier system. A comparison study between manual pathological analysis and IHC Profiler resolved in a match of 88.6% (P

Published

2014

14. Quantitative immunohistochemical analysis reveals association between sodium iodide symporter and estrogen receptor expression in breast cancer.

Author

Sushmita Chatterjee, Renu Malhotra, Frency Varghese, Amirali B Bukhari, Asawari Patil, Ashwini Budrukkar, Vani Parmar, Sudeep Gupta, and Abhijit De

Subjects

Medicine, Science

Abstract

BACKGROUND: Human sodium iodide symporter (hNIS) gene over-expression is under active consideration worldwide as an alternative target molecule for breast cancer (BC) diagnosis and targeted radio-iodine treatment. However, the field demands better stratified analysis of endogenous hNIS expression across major BC subtypes. Therefore, we have analyzed subtype-specific variation of hNIS overexpression in breast tumor tissue samples by immunohistochemistry (IHC) and also report the development of a homogeneous, quantitative analysis method of digital IHC images. METHODS: hNIS expression was analyzed from 108 BC tissue samples by IHC. Sub-cellular localization of hNIS protein was analyzed by dual immunofluorescence (IF) staining method using hNIS and HER2 antibodies. An ImageJ based two-step digital analysis method was developed and applied for the bias-free analysis of the images. RESULTS: Staining of the tumor samples show 70% cases are hNIS positive indicating high incidence of hNIS positive cases in BC. More importantly, a subtype specific analysis done for the first time shows that hNIS expression is overly dominated in estrogen receptor (ER) positive cases than the receptor negative cases. Further, 56% of the ER+ve, PgR+ve, HER2-ve and 36% of ER+ve, PgR+ve, HER2+ve cases show highest intensity staining equivalent to the thyroid tissue. A significant positive correlation is also observed between hNIS and estrogen receptor expression (p = 0.0033, CI = 95%) suggesting hNIS mediated targeted radio-iodine therapy procedures may benefit both ER+ve, PgR+ve, HER2-ve as well as HER2+ve cases. Further, in a few cases, hNIS and HER2 protein localization is demonstrated by overlapping membrane co-expression. ImageJ based image analysis method shows over 70% match with manual pathological scoring method. CONCLUSION: The study indicates a positive link between hNIS and ER expression in BC. The quantitative IHC image analysis method reported here will further help in patient stratification and potentially benefit global clinical assessment where hNIS mediated targeted ¹³¹I radio-ablative therapy is aimed.

Published

2013

15. Bioluminescent Monitoring of NIS-Mediated I Ablative Effects in MCF-7 Xenografts

Author

Malavika Ghosh, Sanjiv Sam Gambhir, Abhijit De, Kent Nowels, Michael Goris, and Irene Wapnir

Subjects

Biology (General), QH301-705.5, Medical technology, R855-855.5

Abstract

Optical imaging has made it possible to monitor response to anticancer therapies in tumor xenografts. The concept of treating breast cancers with 131 I is predicated on the expression of the Na + /I − symporter (NIS) in many tumors and uptake of I in some. The pattern of 131 I radioablative effects were investigated in an MCF-7 xenograft model dually transfected with firefly luciferase and NIS genes. On Day 16 after tumor cell implantation, 3 mCi of 131 I was injected. Bioluminescent imaging using d -luciferin and a cooled charge-coupled device camera was carried out on Days 1, 2, 3, 7, 10, 16, 22, 29, and 35. Tumor bioluminescence decreased in 131 I-treated tumors after Day 3 and reached a nadir on Day 22. Conversely, bioluminescence steadily increased in controls and was 3.85-fold higher than in treated tumors on Day 22. Bioluminescence in 131 I-treated tumors increased after Day 22, corresponding to tumor regrowth. By Day 35, treated tumors were smaller and accumulated 33% less 99m TcO 4 than untreated tumors. NIS immunoreactivity was present in

Published

2006

16. Evaluation of parasites causing gastro-intestinal tract infestations in HIV/AIDS patients

Author

Santosh A Kotgire, Nilima Tankhiwale, S Tankhiwale, Abhijit De, and Debabrata Das

Subjects

Public aspects of medicine, RA1-1270

Published

2011

17. Multimodal Applications of Zinc Gallate-Based Persistent Luminescent Nanoparticles in Cancer Treatment: Tumor Margining, Diagnosis, and Boron Neutron Capture Therapy

Author

K. Shitaljit Sharma, Swathi Raju M, Suhas Phapale, Snehal K. Valvi, Akhil K. Dubey, Dibakar Goswami, Debes Ray, Abhijit De, Prasad P. Phadnis, Vinod K. Aswal, Rajesh Vatsa, and Haladhar D. Sarma

Subjects

Mice, Inbred C57BL, Biomaterials, Mice, Zinc, Luminescence, Biochemistry (medical), Biomedical Engineering, Animals, Nanoparticles, Boron Neutron Capture Therapy, General Chemistry, Melanoma

Abstract

On the basis of the boron neutron capture therapy (BNCT) modality, we have designed and synthesized a zinc gallate (ZnGa

Published

2022

18. NANOTORRID®: Graphene-like properties of a gold/polypropylene nanocomposite and its photothermal application

Author

Ashish Jha, Gayathri Ravichandran, Abhijit De, and Rohit Srivastava

Subjects

Mechanics of Materials, Mechanical Engineering, General Materials Science, Condensed Matter Physics

