Your search keyword '"Kanury V. S. Rao"' showing total 110 results

1. Development of a Serum Metabolome‐Based Test for Early‐Stage Detection of Multiple Cancers

Author

Rajnish Nagarkar, Mamillapalli Gopichand, Suparna Kanti Pal, Ankur Gupta, Najmuddin Md Saquib, Ahmad Ahmad, Ganga Sagar, Kanury V. S. Rao, Zaved Siddiqui, and Imliwati Longkumer

Subjects

artificial intelligence, cancer, metabolomics, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

ABSTRACT Background Detection of cancer at the early stage currently offers the only viable strategy for reducing disease‐related morbidity and mortality. Various approaches for multi‐cancer early detection are being explored, which largely rely on capturing signals from circulating analytes shed by tumors into the blood. The fact that biomarker concentrations are limiting in the early stages of cancer, however, compromises the accuracy of these tests. We, therefore, adopted an alternate approach that involved interrogation of the serum metabolome with machine learning‐based data analytics. Here, we monitored for modulations in metabolite patterns that correlated with the presence or absence of cancer. Results obtained confirmed the efficacy of this approach by demonstrating that it could detect a total of 15 cancers in women with an average accuracy of about 99%. Aims To further increase the scope of our test, we conducted an investigator‐initiated clinical trial involving a total of 6445 study participants, which included both cancer patients and non‐cancer volunteers. Our goal here was to maximize the number of cancers that could be detected, while also covering cancers in both females and males. Methods and Results Metabolites extracted from individual serum samples were profiled by ultra‐performance liquid chromatography coupled to a high‐resolution mass spectrometer using an untargeted protocol. After processing, the data were analyzed by our cancer detection machine‐learning algorithm to differentiate cancer from non‐cancer samples. Results revealed that our test platform could indeed detect a total of 30 cancers, covering both females and males, with an average accuracy of ~98%. Importantly, the high detection accuracy remained invariant across all four stages of the cancers. Conclusion Thus, our approach of integrating untargeted metabolomics with machine learning‐powered data analytics offers a powerful strategy for early‐stage multi‐cancer detection with high accuracy. Trial Registration: Registration No: CTRI/2023/03/050316

Published

2024

2. A non-invasive method for concurrent detection of multiple early-stage cancers in women

Author

Ankur Gupta, Zaved Siddiqui, Ganga Sagar, Kanury V. S. Rao, and Najmuddin Saquib

Subjects

Medicine, Science

Abstract

Abstract Untargeted serum metabolomics was combined with machine learning-powered data analytics to develop a test for the concurrent detection of multiple cancers in women. A total of fifteen cancers were tested where the resulting metabolome data was sequentially analysed using two separate algorithms. The first algorithm successfully identified all the cancer-positive samples with an overall accuracy of > 99%. This result was particularly significant given that the samples tested were predominantly from early-stage cancers. Samples identified as cancer-positive were next analysed using a multi-class algorithm, which then enabled accurate discernment of the tissue of origin for the individual samples. Integration of serum metabolomics with appropriate data analytical tools, therefore, provides a powerful screening platform for early-stage cancers.

Published

2023

3. Temporal Profiling of Host Proteome against Different M. tuberculosis Strains Reveals Delayed Epigenetic Orchestration

Author

Prabhakar Babele, Mukul K. Midha, Kanury V. S. Rao, and Ajay Kumar

Subjects

temporal proteomics, Mycobacterium tuberculosis, LFQ proteomics, SWATH-MS, macrophage-like THP1 cells, Biology (General), QH301-705.5

Abstract

Apart from being preventable and treatable, tuberculosis is the deadliest bacterial disease afflicting humankind owing to its ability to evade host defence responses, many of which are controlled by epigenetic mechanisms. Here, we report the temporal dynamics of the proteome of macrophage-like host cells after infecting them for 6, 18, 30, and 42 h with two laboratory strains (H37Ra and H37Rv) and two clinical strains (BND433 and JAL2287) of Mycobacterium tuberculosis (MTB). Using SWATH-MS, the proteins characterized at the onset of infection broadly represented oxidative stress and cell cytoskeleton processes. Intermediary and later stages of infection are accompanied by a reshaping of the combination of proteins implicated in histone stability, gene expression, and protein trafficking. This study provides strain-specific and time-specific variations in the proteome of the host, which might further the development of host-directed therapeutics and diagnostic tools against the pathogen. Also, our findings accentuate the importance of proteomic tools in delineating the complex recalibration of the host defence enabled as an effect of MTB infection. To the best of our knowledge, this is the first comprehensive proteomic account of the host response to avirulent and virulent strains of MTB at different time periods of the life span of macrophage-like cells. The mass spectrometry proteomics data have been deposited in the ProteomeXchange Consortium via the PRIDE repository with the dataset identifier PXD022352.

Published

2023

4. A non-invasive method for concurrent detection of early-stage women-specific cancers

Author

Ankur Gupta, Ganga Sagar, Zaved Siddiqui, Kanury V. S. Rao, Sujata Nayak, Najmuddin Saquib, and Rajat Anand

Subjects

Medicine, Science

Abstract

Abstract We integrated untargeted serum metabolomics using high-resolution mass spectrometry with data analysis using machine learning algorithms to accurately detect early stages of the women specific cancers of breast, endometrium, cervix, and ovary across diverse age-groups and ethnicities. A two-step approach was employed wherein cancer-positive samples were first identified as a group. A second multi-class algorithm then helped to distinguish between the individual cancers of the group. The approach yielded high detection sensitivity and specificity, highlighting its utility for the development of multi-cancer detection tests especially for early-stage cancers.

Published

2022

5. Co-Administration of Anticancer Candidate MK-2206 Enhances the Efficacy of BCG Vaccine Against Mycobacterium tuberculosis in Mice and Guinea Pigs

Author

Rania Bouzeyen, Saurabh Chugh, Tannu Priya Gosain, Mohamed-Ridha Barbouche, Meriam Haoues, Kanury V. S. Rao, Makram Essafi, and Ramandeep Singh

Subjects

BCG vaccine, Akt inhibitor, innate immunity, apoptosis, tuberculosis, Immunologic diseases. Allergy, RC581-607

Abstract

The failure of M. bovis BCG to induce long-term protection has been endowed to its inability to escape the phagolysosome, leading to mild activation of CD8+ mediated T cell response. Induction of apoptosis in host cells plays an important role in potentiating dendritic cells-mediated priming of CD8+ T cells, a process defined as “cross-priming.” Moreover, IL-10 secretion by infected cells has been reported to hamper BCG-induced immunity against Tuberculosis (TB). Previously, we have reported that apoptosis of BCG-infected macrophages and inhibition of IL-10 secretion is FOXO3 dependent, a transcription factor negatively regulated by the pro-survival activated threonine kinase, Akt. We speculate that FOXO3-mediated induction of apoptosis and abrogation of IL-10 secretion along with M. bovis BCG immunization might enhance the protection imparted by BCG. Here, we have assessed whether co-administration of a known anti-cancer Akt inhibitor, MK-2206, enhances the protective efficacy of M. bovis BCG in mice model of infection. We observed that in vitro MK-2206 treatment resulted in FOXO3 activation, enhanced BCG-induced apoptosis of macrophages and inhibition of IL-10 secretion. Co-administration of M. bovis BCG along with MK-2206 also increased apoptosis of antigen-presenting cells in draining lymph nodes of immunized mice. Further, MK-2206 administration improved BCG-induced CD4+ and CD8+ effector T cells responses and its ability to induce both effector and central memory T cells. Finally, we show that co-administration of MK-2206 enhanced the protection imparted by M. bovis BCG against Mtb in aerosol infected mice and guinea pigs. Taken together, we provide evidence that MK-2206-mediated activation of FOXO3 potentiates BCG-induced immunity and imparts protection against Mtb through enhanced innate immune response.