Published

2022

19. Data from Monitoring Caspase-3 Activation with a Multimodality Imaging Sensor in Living Subjects

Author

Sanjiv Sam Gambhir, Manishkumar Patel, Abhijit De, and Pritha Ray

Abstract

Purpose: Capsase-3 plays an important role in chemotherapy-induced apoptosis in many cancers. Herein, we applied a multimodality reporter vector to monitor caspase-3 activation indirectly in live cells and tumors of living animals undergoing apoptosis.Experimental Design: A fusion protein (MTF) was constructed by combining three different reporter proteins, red fluorescent protein (mRFP1), firefly luciferase (FL), and HSV1-sr39 truncated thymidine kinase (TK), linked through a caspase-3 recognizable polypeptide linker. After cleavage by caspase-3, a significant gain in mRFP1, FL, and TK activity are observed by fluorescence-activated cell sorting and enzyme-based assays. A melanoma cell line (B16F10-mtf-hrl) stably expressing mtf (to measure caspase-3 activation) and hrl-IRES-gfp (to determine the decrease in a number of viable cells) vectors was generated to measure two independent molecular events upon treatment.Results: Upon induction with 8 μmol/L staurosporine, the fusion protein showed a 2.8-fold increase in FL (P = 0.03), a 1.5-fold increase in TK (P = not significant), and a 2-fold increase in mRFP1 (P = 0.05) activity in 293T cells. Bioluminescence and micropositron emission tomography imaging of the apoptotic B16F10-mtf-hrl tumors showed a 2-fold higher FL activity (897 versus 416) and a 2-fold higher TK activity (10.3 versus 3.87) than control tumors when normalized with RL activity. Using a similar normalization approach, the time kinetics of caspase-3 activation by two protein kinase-C inhibitors was noninvasively monitored in living mice.Conclusion: This multimodality caspase sensor vector could effectively and noninvasively monitor caspase-3 activation from single live cells to a multicellular tumor environment and, thus, would be a valuable tool for drug screening in preclinical models and future patient cell based therapy.

Published

2023

20. Supplementary Figures S1-S2 from Monitoring Caspase-3 Activation with a Multimodality Imaging Sensor in Living Subjects

Author

Sanjiv Sam Gambhir, Manishkumar Patel, Abhijit De, and Pritha Ray

Abstract

Supplementary Figures S1-S2 from Monitoring Caspase-3 Activation with a Multimodality Imaging Sensor in Living Subjects

Published

2023

21. Data from Optical Imaging with Her2-Targeted Affibody Molecules Can Monitor Hsp90 Treatment Response in a Breast Cancer Xenograft Mouse Model

Author

Sanjiv S. Gambhir, Abhijit De, Zhen Cheng, Zheng Miao, Carmel T. Chan, Sjoerd G. Elias, and Stephanie M.W.Y. van de Ven

Abstract

Purpose: To determine whether optical imaging can be used for in vivo therapy response monitoring as an alternative to radionuclide techniques. For this, we evaluated the known Her2 response to 17-dimethylaminoethylamino-17-demethoxygeldanamycin hydrochloride (17-DMAG) treatment, an Hsp90 inhibitor.Experimental Design: After in vitro 17-DMAG treatment response evaluation of MCF7 parental cells and 2 HER2-transfected clones (clone A medium, B high Her2 expression), we established human breast cancer xenografts in nude mice (only parental and clone B) for in vivo evaluation. Mice received 120 mg/kg of 17-DMAG in 4 doses at 12-hour intervals intraperitonially (n = 14) or PBS as carrier control (n = 9). Optical images were obtained both pretreatment (day 0) and posttreatment (day 3, 6, and 9), always 5 hours postinjection of 500 pmol of anti-Her2 Affibody-AlexaFluor680 via tail vein (with preinjection background subtraction). Days 3 and 9 in vivo optical imaging signal was further correlated with ex vivo Her2 levels by Western blot after sacrifice.Results: Her2 expression decreased with 17-DMAG dose in vitro. In vivo optical imaging signal was reduced by 22.5% in clone B (P = 0.003) and by 9% in MCF7 parental tumors (P = 0.23) 3 days after 17-DMAG treatment; optical imaging signal recovered in both tumor types at days 6 to 9. In the carrier group, no signal reduction was observed. Pearson correlation of in vivo optical imaging signal with ex vivo Her2 levels ranged from 0.73 to 0.89.Conclusions: Optical imaging with an affibody can be used to noninvasively monitor changes in Her2 expression in vivo as a response to treatment with an Hsp90 inhibitor, with results similar to response measurements in positron emission tomography imaging studies. Clin Cancer Res; 18(4); 1073–81. ©2012 AACR.

Published

2023

22. Supplementary Methods, Figures 1-3, Table 1 from Optical Imaging with Her2-Targeted Affibody Molecules Can Monitor Hsp90 Treatment Response in a Breast Cancer Xenograft Mouse Model

Author

Sanjiv S. Gambhir, Abhijit De, Zhen Cheng, Zheng Miao, Carmel T. Chan, Sjoerd G. Elias, and Stephanie M.W.Y. van de Ven

Abstract

PDF file - 232K

Published

2023

23. Data from An Improved Bioluminescence Resonance Energy Transfer Strategy for Imaging Intracellular Events in Single Cells and Living Subjects

Author

Sanjiv Sam Gambhir, Andreas Markus Loening, and Abhijit De

Abstract

Bioluminescence resonance energy transfer (BRET) is currently used for monitoring various intracellular events, including protein-protein interactions, in normal and aberrant signal transduction pathways. However, the BRET vectors currently used lack adequate sensitivity for imaging events of interest from both single living cells and small living subjects. Taking advantage of the critical relationship of BRET efficiency and donor quantum efficiency, we report generation of a novel BRET vector by fusing a GFP2 acceptor protein with a novel mutant Renilla luciferase donor selected for higher quantum yield. This new BRET vector shows an overall 5.5-fold improvement in the BRET ratio, thereby greatly enhancing the dynamic range of the BRET signal. This new BRET strategy provides a unique platform to assay protein functions from both single live cells and cells located deep within small living subjects. The imaging utility of the new BRET vector is shown by constructing a sensor using two mammalian target of rapamycin pathway proteins (FKBP12 and FRB) that dimerize only in the presence of rapamycin. This new BRET vector should facilitate high-throughput sensitive BRET assays, including studies in single live cells and small living subjects. Applications will include anticancer therapy screening in cell culture and in small living animals. [Cancer Res 2007;67(15):7175–83]

Published

2023

24. Supplementary Figure 1 from An Improved Bioluminescence Resonance Energy Transfer Strategy for Imaging Intracellular Events in Single Cells and Living Subjects

Author

Sanjiv Sam Gambhir, Andreas Markus Loening, and Abhijit De

Abstract

Supplementary Figure 1 from An Improved Bioluminescence Resonance Energy Transfer Strategy for Imaging Intracellular Events in Single Cells and Living Subjects

Published

2023

25. Supplementary Table 1 from An Improved Bioluminescence Resonance Energy Transfer Strategy for Imaging Intracellular Events in Single Cells and Living Subjects

Author

Sanjiv Sam Gambhir, Andreas Markus Loening, and Abhijit De

Abstract

Supplementary Table 1 from An Improved Bioluminescence Resonance Energy Transfer Strategy for Imaging Intracellular Events in Single Cells and Living Subjects

Published

2023

26. Novel BRET Combination for Detection of Rapamycin-Induced Protein Dimerization Using Luciferase from Fungus Neonothopanus nambi

Author

Aaiyas Mujawar, Shalini Dimri, Ksenia A. Palkina, Nadezhda M. Markina, Karen S. Sarkisyan, Anastasia V. Balakireva, Ilia V. Yampolsky, and Abhijit De

Published

2023

27. Synthesis and degradation mechanism of renally excretable gold core-shell nanoparticles for combined photothermal and photodynamic therapy

Author

Barkha Singh, Chetna Patnaik, Rohan Bahadur, Mayuri Gandhi, Abhijit De, and Rohit Srivastava

Subjects

General Materials Science

Abstract

Photothermal therapy (PTT) has emerged as a very potent therapeutic approach in the treatment of tumors. Gold nanoparticles have gained considerable scientific interest as a photosensitizer due to their absorbance in the near-infrared regions. However, their biodegradation and excretion from the body is a challenge. Various biodegradable systems consisting of liposomes and polymers have been synthesized, but their precise manufacturing and decomposition mechanisms have not yet been explored. Using zein nanoparticles as a template, we have fabricated a glutathione-functionalized gold core shell type of formulation. The scalability of the one-step seedless gold coating process is also reported. The synthesis procedure of these tunable nanoparticles is understood with TEM. The thermal degradation of the material under the physiological conditions is thoroughly examined using UV and TEM.

Published

2022

28. Pathogenic HER3 dimerization domain mutations create a structural bias towards un-conventional EGFR-HER3 signalling axis in breast cancer

Author

Pranay Dey, Nikhil Gadewal, and Abhijit De

Subjects

Structural Biology, General Medicine, Molecular Biology, Biochemistry

Published

2023

29. Localized Delivery of Gemcitabine Using Chitosan–Poly Vinyl Alcohol Film Inhibits Pancreatic Tumor Growth in Preclinical Settings

Author

Arijit Mal, Archana Kumari, Snehal K. Valvi, Abhijit De, and Rajdip Bandyopadhyaya

Published

2022

30. Scaffold Based Gene Delivery for Immunotherapeutic Applications

Author

Hiren Dandia, Snehal Valvi, Rahul Thorat, Arvind Ingle, Abhijit De, Shubhada Chiplunkar, and Prakriti Tayalia

Published

2022

31. Multiplexed STAT3-PhosphoBRET Sensor for Ready Distinction between Canonical versus Noncanonical PTM Mediated Pathway Activation in Cancer Cell

Author

Mansi Joshi and Abhijit De

Published

2022

32. Noninvasive Imaging-Guided In Vivo Estimation of Photothermal Therapy Using Cancer-Targeted Gold-Solid-Lipid Nanomaterial

Author

Chetna Patnaik, Suditi Neekhra, Shreya Dalvi, Sabyasachi Chakrabarty, B. Pradeep K. Reddy, Rohit Srivastava, and Abhijit De

Published

2022

33. In Vivo Assessment of Protein-Protein Interactions Using BRET Assay

Author

Aaiyas, Mujawar and Abhijit, De

Subjects

Bioluminescence Resonance Energy Transfer Techniques, Energy Transfer, Luminescent Measurements, Animals, Proteins, Biological Assay, Ligands