Published

2021

6. Concurrent interactome and metabolome analysis reveals role of AKT1 in central carbon metabolism

Author

Nutan Gupta, Shweta Duggal, Ajay Kumar, Najmuddin Mohd Saquib, and Kanury V. S. Rao

Subjects

AKT1, Interactome, Metabolic flux, Central carbon metabolism, Affinity purification, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective Signal transduction not only initiates entry into the cell cycle, but also reprograms the cell’s metabolism. To control abnormalities in cell proliferation, both the aspects should be taken care of, thus pleiotropic signaling molecules are considered as crucial modulators. Considering this, we investigated the role of AKT1 in central carbon metabolism. The role of AKT1 has already been established in the process of cell cycle, but its contribution to the central carbon metabolism is sparsely studied. Results To address this, we combined the metabolomics and proteomics approaches. In accordance to our hypothesis, we found that the AKT1 kinase activity is regulating the levels of acetyl CoA through pyruvate dehydrogenase complex. Further, the decreased levels of acetyl CoA and dependency of acetyl CoA acetyl transferase protein on AKT1 kinase activity was also found to perturb the synthesis rate of palmitic acid which is a representative of fatty acid. This was analyzed in the present study using lipid labeling method through mass spectrometry.

Published

2018

7. A non-invasive method for concurrent detection of early-stage women-specific cancers

Author

Ankur Gupta, Ganga Sagar, Zaved Siddiqui, Kanury V. S. Rao, Sujata Nayak, Najmuddin Saquib, and Rajat Anand

Subjects

Adult, Aged, 80 and over, Data Analysis, Multidisciplinary, Genital Neoplasms, Female, Science, Breast Neoplasms, Middle Aged, Sensitivity and Specificity, Mass Spectrometry, Machine Learning, Young Adult, Biomarkers, Tumor, Medicine, Humans, Metabolomics, Women's Health, Female, Early Detection of Cancer, Aged

Abstract

We integrated untargeted serum metabolomics using high-resolution mass spectrometry with data analysis using machine learning algorithms to accurately detect early stages of the women specific cancers of breast, endometrium, cervix, and ovary across diverse age-groups and ethnicities. A two-step approach was employed wherein cancer-positive samples were first identified as a group. A second multi-class algorithm then helped to distinguish between the individual cancers of the group. The approach yielded high detection sensitivity and specificity, highlighting its utility for the development of multi-cancer detection tests especially for early-stage cancers.

Published

2021

8. Co-Administration of Anticancer Candidate MK-2206 Enhances the Efficacy of BCG Vaccine Against Mycobacterium tuberculosis in Mice and Guinea Pigs

Author

Tannu Priya Gosain, Ramandeep Singh, Saurabh Chugh, Rania Bouzeyen, Mohamed-Ridha Barbouche, Meriam Haoues, Kanury V S Rao, and Makram Essafi

Subjects

T-Lymphocytes, Guinea Pigs, Immunology, Antigen-Presenting Cells, Priming (immunology), Biology, Phagolysosome, Microbiology, Mice, Immunity, Animals, Immunology and Allergy, Secretion, Akt inhibitor, Protein kinase B, innate immunity, Cells, Cultured, BCG vaccine, Original Research, Innate immune system, Macrophages, Forkhead Box Protein O3, apoptosis, RC581-607, tuberculosis, Immunologic diseases. Allergy, Heterocyclic Compounds, 3-Ring, Immunologic Memory, CD8

Abstract

The failure of M. bovis BCG to induce long-term protection has been endowed to its inability to escape the phagolysosome, leading to mild activation of CD8+ mediated T cell response. Induction of apoptosis in host cells plays an important role in potentiating dendritic cells-mediated priming of CD8+ T cells, a process defined as “cross-priming.” Moreover, IL-10 secretion by infected cells has been reported to hamper BCG-induced immunity against Tuberculosis (TB). Previously, we have reported that apoptosis of BCG-infected macrophages and inhibition of IL-10 secretion is FOXO3 dependent, a transcription factor negatively regulated by the pro-survival activated threonine kinase, Akt. We speculate that FOXO3-mediated induction of apoptosis and abrogation of IL-10 secretion along with M. bovis BCG immunization might enhance the protection imparted by BCG. Here, we have assessed whether co-administration of a known anti-cancer Akt inhibitor, MK-2206, enhances the protective efficacy of M. bovis BCG in mice model of infection. We observed that in vitro MK-2206 treatment resulted in FOXO3 activation, enhanced BCG-induced apoptosis of macrophages and inhibition of IL-10 secretion. Co-administration of M. bovis BCG along with MK-2206 also increased apoptosis of antigen-presenting cells in draining lymph nodes of immunized mice. Further, MK-2206 administration improved BCG-induced CD4+ and CD8+ effector T cells responses and its ability to induce both effector and central memory T cells. Finally, we show that co-administration of MK-2206 enhanced the protection imparted by M. bovis BCG against Mtb in aerosol infected mice and guinea pigs. Taken together, we provide evidence that MK-2206-mediated activation of FOXO3 potentiates BCG-induced immunity and imparts protection against Mtb through enhanced innate immune response.

Published

2021

9. Single atom changes in newly synthesized HIV protease inhibitors reveal structural basis for extreme affinity, high genetic barrier, and adaptation to the HIV protease plasticity

Author

Kanury V. S. Rao, Prasanth R. Nyalapatla, Hiroaki Mitsuya, Hironori Hayashi, Arun K. Ghosh, Debananda Das, Hiromi Aoki-Ogata, David A. Davis, Shin-ichiro Hattori, Haydar Bulut, and Manabu Aoki

Subjects

0301 basic medicine, endocrine system, Stereochemistry, medicine.medical_treatment, lcsh:Medicine, HIV Infections, Virus Replication, 010402 general chemistry, 01 natural sciences, Article, Cell Line, 03 medical and health sciences, chemistry.chemical_compound, HIV Protease, Drug Resistance, Viral, medicine, Humans, Single bond, HIV Protease Inhibitor, lcsh:Science, Bond cleavage, Darunavir, Oxazole, chemistry.chemical_classification, Multidisciplinary, Protease, Drug discovery, lcsh:R, virus diseases, HIV Protease Inhibitors, biochemical phenomena, metabolism, and nutrition, Chemical biology, 0104 chemical sciences, Amino acid, 030104 developmental biology, chemistry, Structural biology, HIV-1, lcsh:Q, medicine.drug

Abstract

HIV-1 protease inhibitors (PIs), such as darunavir (DRV), are the key component of antiretroviral therapy. However, HIV-1 often acquires resistance to PIs. Here, seven novel PIs were synthesized, by introducing single atom changes such as an exchange of a sulfur to an oxygen, scission of a single bond in P2′-cyclopropylaminobenzothiazole (or -oxazole), and/or P1-benzene ring with fluorine scan of mono- or bis-fluorine atoms around DRV’s scaffold. X-ray structural analyses of the PIs complexed with wild-type Protease (PRWT) and highly-multi-PI-resistance-associated PRDRVRP51 revealed that the PIs better adapt to structural plasticity in PR with resistance-associated amino acid substitutions by formation of optimal sulfur bond and adaptation of cyclopropyl ring in the S2′-subsite. Furthermore, these PIs displayed increased cell permeability and extreme anti-HIV-1 potency compared to DRV. Our work provides the basis for developing novel PIs with high potency against PI-resistant HIV-1 variants with a high genetic barrier.

Published

2020

10. Design and Synthesis of Highly Potent HIV-1 Protease Inhibitors Containing Tricyclic Fused Ring Systems as Novel P2 Ligands: Structure–Activity Studies, Biological and X-ray Structural Analysis

Author

Satish Kovela, Heather L. Osswald, Manabu Aoki, Arun K. Ghosh, Masayuki Amano, Kanury V. S. Rao, Johnson Agniswamy, Yuan-Fang Wang, Irene T. Weber, Hiroaki Mitsuya, Prasanth R. Nyalapatla, Margherita Brindisi, Ghosh, A. K., Nyalapatla, R. P., Kovela, S., Rao, K. V., Brindisi, M., Osswald, H. L., Amano, M., Aoki, M., Agniswamy, J., Wang, Y. -F., Weber, I. T., and Mitsuya, H.