Abstract

Proteins play an important part in almost all life activities and across all organisms. Proteins occasionally act on their own but rather fulfill most of their biological tasks by cooperating with other proteins or ligand molecules. The bioluminescence resonance energy transfer (BRET) assay serves to measure dynamic events such as protein-protein or protein-ligand interactions in vitro or in-vivo. With several inherent attributes such as rapid and fairly sensitive ratio-metric measurements, assessment of interactions irrespective of protein location within the cellular compartment, cost-effectiveness consenting to high-throughput screening compatibility, makes BRET a popular genetic reporter-based assay system for protein-protein interaction (PPI) studies. Based on the Förster principle, BRET allows to judge if the proximity has been achieved between the interacting partners. In recent years, the BRET application has emerged as a significantly versatile assay format by using multiple detection devices such as a plate reader or in-vivo optical imaging platform, or even a bioluminescence microscope has expanded its scope for advancing PPI studies. Beyond the scope of quantitative measurement of PPIs, molecular optical imaging applications based on BRET assay have expanded the scope for screening pharmacological compounds by unifying live cell and in-vivo animal-/plant-based experiments using the same platform technology. In this chapter, we have given intricate methodological details for performing in-vitro and in-vivo BRET experiments, primarily by using donor/acceptor reporter protein combinations.

Published

2022

34. Direct knockdown of phospho-PTM targets mediated by TRIM21 can improve personalized treatment in breast cancer

Author

Pranay Dey, Mansi Joshi, Aaiyas Mujawar, Renu Malhotra, and Abhijit De

Subjects

STAT3 Transcription Factor, Cancer Research, Receptor, ErbB-2, Breast Neoplasms, General Medicine, Trastuzumab, Oncology, Drug Resistance, Neoplasm, Cell Line, Tumor, Molecular Medicine, Humans, Niclosamide, Female, Precision Medicine, Proto-Oncogene Proteins c-akt

Abstract

In this work for the first time, we showed specific and direct knockdown of important oncogenic proteins of interest and their phospho-PTM targets in tripartite motif containing-21 (TRIM21) overexpressing breast cancer (BC) cells. We revealed the functional and therapeutic consequences of this protein knockdown approach called 'TRIM-ing'.To target HER2, HER3, STAT3 or their activated forms, electroporation and puls-in transfection were standardized for mAb delivery in AU565 and MCF7 BC cell lines. Cancer cells were treated with HER2-targeted medicines (Trastuzumab and Neratinib) or STAT3 targeted inhibitors (Stattic and Niclosamide) with or without respective target TRIM-ing. Real-time PCR, immunoblotting, immunofluorescence, cytotoxicity, short- and long-term cell survival assessments were done following standard methodologies. 3-D structure modelling was used to verify the binding of mAb onto the STAT3 target.TRIM-ing of HER2 or HER3 receptors or their activated phospho-forms in BC cells showed rapid degradation of respective protein forms, shattering down the downstream signaling (p-ERK, p-AKT) that lasts for up to 7-8 days. This significantly inhibited BC survival (p 0.001), showing a synergistic therapeutic effect with HER2 medicine trastuzumab or neratinib. Additionally, specific TRIM-ing ability of canonical pY705 or non-canonical pS727 PTMs of STAT3 protein was demonstrated in MCF7 cells, causing significant cytotoxicity (p 0.05). TRIM-ing of STAT3 PTM, when combined with the same PTM-specific inhibitors, a synergistic treatment effect was observed.The work demonstrated that TRIM-ing could directly reduce various oncogenic targets or their specific activated form inside the cancer cells without compensatory pathway activation, a conundrum limiting the therapeutic benefit of current personalized medicines.

Published

2022

35. Photothermal therapy (PTT) is an effective treatment measure against solid tumors which fails to respond conventional chemo/radiation therapies in clinic

Author

Sumit K. Mishra, Ajit C. Dhadve, Arijit Mal, B. Pradeep K. Reddy, Arti Hole, Murali Krishna Chilakapati, Pritha Ray, Rohit Srivastava, and Abhijit De

Subjects

Biomaterials, Mice, Mice, Inbred BALB C, Photothermal Therapy, Neoplasms, Biomedical Engineering, Humans, Animals, Bioengineering, Prospective Studies, Proto-Oncogene Proteins c-akt

Abstract

Photothermal therapy (PTT) has emerged as a fast, precisive, and cost-effective anticancer therapy protocol. Here we applied our previously designed nanomaterial (Tocophotoxil) for prospective PTT application to manage radiation- and chemo-resistant cancers in a preclinical model. A PTT dose vs. efficacy relationship was established for radioresistant breast (ZR-75-1 50Gy, 4T1 20Gy) and chemo-resistant ovarian (A2780LR) cancer cells and tumors in mice models. Compared to the sensitive cases, resistant cells treated with PTT for a shorter duration show higher endurance. However, preclinical tumor xenografts treated with optimal PTT dose show 2-3 fold higher longevity (P ≤ 0.05) of treated mice monitored by non-invasive imaging methods. Elevated ERK and AKT activation in radioresistant or only AKT activation in chemo-resistant cells were contributory to higher cell survival in sub-optimal PTT dose. A comprehensive single-cell Raman map of PTT treated ZR-75-1 cell reveals broad-spectrum macromolecular deformities, including protein damage features. Marked induction of pJNK, unfolded protein response (UPR) pathway, increased reactive oxygen species (ROS), and lipid peroxidation in PTT-treated cells disrupted the intracellular homeostasis. Analyzing cellular ultrastructure, the coexistence of swollen endoplasmic reticulum, and autophagic bodies after PTT indicate possible coordination between UPR and autophagy pathways. Therefore, this comprehensive study provides new evidence on the potential impact of PTT as a standalone therapy for ablation of failed conventional therapy-resistant cancers in vivo, the success of which is intricately linked to the PTT dose optimization. The study, for the first time, also illustrates that under PTT treatment, concerted action of novel molecular switches such as JNK activation and UPR activation plays a vital role in triggering autophagy and cancer cell death.