Subjects

Models, Molecular, 0301 basic medicine, Protein Conformation, Stereochemistry, medicine.medical_treatment, Substituent, Ligand, Stereoisomerism, Crystallography, X-Ray, Ligands, Ring (chemistry), Article, Structure-Activity Relationship, 03 medical and health sciences, chemistry.chemical_compound, HIV Protease, HIV-1 protease, Models, Catalytic Domain, Drug Discovery, medicine, Humans, Structure–activity relationship, HIV Protease Inhibitor, Crystallography, Protease, Molecular Structure, biology, Molecular, Active site, HIV Protease Inhibitors, 030104 developmental biology, HIV-1, Drug Design, chemistry, X-Ray, biology.protein, Molecular Medicine, Human, Model

Abstract

The design, synthesis, and biological evaluation of a new class of HIV-1 protease inhibitors containing stereochemically defined fused tricyclic polyethers as the P2 ligands and a variety of sulfonamide derivatives as the P2′ ligands, are described. A number of ring sizes and various substituent effects were investigated to enhance the ligand-backbone interactions in the protease active site. Inhibitors 5c and 5d containing this unprecedented fused 6-5-5 ring system as the P2 ligand, an aminobenzothiazole as the P2′ ligand and a difluorophenylmethyl as the P1 ligand exhibited exceptional enzyme inhibitory potency and maintained excellent antiviral activity against a panel of highly multidrug-resistant HIV-1 variants. The umbrella-like P2 ligand for these inhibitors has been synthesized efficiently in an optically active form using a Pauson-Khand cyclization reaction as the key step. The racemic alcohols were resolved efficiently using a lipase catalyzed enzymatic resolution. Two high resolution X-ray structures of inhibitor-bound HIV-1 protease revealed extensive interactions with the backbone atoms of HIV-1 protease and provided molecular insight into the binding properties of these new inhibitors.

Published

2018

11. Rb interactome data and its modulations during cell cycle progression in HEK 293 cells

Author

Shweta Duggal, Noor Jailkhani, Ajay Kumar, Mukul Kumar Midha, and Kanury V. S. Rao

Subjects

0301 basic medicine, Proteomics and Biochemistry, Interactome, Cell, Lysine, Peptide, Cell cycle, lcsh:Computer applications to medicine. Medical informatics, SILAC, law.invention, 03 medical and health sciences, 0302 clinical medicine, law, Stable isotope labeling by amino acids in cell culture, medicine, lcsh:Science (General), Rb, chemistry.chemical_classification, Multidisciplinary, Chemistry, HEK 293 cells, Cell biology, 030104 developmental biology, medicine.anatomical_structure, lcsh:R858-859.7, Suppressor, AP-MS, 030217 neurology & neurosurgery, lcsh:Q1-390

Abstract

The Rb protein is a tumor suppressor protein that regulates the key G1S checkpoint consequently blocking the progression of cell cycle into S-phase. Despite its pertinent role in cell cycle regulation, comprehensive information on its interacting partners across cell cycle progression is lacking. Here, we aim to submit a comprehensive set of Rb interactors as the cell progresses from G0 through G1 and S into G2 phase in HEK 293 cell line. Affinity purification of HA-tagged Rb protein along with its interactors was analyzed by mass spectrometry (AP-MS). SILAC labeling enabled differentiation of Rb interactors in different cell cycle stages as well as their quantification - G0 cells were labeled with light labels of lysine and arginine (K0R0), cells in G1S transition were labeled with heavy labels (K8R10) while the G2 cells were labeled with medium labels (K6R6). LC-MS/MS analysis resulted in 6 wiff files which were submitted to protein pilot software for peptide identification and quantification. Here we submit the dataset which clearly captures the changing interacting partners of the Rb protein as the cell cycle progressed from G0 through G1S checkpoint into G2 phase. Data is publicly available via ProteomeXchange with identifier PXD007708. Keywords: Rb, Cell cycle, Interactome, SILAC, AP-MS, HEK 293 cells

Published

2018

12. GRL-09510, a Unique P2-Crown-Tetrahydrofuranylurethane -Containing HIV-1 Protease Inhibitor, Maintains Its Favorable Antiviral Activity against Highly-Drug-Resistant HIV-1 Variants in vitro

Author

Ravikiran S. Yedidi, Masayuki Amano, Arun K. Ghosh, Hirotomo Nakata, Hiroaki Mitsuya, Kanury V. S. Rao, Pedro Miguel Salcedo-Gómez, and Nicole S. Delino

Subjects

0301 basic medicine, Models, Molecular, Cell Survival, medicine.medical_treatment, 030106 microbiology, Integrase inhibitor, lcsh:Medicine, Microbial Sensitivity Tests, Crystallography, X-Ray, Antiviral Agents, Article, 03 medical and health sciences, Amprenavir, HIV-1 protease, HIV Protease, Drug Resistance, Viral, medicine, Moiety, Humans, Protease inhibitor (pharmacology), Serial Passage, Furans, lcsh:Science, Darunavir, Multidisciplinary, Protease, biology, lcsh:R, virus diseases, Lopinavir, HIV Protease Inhibitors, Virology, 3. Good health, biology.protein, HIV-1, lcsh:Q, medicine.drug, Protein Binding

Abstract

We report that GRL-09510, a novel HIV-1 protease inhibitor (PI) containing a newly-generated P2-crown-tetrahydrofuranylurethane (Crwn-THF), a P2′-methoxybenzene, and a sulfonamide isostere, is highly active against laboratory and primary clinical HIV-1 isolates (EC50: 0.0014–0.0028 μM) with minimal cytotoxicity (CC50: 39.0 μM). Similarly, GRL-09510 efficiently blocked the replication of HIV-1NL4-3 variants, which were capable of propagating at high-concentrations of atazanavir, lopinavir, and amprenavir (APV). GRL-09510 was also potent against multi-drug-resistant clinical HIV-1 variants and HIV-2ROD. Under the selection condition, where HIV-1NL4-3 rapidly acquired significant resistance to APV, an integrase inhibitor raltegravir, and a GRL-09510 congener (GRL-09610), no variants highly resistant against GRL-09510 emerged over long-term in vitro passage of the virus. Crystallographic analysis demonstrated that the Crwn-THF moiety of GRL-09510 forms strong hydrogen-bond-interactions with HIV-1 protease (PR) active-site amino acids and is bulkier with a larger contact surface, making greater van der Waals contacts with PR than the bis-THF moiety of darunavir. The present data demonstrate that GRL-09510 has favorable features for treating patients infected with wild-type and/or multi-drug-resistant HIV-1 variants, that the newly generated P2-Crwn-THF moiety confers highly desirable anti-HIV-1 potency. The use of the novel Crwn-THF moiety sheds lights in the design of novel PIs.

Published

2017

13. Activity and structural analysis of GRL-117C: a novel small molecule CCR5 inhibitor active against R5-tropic HIV-1s

Author

Kouki Matsuda, Shigeyoshi Harada, Kenji Maeda, Hiroaki Mitsuya, Hirotomo Nakata, Kanury V. S. Rao, Kazuhisa Yoshimura, Arun K. Ghosh, Debananda Das, and Simon B. Chang

Subjects

CD4-Positive T-Lymphocytes, 0301 basic medicine, Receptors, CCR5, Anti-HIV Agents, Primary Cell Culture, lcsh:Medicine, HIV Infections, CHO Cells, CCR5 receptor antagonist, Virus Replication, Article, Cell Line, Maraviroc, Inhibitory Concentration 50, 03 medical and health sciences, chemistry.chemical_compound, Cricetulus, 0302 clinical medicine, Drug Resistance, Viral, Animals, Humans, Moiety, lcsh:Science, Receptor, chemistry.chemical_classification, Binding Sites, Multidisciplinary, biology, Chinese hamster ovary cell, lcsh:R, virus diseases, biology.organism_classification, Small molecule, Virus Latency, Amino acid, Molecular Docking Simulation, 030104 developmental biology, chemistry, Blood Buffy Coat, CCR5 Receptor Antagonists, HIV-1, Biophysics, lcsh:Q, Hydrophobic and Hydrophilic Interactions, 030217 neurology & neurosurgery, HeLa Cells

Abstract

CCR5 is a member of the G-protein coupled receptor family that serves as an essential co-receptor for cellular entry of R5-tropic HIV-1, and is a validated target for therapeutics against HIV-1 infections. In the present study, we designed and synthesized a series of novel small CCR5 inhibitors and evaluated their antiviral activity. GRL-117C inhibited the replication of wild-type R5-HIV-1 with a sub-nanomolar IC50 value. These derivatives retained activity against vicriviroc-resistant HIV-1s, but did not show activity against maraviroc (MVC)-resistant HIV-1. Structural modeling indicated that the binding of compounds to CCR5 occurs in the hydrophobic cavity of CCR5 under the second extracellular loop, and amino acids critical for their binding were almost similar with those of MVC, which explains viral cross-resistance with MVC. On the other hand, one derivative, GRL-10018C, less potent against HIV-1, but more potent in inhibiting CC-chemokine binding, occupied the upper region of the binding cavity with its bis-THF moiety, presumably causing greater steric hindrance with CC-chemokines. Recent studies have shown additional unique features of certain CCR5 inhibitors such as immunomodulating properties and HIV-1 latency reversal properties, and thus, continuous efforts in developing new CCR5 inhibitors with unique binding profiles is necessary.

Published

2019

14. Halogen Bond Interactions of Novel HIV-1 Protease Inhibitors (PI) (GRL-001-15 and GRL-003-15) with the Flap of Protease Are Critical for Their Potent Activity against Wild-Type HIV-1 and Multi-PI-Resistant Variants

Author

Haydar Bulut, Arun K. Ghosh, Manabu Aoki, Shin-ichiro Hattori, Prasanth R. Nyalapatla, Hiroaki Mitsuya, Hironori Hayashi, Kazuya Hasegawa, and Kanury V. S. Rao

Subjects

Viral protein, Stereochemistry, medicine.medical_treatment, medicine.disease_cause, Antiviral Agents, 03 medical and health sciences, 0302 clinical medicine, HIV-1 protease, HIV Protease, medicine, Humans, Pharmacology (medical), 030212 general & internal medicine, Cytotoxicity, Darunavir, 030304 developmental biology, Pharmacology, 0303 health sciences, Protease, Halogen bond, biology, Chemistry, Wild type, Active site, HIV Protease Inhibitors, Infectious Diseases, Antirheumatic Agents, biology.protein, HIV-1, medicine.drug

Abstract

We generated two novel nonpeptidic HIV-1 protease inhibitors (PIs), GRL-001-15 and GRL-003-15, which contain unique crown-like tetrahydropyranofuran (Crn-THF) and P2′-cyclopropyl-aminobenzothiazole (Cp-Abt) moieties as P2 and P2′ ligands, respectively. GRL-001-15 and GRL-003-15 have meta-monofluorophenyl and para-monofluorophenyl at the P1 site, respectively, exert highly potent activity against wild-type HIV-1 with 50% effective concentrations (EC(50)s) of 57 and 50 pM, respectively, and have favorable cytotoxicity profiles with 50% cytotoxic concentrations (CC(50)s) of 38 and 11 μM, respectively. The activity of GRL-001-15 against multi-PI-resistant HIV-1 variants was generally greater than that of GRL-003-15. The EC(50) of GRL-001-15 against an HIV-1 variant that was highly resistant to multiple PIs, including darunavir (DRV) (HIV-1(DRV)(R)(P30)), was 0.17 nM, and that of GRL-003-15 was 3.3 nM, while DRV was much less active, with an EC(50) of 216 nM. The emergence of HIV-1 variants resistant to GRL-001-15 and GRL-003-15 was significantly delayed compared to that of variants resistant to selected PIs, including DRV. Structural analyses of wild-type protease (PR(WT)) complexed with the novel PIs revealed that GRL-001-15’s meta-fluorine atom forms halogen bond interactions (2.9 and 3.0 Å) with Gly49 and Ile50, respectively, of the protease flap region and with Pro81′ (2.7 and 3.2 Å), which is located close to the protease active site, and that two fluorine atoms of GRL-142-13 form multiple halogen bond interactions with Gly49, Ile50, Pro81′, Ile82′, and Arg8′. In contrast, GRL-003-15 forms halogen bond interactions with Pro81′ alone, suggesting that the reduced antiviral activity of GRL-003-15 is due to the loss of the interactions with the flap region.

Published

2019

15. Dataset generated using hyperplexing and click chemistry to monitor temporal dynamics of newly synthesized macrophage secretome post infection by mycobacterial strains

Author

Suruchi Aggarwal, Kanury V. S. Rao, Baseerat Hamza, Shilpa Jamwal, Amit Kumar Yadav, Ajay Kumar, and Mukul Kumar Midha

Subjects

0301 basic medicine, Hyperplexing, Computational biology, BONCAT, lcsh:Computer applications to medicine. Medical informatics, SILAC, Mycobacterium tuberculosis, 03 medical and health sciences, 0302 clinical medicine, Stable isotope labeling by amino acids in cell culture, THP1 macrophage, Macrophage, lcsh:Science (General), Host protein, Data Article, Secretome, Multidisciplinary, biology, New variant, biology.organism_classification, Molecular biology, Post infection, 030104 developmental biology, iTRAQ, Proteome, Click chemistry, Mtb infection, lcsh:R858-859.7, 030217 neurology & neurosurgery, lcsh:Q1-390

Abstract

Here we provide data for SILAC and iTRAQ based hyperplexing combined with BONCAT based click chemistry for selective enrichment of newly synthesized proteins secreted by THP1 macrophages at various time points after infection with four different strains of Mycobacterium tuberculosis. The macrophages were infected with H37Ra, H37Rv, BND433 and JAL2287 strains of M. tuberculosis. Newly-synthesized secreted host proteins were observed, starting from six hours post-infection till 26h, at 4h intervals. We have combined BONCAT with hyperplexing (18-plex), which blends SILAC and iTRAQ, for the first time. Two sets of triplex SILAC were used to encode the strains of M. tuberculosis - H37Ra & H37Rv in one and BND433 & JAL2287 in another with a control in each. BONCAT was used to enrich the secretome for newly synthesized proteins while 6-plex iTRAQ labeling was employed to quantify the temporal changes in the captured proteome. Each set of 18-plex was run in 4 MS replicates with two linear and two non-linear separation modes. This new variant of hyperplexing method, combining triplex SILAC with 6-plex iTRAQ, achieves 18-plex quantitation in a single MS run. Hyperplexing enables large scale spatio-temporal systems biology studies where large number of samples can be processed simultaneously and in quantitative manner. Data are available via ProteomeXchange with identifier ProteomeXchange: PXD004281.

Published

2016

16. Comparative Proteomic Analyses of Avirulent, Virulent, and Clinical Strains of Mycobacterium tuberculosis Identify Strain-specific Patterns*

Author

Sangeeta Kumari, Areejit Samal, Shilpa Jamwal, Lakshmi Krishna Kumaar, Haroon Kalam, Divya Arora, Kanury V. S. Rao, Vinay Kumar Nandicoori, Neharika Jain, Dhiraj Kumar, and Gagan Deep Jhingan

Subjects

0301 basic medicine, Proteomics, mycobacteria, 030106 microbiology, Virulence, Drug resistance, Biochemistry, Microbiology, virulence factor, Virulence factor, Mycobacterium tuberculosis, 03 medical and health sciences, Bacterial Proteins, Species Specificity, Molecular Biology, Pathogen, protein expression, Genetics, biology, Cell Biology, biology.organism_classification, Phenotype, 3. Good health, Proteome

Abstract

Mycobacterium tuberculosis is an adaptable intracellular pathogen, existing in both dormant as well as active disease-causing states. Here, we report systematic proteomic analyses of four strains, H37Ra, H37Rv, and clinical isolates BND and JAL, to determine the differences in protein expression patterns that contribute to their virulence and drug resistance. Resolution of lysates of the four strains by liquid chromatography, coupled to mass spectrometry analysis, identified a total of 2161 protein groups covering ∼54% of the predicted M. tuberculosis proteome. Label-free quantification analysis of the data revealed 257 differentially expressed protein groups. The differentially expressed protein groups could be classified into seven K-means cluster bins, which broadly delineated strain-specific variations. Analysis of the data for possible mechanisms responsible for drug resistance phenotype of JAL suggested that it could be due to a combination of overexpression of proteins implicated in drug resistance and the other factors. Expression pattern analyses of transcription factors and their downstream targets demonstrated substantial differential modulation in JAL, suggesting a complex regulatory mechanism. Results showed distinct variations in the protein expression patterns of Esx and mce1 operon proteins in JAL and BND strains, respectively. Abrogating higher levels of ESAT6, an important Esx protein known to be critical for virulence, in the JAL strain diminished its virulence, although it had marginal impact on the other strains. Taken together, this study reveals that strain-specific variations in protein expression patterns have a meaningful impact on the biology of the pathogen.