Published

2022

36. Development of Non-invasive ABPP-BRET Platform Technology Enable Real-Time Detection of Post-Translational Modification and Target Engagement with Absolute Specificity in Living Systems

Author

Punita Bathla, Aaiyas Mujawar, Abhijit De, and Britto S Sandanaraj

Abstract

Non-invasive, real-time, longitudinal imaging of protein functions in living systems with unprecedented specificity is one of the critical challenges of modern biomedical research. Despite several advancements, it is estimated that nearly 35% of the human proteome is not completely characterized. Therefore, the development of new technologies is imperative for shining more light on so-called “dark proteomes”. Towards that goal, here we report a platform fusion technology called activity-based protein profiling-bioluminescence resonance energy transfer (ABPP-BRET). This method provides an opportunity to study the post-translational modification of a target protein in real-time in living systems in a longitudinal manner with a high spatio-temporal resolution. This semi-synthetic BRET biosensor method is used for target engagement studies and further for inhibitor profiling in live cells. The simplicity of this method coupled with the critical physical distance dependent BRET read-out turned out to be a powerful method, thus pushing the activity-based protein profiling technology to the next level.

Published

2022

37. Molecular landscape of lung cancer: insights into therapeutic targets and clinical outcomes

Author

Saloni Mangal, Abhijit Debnath, Rupa Mazumder, Avijit Mazumder, Rajesh Kumar Singh, Jahanvi Sanchitra, S.K. Asif Jan, Pratibha Pandey, Bimlesh Kumar, and Anil Kumar Singh

Subjects

lung cancer, lung cancer drug targets, small cell carcinoma, non-small cell carcinoma, lung cancer drugs, Biotechnology, TP248.13-248.65, Life, QH501-531

Abstract

Lung cancer is the leading cause of cancer-related deaths globally, accounting for 1.8 million fatalities in 2020. Genetic mutations, chromosomal abnormalities, transcription factors, mutations in tumor suppressor genes, and mutations in oncogenes have all been associated with an increased risk of LC development. Heterogeneity of the disease, resistance to chemotherapy, and side effects such as nausea and vomiting, fatigue, anemia, neuropathy, hair loss, and skin and nail changes are associated with conventional therapeutics such as chemotherapy, radiation therapy, and targeted therapy. Thus, the treatment of the disease urgently requires the discovery of novel therapeutic approaches. This review identifies and discusses key molecular and genetic targets for LC therapy, highlighting recent advancements and potential clinical applications. Our efforts encompass all biological targets and aim to increase our understanding of these processes to better comprehend the disease's molecular mechanisms and develop new drugs and more effective LC treatments.

Published

2024

38. pH-(Low)-Insertion Peptide-Assisted Detection and Diagnosis of Cancer Using Zinc Gallate-Based Persistent Luminescence Nanoparticles

Author

Abhijit De, K. Shitaljit Sharma, M Swathi Raju, Prasad P. Phadnis, Rajesh K. Vatsa, and Dibakar Goswami

Subjects

PH low-insertion peptide, Chemistry, Biochemistry (medical), Biomedical Engineering, Cancer, Nanoparticle, General Chemistry, medicine.disease, Biomaterials, Autofluorescence, Zinc gallate, Persistent luminescence, medicine, medicine.symptom, Nuclear chemistry, Acidosis

Abstract

For developing nanoformulations to detect and diagnose cancer, zinc gallate (ZGO)-based persistent luminescence nanoparticles (NPs) coated with an in-house-synthesized variant of pH-low-insertion p...

Published

2020

39. Sulfamethizole functionalized graphene oxide for in-vitro separation and determination lead in blood serum of battery manufactories workers by syringe filter-dispersive- micro solid phase extraction

Author

S. Mojtaba Mostafavi and Abhijit De

Subjects

Chromatography, Chemistry, Elution, Syringe filter, Extraction (chemistry), Sulfamethizole, General Medicine, chemistry.chemical_compound, Blood serum, Adsorption, Nitric acid, medicine, Solid phase extraction, health care economics and organizations, medicine.drug

Abstract

The toxic effect of lead (Pb) causes to anemia and iron deficiency in human body. So, the lead determination in blood/serum samples is very important. In this study, a novel adsorbent based on sulfamethizole functionalized on nanographene oxide (C3H10N4O2S2-NGO; SM-NGO) was used for extraction of Pb(II) from human blood, serum and plasma samples in battery manufactories workers by SF-D-µ-SPE. By procedure, 25 mg of SM-NGO mixed with 10 mL of human blood/serum or plasma samples and aspirated by 10 mL of syringe tube. After sonication of samples for 5 min, the Pb ions adsorbed based on sulfur of SM-NGO adsorbent at pH=6 and the solid phase separated by syringe coupled to Millex-FG hydrophobic PTFE membrane (0.2 µm). Then, the lead ions were back-extracted from SM-NGO/PTFE by elution phase with 0.5 mL of nitric acid solution (0.5 M). Finally, the concentrations of Pb(II) ions were determined by AT-FAAS.