Published

2016

17. Towards understanding the biological function of the unusual chaperonin Cpn60.1 (GroEL1) of Mycobacterium tuberculosis

Author

Arun Kumar, Shekhar C. Mande, Sharmistha Banerjee, Aditi Sharma, Gaurang Mahajan, David R. Sherman, Tige R. Rustad, and Kanury V. S. Rao

Subjects

0301 basic medicine, Microbiology (medical), Transcription, Genetic, Virulence Factors, 030106 microbiology, Immunology, Microbiology, Mycobacterium tuberculosis, 03 medical and health sciences, Multiplicity of infection, Bacterial Proteins, Sigma factor, Heat shock protein, Gene expression, Gene, Microbial Viability, Virulence, biology, Cold-Shock Response, Gene Expression Profiling, Wild type, Chaperonin 60, Gene Expression Regulation, Bacterial, Hydrogen-Ion Concentration, biology.organism_classification, Cold shock response, Cold Temperature, Oxygen, Infectious Diseases, Gene Knockdown Techniques

Abstract

The 60 kDa heat shock proteins, also known as Cpn60s (GroELs) are components of the essential protein folding machinery of the cell, but are also dominant antigens in many infectious diseases. Although generally essential for cellular survival, in some organisms such as Mycobacterium tuberculosis, one or more paralogous Cpn60s are known to be dispensable. In M. tuberculosis, Cpn60.2 (GroEL2) is essential for cell survival, but the biological role of the non-essential Cpn60.1 (GroEL1) is still elusive. To understand the relevance of Cpn60.1 (GroEL1) in M. tuberculosis physiology, detailed transcriptomic analyses for the wild type H37Rv and cpn60.1 knockout (groEL1-KO) were performed under in vitro stress conditions: stationary phase, cold shock, low aeration, mild cold shock and low pH. Additionally, the survival of the groEL1-KO was assessed in macrophages at multiplicity of infection (MOI) of 1:1 and 1:5. We observed that survival under low aeration was significantly compromised in the groEL1-KO. Further, the gene expression analyses under low aeration showed change in expression of several key virulence factors like two component system PhoP/R and MprA/B, sigma factors SigM and C and adversely affected known hypoxia response regulators Rv0081, Rv0023 and DosR. Our work is therefore suggestive of an important role of Cpn60.1 (GroEL1) for survival under low aeration by affecting the expression of genes known for hypoxia response.

Published

2016

18. Design of potent and highly selective inhibitors for human β-secretase 2 (memapsin 1), a target for type 2 diabetes

Author

Andrew D. Mesecar, Emilio L. Cárdenas, Deborah Downs, Kanury V. S. Rao, Yu-Chen Yen, Xiangping Huang, Jordan Tang, Arun K. Ghosh, and Bhavanam Sekhara Reddy

Subjects

0301 basic medicine, Cathepsin, Chemistry, General Chemistry, Type 2 diabetes, Pharmacology, Highly selective, medicine.disease, Combinatorial chemistry, 3. Good health, 03 medical and health sciences, Memapsin 1, 030104 developmental biology, β secretase, medicine

Abstract

Design, synthesis and evaluation of very potent and selective β-secretase 2 (memapsin 1, BACE 2) inhibitors are described. The inhibitors were designed specifically to interact with the S2′-site of β-secretase 2 to provide >170000-fold selectivity over β-secretase (BACE 1) and >15000-fold selectivity over cathepsin D. BACE 2 is implicated in type 2 diabetes. The studies serve as an important guide to selective BACE 2 inhibitors.

Published

2016

19. Defining the Akt1 interactome and its role in regulating the cell cycle

Author

S. K. Duggal, Ajay Kumar, Namita Agrawal, Mukul Kumar Midha, Kanury V. S. Rao, and Noor Jailkhani

Subjects

0301 basic medicine, Proteome, Proto-Oncogene Proteins c-akt, lcsh:Medicine, Biology, Interactome, Article, 03 medical and health sciences, 0302 clinical medicine, Stable isotope labeling by amino acids in cell culture, Humans, Protein Interaction Maps, lcsh:Science, Multidisciplinary, Kinase, Cell growth, Cell Cycle, lcsh:R, HEK 293 cells, Cell cycle, Cell biology, HEK293 Cells, 030104 developmental biology, 030220 oncology & carcinogenesis, embryonic structures, lcsh:Q, Protein Binding

Abstract

Cell growth and proliferation are two diverse processes yet always linked. Akt1, a serine/threonine kinase, is a multi-functional protein implicated in regulation of cell growth, survival and proliferation. Though it has a role in G1/S progression, the manner by which Akt1 controls cell cycle and blends cell growth with proliferation is not well explored. In this study, we characterize the Akt1 interactome as the cell cycle progresses from G0 to G1/S and G2 phase. For this, Akt1-overexpressing HEK293 cells were subjected to AP-MS. To distinguish between individual cell cycle stages, cells were cultured in the light, medium and heavy labelled SILAC media. We obtained 213 interacting partners of Akt1 from these studies. GO classification revealed that a significant number of proteins fall into functional classes related to cell growth or cell cycle processes. Of these, 32 proteins showed varying association with Akt1 in different cell cycle stages. Further analyses uncovered a subset of proteins showing counteracting effects so as to tune stage-specific progression through the cycle. Thus, our study provides some novel perspectives on Akt1-mediated regulation of the cell cycle and offers the framework for a detailed resolution of the downstream cellular mechanisms that are mediated by this kinase.

Published

2018

20. Design of Highly Potent, Dual-Acting and Central-Nervous-System-Penetrating HIV-1 Protease Inhibitors with Excellent Potency against Multidrug-Resistant HIV-1 Variants

Author

Kanury V. S. Rao, Johnson Agniswamy, Arun K. Ghosh, Hiroaki Mitsuya, Heather L. Osswald, Yuan-Fang Wang, Irene T. Weber, Prasanth R. Nyalapatla, Margherita Brindisi, Satish Kovela, Shinichiro Hattori, Bhavanam Sekhara Reddy, Manabu Aoki, Ghosh, Arun K, Rao, Kalapala Venkateswara, Nyalapatla, Prasanth R, Kovela, Satish, Brindisi, Margherita, Osswald, Heather L, Sekhara Reddy, Bhavanam, Agniswamy, Johnson, Wang, Yuan-Fang, Aoki, Manabu, Hattori, Shin-Ichiro, Weber, Irene T, and Mitsuya, Hiroaki

Subjects

0301 basic medicine, Models, Molecular, Carbamate, Halogenation, medicine.medical_treatment, HIV Infections, Crystallography, X-Ray, 01 natural sciences, Biochemistry, Article, brain penetration, Cell Line, antiviral agent, 03 medical and health sciences, chemistry.chemical_compound, HIV-1 protease, HIV Protease, Drug Discovery, antiviral agents, medicine, Potency, HIV Protease Inhibitor, Animals, Humans, General Pharmacology, Toxicology and Pharmaceutics, Thiazole, Pharmacology, Protease, drug resistance, biology, 010405 organic chemistry, Organic Chemistry, Brain, HIV Protease Inhibitors, structure-based design, 0104 chemical sciences, Rats, Multiple drug resistance, 030104 developmental biology, chemistry, Cell culture, Drug Design, biology.protein, HIV-1, Molecular Medicine, Carbamates

Abstract

Herein we report the design, synthesis, X-ray structural, and biological studies of an exceptionally potent HIV-1 protease inhibitor, compound 5 ((3S,7aS,8S)-hexahydro-4H-3,5-methanofuro[2,3-b]pyran-8-yl ((2S,3R)-4-((2-(cyclopropylamino)-N-isobutylbenzo[d]thiazole)-6-sulfonamido)-1-(3,5-difluorophenyl)-3-hydroxybutan-2-yl)carbamate). Using structure-based design, we incorporated an unprecedented 6-5-5-ring-fused crown-like tetrahydropyranofuran as the P2-ligand, a cyclopropylaminobenzothiazole as the P2'-ligand, and a 3,5-difluorophenylmethyl group as the P1-ligand. The resulting inhibitor 5 exhibited exceptional HIV-1 protease inhibitory and antiviral potency at the picomolar level. Furthermore, it displayed antiviral IC50 values in the picomolar range against a wide panel of highly multidrug-resistant HIV-1 variants. The inhibitor shows an extremely high genetic barrier against the emergence of drug-resistant variants. It also showed extremely potent inhibitory activity toward dimerization as well as favorable central nervous system penetration. We determined a high-resolution X-ray crystal structure of the complex between inhibitor 5 and HIV-1 protease, which provides molecular insight into the unprecedented activity profiles observed.

Published

2018

21. A novel central nervous system-penetrating protease inhibitor overcomes human immunodeficiency virus 1 resistance with unprecedented aM to pM potency

Author

Hideyuki Saito, Manabu Aoki, Hironori Hayashi, Nobuyo Higashi-Kuwata, Ravikiran S. Yedidi, Shin ichiro Hattori, Arun K. Ghosh, Robert Yarchoan, Noriko Nishida, Debananda Das, Hiroaki Mitsuya, Haydar Bulut, Nobutoki Takamune, Prasanth R. Nyalapatla, David A. Davis, Kanury V. S. Rao, Shogo Misumi, Yuki Takamatsu, Hirofumi Jono, Heather L. Osswald, Kazuya Hasegawa, and Hiromi Aoki-Ogata

Subjects

Central Nervous System, 0301 basic medicine, CNS penetration, QH301-705.5, medicine.medical_treatment, Science, 030106 microbiology, Central nervous system, Human immunodeficiency virus (HIV), Microbial Sensitivity Tests, Biology, medicine.disease_cause, General Biochemistry, Genetics and Molecular Biology, Virus, protease inhibitor, Inhibitory Concentration 50, 03 medical and health sciences, HIV Protease, Drug Resistance, Viral, drug-resistant HIV-1, medicine, Animals, Humans, Potency, Biology (General), Cells, Cultured, Microbiology and Infectious Disease, Protease, General Immunology and Microbiology, Cell growth, GRL-142, General Neuroscience, HIV Protease Inhibitors, General Medicine, Virology, Rats, 3. Good health, 030104 developmental biology, medicine.anatomical_structure, HIV-1, Medicine, Target protein, Intracellular, Research Article, Protein Binding

Abstract

Antiretroviral therapy for HIV-1 infection/AIDS has significantly extended the life expectancy of HIV-1-infected individuals and reduced HIV-1 transmission at very high rates. However, certain individuals who initially achieve viral suppression to undetectable levels may eventually suffer treatment failure mainly due to adverse effects and the emergence of drug-resistant HIV-1 variants. Here, we report GRL-142, a novel HIV-1 protease inhibitor containing an unprecedented 6-5-5-ring-fused crown-like tetrahydropyranofuran, which has extremely potent activity against all HIV-1 strains examined with IC50 values of attomolar-to-picomolar concentrations, virtually no effects on cellular growth, extremely high genetic barrier against the emergence of drug-resistant variants, and favorable intracellular and central nervous system penetration. GRL-142 forms optimum polar, van der Waals, and halogen bond interactions with HIV-1 protease and strongly blocks protease dimerization, demonstrating that combined multiple optimizing elements significantly enhance molecular and atomic interactions with a target protein and generate unprecedentedly potent and practically favorable agents.

Published

2017

22. Dataset to delineate changes in association between Akt1 and its interacting partners as a function of active state of Akt1 protein

Author

Shweta Duggal, Nutan Gupta, Samrat Chatterjee, Kanury V. S. Rao, Noor Jailkhani, and Ajay Kumar

Subjects

0301 basic medicine, Interactome, Allosteric regulation, Lysine, Context (language use), Computational biology, Biology, lcsh:Computer applications to medicine. Medical informatics, SILAC, 03 medical and health sciences, Affinity chromatography, Stable isotope labeling by amino acids in cell culture, lcsh:Science (General), Data Article, Akt1, Multidisciplinary, Mass spectrometry, HEK 293 cells, Affinity purification, 030104 developmental biology, Biochemistry, embryonic structures, lcsh:R858-859.7, sense organs, Function (biology), lcsh:Q1-390

Abstract

Akt1 is a multi-functional protein, implicated in multiple human solid tumors. Pertaining to its key role in cell survival, Akt1 is under focus for development of targeted therapies. Functional diversity of Akt1 is a result of its interactions with other proteins; which changes with changing context. This investigation was designed to capture the dynamics of Akt1 Interactome as a function of its active state. Delineating dynamic changes in association of Akt1 with its interactors could help us comprehend how it changes as a function of inhibition of its active form. Similar information on changes in Akt1 interactome as of now is not well explored. Akt1 expressing HEK293 cells were cultured in light and heavy labeled SILAC media. Normal lysine and arginine were incorporated as light labels while for heavy labeling the isotopes were 8 and 10 Da heavier. Light labeled cells represented the indigenous state of Akt1 interactome while heavy labeled cells represented Akt1 interactome in presence of its allosteric inhibitor, MK-2206. Equal number of cells from both conditions were pooled, lysed and subjected to Affinity Purification coupled to Mass Spectroscopy (AP-MS). Additionally, SILAC labeling aided in quantitative estimation of changing association of a number of proteins which were common to the two experimental conditions, with Akt1. Data are available via ProteomeXchange with identifier PXD005976. Keywords: Akt1, SILAC, Interactome, Affinity purification, Mass spectrometry

Published

2017

23. An enantioselective synthesis of a MEM-protected aetheramide A derivative

Author

Siddhartha Akasapu, Kanury V. S. Rao, and Arun K. Ghosh

Subjects

Natural product, Anti hiv, Stereochemistry, organic chemicals, Organic Chemistry, Asymmetric hydrogenation, Enantioselective synthesis, Biochemistry, Article, chemistry.chemical_compound, chemistry, Dihydroxylation, Drug Discovery, Stereoselectivity, Derivative (chemistry)

Abstract

Aetheramides A and B are very potent anti-HIV agents. An enantioselective synthesis of a MEM-protected aetheramide A derivative is described. The synthesis was accomplished in a convergent and stereoselective manner. The key reactions involved asymmetric dihydroxylation, asymmetric allylation, asymmetric syn-aldol reactions, and asymmetric hydrogenation.

Published

2014

24. Outlining the Grb2 interactome data and its interacting partners in HEK293 cells in absence and presence of epidermal growth factor

Author

Shweta Duggal, Kanury V. S. Rao, Mukul Kumar Midha, and Ajay Kumar

Subjects

Proteomics, medicine.medical_treatment, lcsh:Computer applications to medicine. Medical informatics, Interactome, 03 medical and health sciences, 0302 clinical medicine, Epidermal growth factor, Stable isotope labeling by amino acids in cell culture, medicine, lcsh:Science (General), 030304 developmental biology, 0303 health sciences, Multidisciplinary, biology, Chemistry, Growth factor, HEK 293 cells, Signal transducing adaptor protein, Cell biology, biology.protein, lcsh:R858-859.7, GRB2, biological phenomena, cell phenomena, and immunity, Signal transduction, 030217 neurology & neurosurgery, lcsh:Q1-390

Abstract

Growth factor receptor-bound protein 2 (Grb2) is an adaptor protein involved in the signal transduction pathways. This dataset enlists proteins which interact with Grb2 in the presence and absence of a mitogenic stimulus. Grb2 expressing HEK293 cells were cultured in light and heavy labeled SILAC media. Normal lysine and arginine were incorporated as light labels while 8 and 10 Da heavier labels of respective isotopes were used for heavy labeling. While light labeled cells were used to enrich basal Grb2 interactome, the heavy labeled cells were stimulated in presence of epidermal growth factor (EGF) to investigate the altered Grb2 interactome dynamics. Equal number of EGF stimulated and non-stimulated cells was pooled, lysed and subjected to affinity purification coupled to mass spectrometry (AP-MS). The variety of Grb2 protein partners changed as a consequence of EGF stimulation. Additionally, SILAC labeling helped in quantitative estimation of altered association of a few interactors with the bait protein. Data are available via PRIDE repository with the dataset identifier PXD012957 (https://www.ebi.ac.uk/pride/archive/projects/PXD012957). Keywords: Grb2, EGF, Interactome, SILAC, AP-MS

Published

2019

25. GRL-0519, a Novel Oxatricyclic Ligand-Containing Nonpeptidic HIV-1 Protease Inhibitor (PI), Potently Suppresses Replication of a Wide Spectrum of Multi-PI-Resistant HIV-1 Variants In Vitro

Author

Yasushi Tojo, Hiroaki Mitsuya, Chun-Xiao Xu, Arun K. Ghosh, Debananda Das, Masayuki Amano, Kanury V. S. Rao, Joseph Campbell, Pedro Miguel Salcedo-Gómez, and Manabu Aoki

Subjects

Pyridines, T-Lymphocytes, medicine.medical_treatment, Atazanavir Sulfate, Molecular Sequence Data, Virus Replication, Antiviral Agents, Lopinavir, Inhibitory Concentration 50, Structure-Activity Relationship, Amprenavir, HIV Protease, HIV-1 protease, Cell Line, Tumor, Drug Resistance, Viral, medicine, Humans, HIV Protease Inhibitor, Pharmacology (medical), Protease inhibitor (pharmacology), Amino Acid Sequence, Furans, Darunavir, Pharmacology, Sulfonamides, Binding Sites, Ritonavir, Protease, biology, HIV Protease Inhibitors, Virology, Molecular Docking Simulation, Infectious Diseases, HIV-1, biology.protein, Carbamates, Oligopeptides, Protein Binding, medicine.drug