Published

2020

40. FOXA1 Regulation Turns Benzamide HDACi Treatment Effect-Specific in BC, Promoting NIS Gene-Mediated Targeted Radioiodine Therapy

Author

Girish Salve, Abhijit De, Madhura Kelkar, Maitreyi Rathod, and Snehal K. Valvi

Subjects

0301 basic medicine, Sodium-iodide symporter, Cancer Research, benzamide, lcsh:RC254-282, 03 medical and health sciences, chemistry.chemical_compound, breast cancer, 0302 clinical medicine, Breast cancer, HDAC inhibitor, sodium iodide symporter, Gene expression, medicine, Pharmacology (medical), Benzamide, Thyroid cancer, transcriptional factor, health care economics and organizations, business.industry, radio-iodine therapy, FOXA1, Cancer, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, 030104 developmental biology, Oncology, chemistry, 030220 oncology & carcinogenesis, Cancer research, Molecular Medicine, Original Article, Histone deacetylase, FOXA1, business

Abstract

Human sodium iodide symporter (NIS) gene mediated radio-ablation is a successful procedure in thyroid cancer clinics. In recent years, natural expression of NIS is reported in breast cancer (BC) cases but is yet to make its mark as a therapeutic procedure in BC clinics. A pre-exposure to histone deacetylase (HDAC) inhibitors to amplify endogenous NIS expression was attempted, but achieving cancer tissue-specific enhancement of NIS in patients is an important challenge to win. Here, for the first time, we show that a benzamide class of HDACi (bHDACi) can significantly induce NIS gene expression and function (p < 0.05) in BC cells with minimal off-target effects. Transcription factor (TF) profiler and promoter binding array reveals 22 TFs differentially activated by CI-994, of which FOXA1 is identified as a unique and positive regulator of NIS. Clonogenic assay shows reduced survival with bHDACi + 131I combination treatment. Further, AR-42 and MS-275 treatment shows enhanced NIS expression in an orthotopic breast tumor model. Combining bHDACi with 1 mCi 131I shows 40% drop in signal (p < 0.05), indicating enhanced radio-ablation effect. Cerenkov imaging revealed higher accumulation of 131I in MS-275-treated tumors. Thus, bHDACi-mediated selective enhancement ensuring minimal off-target effect is a step further toward using NIS as a therapeutic target for BC., Graphical Abstract, In this study, De and colleagues for the first time showed breast cancer tissue-specific transcriptional modulation of the hNIS gene, which can be achieved by using a benzamide class of HDAC inhibitors. Understanding the molecular basis of such cancer tissue-specific regulation may promote targeted radioiodine therapy application in BC patients with higher NIS expression.

Published

2020

41. BF2-Oxasmaragdyrin Nanoparticles: A Non-toxic, Photostable, Enhanced Non-radiative Decay-Assisted Efficient Photothermal Cancer Theragnostic Agent

Author

Mangalampalli Ravikanth, Rohit Srivastava, Kandala Laxman, Andrea J. Robinson, Abhijit De, Sumit K. Mishra, B. Pradeep K. Reddy, and Maddala Bala Gopal

Subjects

Materials science, Biocompatibility, 010401 analytical chemistry, Cancer therapy, Radiative decay, Nanoparticle, 02 engineering and technology, Photothermal therapy, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Organic molecules, In vivo, Biophysics, Bioluminescence imaging, General Materials Science, 0210 nano-technology

Abstract

Photothermal therapy (PTT), a simple and minimally invasive procedure, is an attractive option for cancer therapy. To date, inorganic agents have been widely employed as photothermal agents; however, organic molecules may provide a solution to rapid metabolic/in vivo clearance. Herein, we prepared lipid (S 75)-stabilized meso-tritolyl-BF2-oxasmaragdyrin nanoparticles (TBSNPs) using thin-film hydration and homogenization. Assessment of the physicochemical properties of the TBSNPs reveals the formation of particles of size

Published

2020

42. Characteristics of Molecularly Engineered Anticancer Drug Conjugated Organic Nanomicelles for Site-Selective Cancer Cell Rupture and Growth Inhibition of Tumor Spheroids

Author

Shalini Dimri, Vegi Ganga Modi Naidu, Rohit Srivastava, Gayathri Ravichandran, Abhijit De, Rajendra Prasad, and Nishant Kumar Jain

Subjects

chemistry.chemical_classification, Biodistribution, biology, Biochemistry (medical), Biomedical Engineering, Peptide, General Chemistry, Conjugated system, Biomaterials, chemistry.chemical_compound, chemistry, Cancer stem cell, Cancer cell, Cancer research, biology.protein, medicine, Antibody, Growth inhibition, Niclosamide, medicine.drug

Abstract

Site-selective uptake and specific biodistribution of chemotherapeutic drugs are essential prerequisites for targeted cancer therapy. Especially, antibody and peptide conjugated drugs have been attempted as localized therapeutic agents. However, the characteristics of drug conjugated nanosystems are less explored, which are limited with their toxicity, low therapeutic efficacy, complicated synthesis, and high costs. Herein, we report a biocompatible (about 95%) molecularly engineered anticancer drug conjugated nanomicelles (∼200 nm in size) for site-selective CD44 overexpressed cancer cell rupture and tumor growth inhibition. Microscopic analysis demonstrates the distinct visualization of organic-organic interfaces (∼5 nm), which are corroborated with spectroscopic measurements confirmed the conjugation of niclosamide drug with hyaluronic acid (NIC-HA). Uniformly distributed hemocompatible (about 99%) organic nanomicelles exhibit the cellular membrane and cytoplasmic targeting with significant cellular rupture (IC

Published

2020

43. Noninvasive Preclinical Evaluation of Targeted Nanoparticles for the Delivery of Curcumin in Treating Pancreatic Cancer

Author

Arijit Mal, Snehal K. Valvi, Prabhuraj R.S., Rohit Srivastava, Rajdip Bandyopadhyaya, and Abhijit De

Subjects

Surgical resection, Chemotherapy, business.industry, medicine.medical_treatment, Biochemistry (medical), Biomedical Engineering, General Chemistry, medicine.disease, Gemcitabine, Biomaterials, chemistry.chemical_compound, chemistry, Pancreatic cancer, parasitic diseases, Cancer cell, Curcumin, medicine, Cancer research, business, Cytotoxicity, medicine.drug

Abstract

Conventional therapy regimens for pancreatic cancer (PC) are surgical resection and systemic gemcitabine based chemotherapy. Recent studies showed that curcumin could potentiate the anticancer effect of gemcitabine in PC. However, due to its poor water solubility, effective bioavailability of curcumin is insufficient, resulting in poor efficacy. To address this issue, mesoporous silica nanoparticles (MSN) were prepared by the sol-gel method, then loaded with curcumin (Cur), coated with polyethylene glycol (PEG), and finally conjugated with the targeting moiety transferrin (Tf) to target human PC cells. TEM analysis revealed that uniform sized spherical MSN formed with an average size of 100 nm, which increased to 120 nm after PEG coating on MSN surface. Confocal microscopy proved that curcumin uptake being seven-times higher for MSN-NH

Published

2022

44. HER2 interaction domain mutations in breast cancer patients are responsible for receptor switch and therapy failure against HER2 targeted medicines

Author

Pranay Dey, Aniketh Bishnu, Malhotra, Renu, Gadewal, Nikhil, Ray, Arjun, Pritha Ray, and Abhijit De

Published

2022

45. In Vivo Assessment of Protein-Protein Interactions Using BRET Assay

Author

Aaiyas Mujawar and Abhijit De

Published

2022

46. Predicting response to platinum and non-platinum drugs through bioluminescence resonance energy transfer (BRET) based bio-molecular interactions in platinum resistant epithelial ovarian cancer

Author

Ajit Dhadve, Megha Mehrotra, Abhijit De, Aniketh Bishnu, Pritha Ray, and Shalini Dimri

Subjects

Cancer Research, endocrine system diseases, Cyclin D1, medicine, HGSOC, Cytotoxicity, Protein kinase B, Second line non-platinum drugs, RC254-282, Original Research, biology, ERK1/2, Chemistry, AKT, Cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, female genital diseases and pregnancy complications, Irinotecan, Oncology, Cell culture, Cancer cell, Cancer research, ABCC1, biology.protein, BRET, Chemoresistance, medicine.drug

Abstract

Highlights • Dynamic monitoring of therapy induced interactions between target/partners of ERK and AKT kinases in drug resistant ovarian cancer cell utilizing two improved nanoBRET sensors. • Delineation of the dynamics of ERK1/2 and AKT activation in response to first-line platinum therapy in HGSOC patient derived primary cancer cells of differential platinum resistance status through real-time BRET assay. • Therapy induced hyper-activated ERK1/2 but not AKT imparts multi-drug resistance against doxorubicin, gemcitabine and etoposide (second line non-platinum agent) in acquired and intrinsically platinum resistant ovarian cancer cells. • Our study reveals the translational potential of the nanoBRET sensors for predicating efficacy of cytotoxic drugs against platinum-resistant ovarian cancer., Therapy induced rewiring of signalling networks often lead to acquirement of platinum-resistance, thereby necessitating the use of non-platinum agents as second-line treatment particularly for epithelial ovarian cancer (EOC). A prior subject-specific assessment can guide the choice of optimal non-platinum agent/s and possible targeted therapeutic/s. Assessment of protein-protein interactions are superior to simple cytotoxicity assays to determine therapeutic efficacy and associated molecular responses. Utilizing improved PIP3-AKT and ERK1/2 activation Bioluminescence Resonance Energy Transfer (BRET) sensors, we report chemotherapy-induced ERK1/2 activation predominantly in cisplatin-paclitaxel resistant EOC cells and increased activation of both ERK1/2 and AKT in malignant ascites derived cancer cells from platinum-resistant patients but not from treatment-naive or platinum-sensitive relapse patients. Further, majority of the non-platinum drugs except irinotecan increased ERK1/2 activation in platinum-taxol resistant cells as observed by live-cell BRET assessment which were associated with p90RSK1/2 and BAD activation along with upregulation of multidrug transporter gene ABCC1 and cell survival genes like cyclin D1 and Bcl2. Interestingly, only irinotecan was able to sensitize these resistant cells. Altogether, this first report of BRET based sensing of molecular pathway activations in platinum resistant cell lines and patient's derived cancer cells highlight the clinical potential of BRET sensors in management of therapy resistant cancer.