Abstract

We report that GRL-0519, a novel nonpeptidic human immunodeficiency virus type 1 (HIV-1) protease inhibitor (PI) containing tris -tetrahydrofuranylurethane ( tris -THF) and a sulfonamide isostere, is highly potent against laboratory HIV-1 strains and primary clinical isolates (50% effective concentration [EC 50 ], 0.0005 to 0.0007 μM) with minimal cytotoxicity (50% cytotoxic concentration [CC 50 ], 44.6 μM). GRL-0519 blocked the infectivity and replication of HIV-1 NL4-3 variants selected by up to a 5 μM concentration of ritonavir, lopinavir, or atazanavir (EC 50 , 0.0028 to 0.0033 μM). GRL-0519 was also potent against multi-PI-resistant clinical HIV-1 variants isolated from patients who no longer responded to existing antiviral regimens after long-term antiretroviral therapy, highly darunavir (DRV)-resistant variants, and HIV-2 ROD . The development of resistance against GRL-0519 was substantially delayed compared to other PIs, including amprenavir (APV) and DRV. The effects of nonspecific binding of human serum proteins on GRL-0519's antiviral activity were insignificant. Our analysis of the crystal structures of GRL-0519 (3OK9) and DRV (2IEN) with protease suggested that the tris -THF moiety, compared to the bis -THF moiety present in DRV, has greater water-mediated polar interactions with key active-site residues of protease and that the tris -THF moiety and paramethoxy group effectively fill the S2 and S2′ binding pockets, respectively, of the protease. The present data demonstrate that GRL-0519 has highly favorable features as a potential therapeutic agent for treating patients infected with wild-type and/or multi-PI-resistant variants and that the tris -THF moiety is critical for strong binding of GRL-0519 to the HIV protease substrate binding site and appears to be responsible for its favorable antiretroviral characteristics.

Published

2013

26. Immunomodulatory Role of an Ayurvedic Formulation on Imbalanced Immunometabolics during Inflammatory Responses of Obesity and Prediabetic Disease

Author

Parul Tripathi, Shashank Misra, Sachin Sharma, Kamiya Tikoo, and Kanury V. S. Rao

Subjects

medicine.medical_specialty, Pathology, Sucrose, Article Subject, Normal diet, business.industry, Insulin, medicine.medical_treatment, Disease progression, Diabetic mouse, Decoction, lcsh:Other systems of medicine, Disease, lcsh:RZ201-999, medicine.disease, Obesity, chemistry.chemical_compound, Endocrinology, Complementary and alternative medicine, chemistry, Internal medicine, Medicine, business, Research Article

Abstract

Kal-1 is a polyherbal decoction of seven different natural ingredients, traditionally used in controlling sugar levels, inflammatory conditions particularly regulating metabolic and immunoinflammatory balance which are the major factors involved in obesity and related diseases. In the present study, we aimed to investigate the effect of Kal-1 (an abbreviation derived from the procuring source) on diet-induced obesity and type II diabetes using C57BL/6J mice as a model. The present study was performed with two experimental groups involving obese and prediabetic mice as study animals. In one, the mice were fed on high-fat with increased sucrose diet, and different amounts (5, 20, and 75 μL) of Kal-1 were administered with monitoring of disease progression over a period of 21 weeks whereas in the second group the mice were first put on the same diet for 21 weeks and then treated with the same amounts of Kal-1. A significant reduction in body weight, fat pads, fasting blood glucose levels, insulin levels, biochemical parameters, immunological parameters, and an array of pro- and anticytokines was observed in obese and diabetic mice plus Kal-1 than control (lean) mice fed on normal diet. In conclusion, Kal-1 has immunomodulatory potential for diet-induced obesity and associated metabolic disorders.

Published

2013

27. Defining the Akt1 interactome data and delineating alterations in its composition as a function of cell cycle progression

Author

Shweta Duggal, Mukul Kumar Midha, Kanury V. S. Rao, Noor Jailkhani, and Ajay Kumar

Subjects

0301 basic medicine, Interactome, Context (language use), Biology, Cell cycle, lcsh:Computer applications to medicine. Medical informatics, SILAC, 03 medical and health sciences, Stable isotope labeling by amino acids in cell culture, Protein biosynthesis, lcsh:Science (General), Data Article, chemistry.chemical_classification, Akt1, Multidisciplinary, HEK 293 cells, Metabolism, Amino acid, 030104 developmental biology, Biochemistry, chemistry, embryonic structures, lcsh:R858-859.7, AP-MS, lcsh:Q1-390

Abstract

Akt1 is a multi-functional protein implicated in key cellular processes including regulation of proliferation, survival, metabolism and protein synthesis. Its functional diversity results through interactions with other proteins which change with changing context. This study was designed to capture proteins, which interact with Akt1 as the cell cycle progresses from G0 to G1S and then G2 phase. Such an insight might help us understand the role of Akt1 in cell cycle, which as of now is not well explored. Akt1 expressing HEK 293 cells were cultured in light, medium and heavy labeled SILAC media. Normal lysine and arginine were incorporated as light labels; 6 Da (Dalton) heavier isotopes of the same amino acids were used as medium labels; while for heavy labeling the isotopes were 8 and 10 Da heavier. Light labeled cells were arrested in G0 phase while medium and heavy labeled cells were arrested in G2 and G1S phases, respectively. Equal number of cells from each phase was pooled, lysed and subjected to Affinity Purification coupled to Mass Spectroscopy (AP-MS). The obtained Akt1 protein partners were observed to change as the cell cycle progressed from G0 to G1S and then to G2 phase. Additionally, SILAC labeling aided in quantitative estimation of changing association of a number of proteins which were common to two or more phases, with Akt1. Data are available via ProteomeXchange with identifier PXD005557.

Published

2016

28. A mathematical model predicting host mitochondrial pyruvate transporter activity to be a critical regulator of Mycobacterium tuberculosis pathogenicity

Author

Kanury V. S. Rao, Samrat Chatterjee, and Parul Mehrotra

Subjects

0301 basic medicine, Statistics and Probability, Monocarboxylic Acid Transporters, Tuberculosis, Time Factors, Host–pathogen interaction, Anion Transport Proteins, Regulator, Virulence, Pyruvate Dehydrogenase Complex, Biology, Mitochondrial Membrane Transport Proteins, General Biochemistry, Genetics and Molecular Biology, Microbiology, Mycobacterium tuberculosis, Mitochondrial Proteins, 03 medical and health sciences, chemistry.chemical_compound, Acetyl Coenzyme A, Cell Line, Tumor, medicine, Humans, Applied Mathematics, Macrophages, Acetyl-CoA, General Medicine, Models, Theoretical, Pyruvate dehydrogenase complex, medicine.disease, biology.organism_classification, Mitochondria, Kinetics, 030104 developmental biology, chemistry, Acrylates, Modeling and Simulation, Host-Pathogen Interactions, Flux (metabolism), Algorithms

Abstract

Modulation of host metabolic machinery by Mycobacterium tuberculosis is a well established phenomenon. In our earlier study ( Mehrotra et al., 2014 ), we observed a marked increase in acetyl-CoA levels in cells bearing virulent M. tuberculosis infections compared to host cells harbouring avirulent infections. The difference was observed inspite of similar levels of total host cellular pyruvate in both infection types. The present study aimed in capturing the cause for such a phenomenon that defines the pathogenicity of M. tuberculosis. Through mathematical model, we dissected the relative importance of virulence mediated effect on Pyruvate dehydrogenase (PDH) activity, rate of acetyl-CoA consumption and mitochondrial pyruvate transporter (MPC) activity in causing the observed outcomes. Simulation results exhibit MPC to be the key regulatory junction perturbed by virulent strains of M. tuberculosis leading to alteration of mitochondrial metabolic flux and regulation of acetyl-CoA formation. As an experimental validation, drug mediated inhibition of MPC activity was sufficient to reduce virulent bacillary loads, pointing towards a possible mechanistic target for drug discovery.