Published

2021

47. Mitigation of arsenic toxicity in rice grain through soil-water-plant continuum

Author

Okram Ricky Devi, Bibek Laishram, Abhijit Debnath, Gangadhara Doggalli, Nayanjyoti Ojha, Smita Agrawal, Kahkashan Perveen, Najat A. Bukhari, Kalyan Pathak, and Samiron Dutta

Subjects

sustainable, paddy field, pollution, carcinogen, Plant culture, SB1-1110

Abstract

Increased levels of the non-essential hazardous metalloid arsenic (As) in rice grains pose a threat to human health and the sustainability of the rice industry. In several counties, the average As contamination in polished rice has been detected to range from 0.002 to 0.39 mg/kg, which is above the safe limit of 1 mg/kg as recommended by the World Health Organisation. Beyond this limit, the digestive tract, circulatory system, skin, liver, kidney, nervous system and heart can be affected. Humans can develop cancer from consuming or inhaling As. In addition, long-term exposure to drinking water contaminated with arsenic has also been linked to a dose-response relationship with an increased risk of hypertension and diabetes mellitus. Rice has been shown to be an indirect source of arsenic accumulation in human bodies. Under flooded paddy soil, trivalent arsenate (AsIII) occupies 87-94% of the total As, while under non-flooded soil, pentavalent arsenate (AsV) predominates (73-96% of the total As). This review aims to provide a thorough and interdisciplinary understanding of the behaviour of As in the paddy soil and transportation to rice grain and further investigate efficient ways to limit arsenic contamination. Supplementation of soil with specific mineral nutrients such as iron (Fe), sulphur (S) and silicon (Si) can significantly decrease the arsenic accumulation in rice grain by minimising its uptake and translocation. The hydrogen bonding potentials of uronic acids, proteins and amino sugars on the extracellular surface of soil microorganisms facilitate the detoxification of arsenic species. Further, rice is absorbed less when exposed to aerobic water management practices than anaerobic ones since it reduces the build-up of As in rice, and the solution is immobilised as in the soil.

Published

2024

48. Foot-and-mouth disease-associated myocarditis is age dependent in suckling calves

Author

Pankaj Deka, Sangeeta Das, Ritam Hazarika, Ray Kayaga, Biswajit Dutta, Abhijit Deka, Utpal Barman, Rofique Ahmed, Nazrul Islam, Mihir Sarma, Ilakshy Deka, Manoranjan Rout, Krishna Sharma, and Rajeev K. Sharma

Subjects

Foot-and-mouth disease, Myocarditis, Suckling calves, Biochemical markers, Tigroid heart, Medicine, Science

Abstract

Abstract Myocarditis is considered a fatal form of foot-and-mouth disease (FMD) in suckling calves. In the present study, a total of 17 calves under 4 months of age and suspected clinically for FMD were examined for clinical lesions, respiratory rate, heart rate, and heart rhythm. Lesion samples, saliva, nasal swabs, and whole blood were collected from suspected calves and subjected to Sandwich ELISA and reverse transcription multiplex polymerase chain reaction (RT-mPCR) for detection and serotyping of FMD virus (FMDV). The samples were found to be positive for FMDV serotype “O”. Myocarditis was suspected in 6 calves based on tachypnoea, tachycardia, and gallop rhythm. Serum aspartate aminotransferase (AST), creatinine kinase myocardial band (CK-MB) and lactate dehydrogenase (LDH), and cardiac troponins (cTnI) were measured. Mean serum AST, cTn-I and LDH were significantly higher (P 2 months 2 months

Published

2024

49. pH-responsive sustained delivery of doxorubicin using aminated and PEGylated mesoporous silica nanoparticles leads to enhanced antitumor efficacy in pre-clinical orthotopic breast cancer model

Author

Arijit Mal, R.S. Prabhuraj, Renu Malhotra, Snehal K. Valvi, Arvind Ingle, Rohit Srivastava, Abhijit De, and Rajdip Bandyopadhyaya

Subjects

Pharmaceutical Science

Published

2022

50. Targeting stem cells in the realm of drug-resistant breast cancer

Author

Abhijit De, Pranay Dey, and Maitreyi Rathod

Subjects

Tumor microenvironment, Mechanism (biology), business.industry, Cancer, Disease, Drug resistance, Bioinformatics, medicine.disease, Breast cancer, Oncology, Cancer stem cell, medicine, Stem cell, business

Abstract

Since its first documentation, breast cancer (BC) has been a conundrum that ails millions of women every year. This cancer has been well studied by researchers all over the world, which has improved the patient outcome significantly. There are many diagnostic markers to identify the disease, but early detection and then subclassification of this cancer remain dubious. Even after the correct diagnosis, more than half the patients come back with a more aggressive and metastatic tumor. The underpinning mechanism that governs the resistance includes over-amplification of receptors, mutations in key gene targets, and activation of different signaling. A plethora of drugs have been devised that have shown promising results in clinical settings. However, in recent times, the role played by cancer stem cells in disease progression and their interaction in mediating the resistance to cellular insults have come into the limelight. As breast cancer stem cells (BCSCs) are dormant in nature, it is highly likely that they fail to directly respond to the cytotoxic drugs which are meant for ablating rapidly proliferating cells. Furthermore, the absence of well-characterized, drug-able surface markers to date, has limited the application of targeted therapies in complete eradication of the disease. In this review, our intent is to discuss versatile therapeutics in practice followed by discussing the upcoming therapy strategies in the pipeline for BC. Furthermore, we focus on the roles played by BCSCs in mediating the resistance, and therefore, the aspects of new therapeutics against BCSCs under development that may ease the burden in future has also been discussed.

Published

2019