Published

2016

29. Mycobacterial escape from macrophage phagosomes to the cytoplasm represents an alternate adaptation mechanism

Author

Zaved Siddiqui, Shilpa Jamwal, Archana Singh, Kanury V. S. Rao, Atanu Basu, and Parul Mehrotra

Subjects

0301 basic medicine, Cytoplasm, Phagocytosis, Virulence, Phospholipases A2, Cytosolic, Article, 03 medical and health sciences, 0302 clinical medicine, Microscopy, Electron, Transmission, Cell Line, Tumor, Phagosomes, Autophagy, Macrophage, Humans, Transport Vesicles, Cells, Cultured, Phagosome, Immune Evasion, Multidisciplinary, Microscopy, Confocal, biology, Macrophages, Mycobacterium tuberculosis, biology.organism_classification, Adaptation, Physiological, Cell biology, 030104 developmental biology, Endocytic vesicle, 030220 oncology & carcinogenesis, Immunology, Host-Pathogen Interactions, Bacteria

Abstract

Survival of Mycobacterium tuberculosis (Mtb) within the host macrophage is mediated through pathogen-dependent inhibition of phagosome-lysosome fusion, which enables bacteria to persist within the immature phagosomal compartment. By employing ultrastructural examination of different field isolates supported by biochemical analysis, we found that some of the Mtb strains were in fact poorly adapted for subsistence within endocytic vesicles of infected macrophages. Instead, through a mechanism involving activation of host cytosolic phospholipase A2, these bacteria rapidly escaped from phagosomes and established residence in the cytoplasm of the host cell. Interestingly, by facilitating an enhanced suppression of host cellular autophagy, this translocation served as an alternate virulence acquisition mechanism. Thus, our studies reveal plasticity in the adaptation strategies employed by Mtb, for survival in the host macrophage.

Published

2016

30. A novel mechanism for ERK-dependent regulation of IL4 transcription during human Th2-cell differentiation

Author

Parul Tripathi, Henna Kallionpää, Kanury V. S. Rao, Riitta Lahesmaa, Ubaid Ullah, Naresh C. Sahoo, and Amita Suneja

Subjects

MAPK/ERK pathway, Chromatin Immunoprecipitation, IL-4 transcription, Transcription, Genetic, Mitogen-Activated Protein Kinase 3, Cellular differentiation, Immunology, Blotting, Western, Biology, Regulatory Sequences, Nucleic Acid, ta3111, Enhanceosome, 03 medical and health sciences, 0302 clinical medicine, Th2 Cells, Immunology and Allergy, Humans, Promoter Regions, Genetic, Transcription factor, Cells, Cultured, 030304 developmental biology, Regulation of gene expression, Mitogen-Activated Protein Kinase 1, 0303 health sciences, Binding Sites, Kinase, Reverse Transcriptase Polymerase Chain Reaction, Th-2 differentiation, ta1184, ta1182, Cell Differentiation, Cell Biology, Molecular biology, Gene Expression Regulation, Mitogen-activated protein kinase, biology.protein, Interleukin-2, Original Article, MAP kinase, RNA Interference, Interleukin-4, 030215 immunology, Protein Binding

Abstract

We demonstrate that the mitogen-activated protein kinases extracellular signal-regulated kinase (ERK)-1 and ERK-2 have a central role in mediating T-cell receptor-dependent induction of IL4 expression in human CD4(+) T cells. Significantly, this involved a novel mechanism wherein receptor cross-linking induced activated ERK to physically associate with a promoter element on the IL4 gene. The proximally localized ERK then facilitated recruitment of the key transcription factors necessary for initiating IL4 gene transcription. Although both ERK-1 and ERK-2 bound to the promoter, recruitment of either one alone was found to be sufficient. We thus identify a novel mode of function for ERK wherein its physical association with the promoter serves as a prerequisite for enhanceosome assembly. This unusual pathway is also indispensable for human Th2-cell differentiation.

Published

2012

31. Activating Transcription Factor 3 Is a Positive Regulator of Human IFNG Gene Expression

Author

Emmi Ylikoski, Subhash K. Tripathi, Omid Rasool, Sanna Filén, Anne West, Kanury V. S. Rao, Helena Ahlfors, Eleanor T. Coffey, Mari Björkman, Riitta Lahesmaa, and Joel H. Nyström

Subjects

Transcriptional Activation, Immunology, Activating transcription factor, Biology, Jurkat cells, Interferon-gamma, Jurkat Cells, Mice, L Cells, Th2 Cells, Gene expression, Animals, Humans, Immunology and Allergy, Promoter Regions, Genetic, Transcription factor, Cells, Cultured, Gene knockdown, ATF3, Activating Transcription Factor 3, Cell Differentiation, Th1 Cells, Molecular biology, Up-Regulation, Protein Transport, Gene Expression Regulation, Ectopic expression, Chromatin immunoprecipitation

Abstract

IL-12 and IL-18 are essential for Th1 differentiation, whereas the role of IFN-α in Th1 development is less understood. In this microarray-based study, we searched for genes that are regulated by IFN-α, IL-12, or the combination of IL-12 plus IL-18 during the early differentiation of human umbilical cord blood CD4+ Th cells. Twenty-six genes were similarly regulated in response to treatment with IL-12, IFN-α, or the combination of IL-12 plus IL-18. These genes could therefore play a role in Th1 lineage decision. Transcription factor activating transcription factor (ATF) 3 was upregulated by these cytokines and selected for further study. Ectopic expression of ATF3 in CD4+ T cells enhanced the production of IFN-γ, the hallmark cytokine of Th1 cells, whereas small interfering RNA knockdown of ATF3 reduced IFN-γ production. Furthermore, ATF3 formed an endogenous complex with JUN in CD4+ T cells induced to Th1. Chromatin immunoprecipitation and luciferase reporter assays showed that both ATF3 and JUN are recruited to and transactivate the IFNG promoter during early Th1 differentiation. Collectively, these data indicate that ATF3 promotes human Th1 differentiation.

Published

2010

32. Front Cover: Design of Highly Potent, Dual-Acting and Central-Nervous-System-Penetrating HIV-1 Protease Inhibitors with Excellent Potency against Multidrug-Resistant HIV-1 Variants (ChemMedChem 8/2018)

Author

Hiroaki Mitsuya, Shin-ichiro Hattori, Prasanth R. Nyalapatla, Bhavanam Sekhara Reddy, Margherita Brindisi, Satish Kovela, Yuan-Fang Wang, Irene T. Weber, Heather L. Osswald, Kanury V. S. Rao, Arun K. Ghosh, Johnson Agniswamy, and Manabu Aoki

Subjects

Pharmacology, biology, business.industry, Organic Chemistry, Central nervous system, Human immunodeficiency virus (HIV), Drug resistance, medicine.disease_cause, Biochemistry, Virology, Multiple drug resistance, medicine.anatomical_structure, Front cover, HIV-1 protease, Drug Discovery, medicine, biology.protein, Molecular Medicine, Potency, General Pharmacology, Toxicology and Pharmaceutics, business

Published

2018

33. Integration of a Phosphatase Cascade with the Mitogen-activated Protein Kinase Pathway Provides for a Novel Signal Processing Function

Author

Virendra K. Chaudhri, Raina Dua, Kanury V. S. Rao, Dhiraj Kumar, and Manjari Misra

Subjects

MAPK/ERK pathway, MAP Kinase Signaling System, Phosphatase, Biomolecular Networks, Biology, Mitogen-activated protein kinase kinase, Models, Biological, Biochemistry, Cell Line, MAP2K7, Mice, Animals, Humans, ASK1, c-Raf, Molecular Biology, Mitogen-Activated Protein Kinase Kinases, MAP kinase kinase kinase, Akt/PKB signaling pathway, Cell Biology, Signal Transduction/Phosphoprotein Phosphatases/Dual Specificity Phosphatase Cascade, BCR, MAPK, Phosphoric Monoester Hydrolases, Cell biology, Receptors/Leukocyte/Lymphocyte, MKP3

Abstract

We mathematically modeled the receptor-dependent mitogen-activated protein kinase (MAPK) signaling by incorporating the regulation through cellular phosphatases. Activation induced the alignment of a phosphatase cascade in parallel with the MAPK pathway. A novel regulatory motif was, thus, generated, providing for the combinatorial control of each MAPK intermediate. This ensured a non-linear mode of signal transmission with the output being shaped by the balance between the strength of input signal and the activity gradient along the phosphatase axis. Shifts in this balance yielded modulations in topology of the motif, thereby expanding the repertoire of output responses. Thus, we identify an added dimension to signal processing wherein the output response to an external stimulus is additionally filtered through indicators that define the phenotypic status of the cell.

Published

2010

34. PRELI is a mitochondrial regulator of human primary T-helper cell apoptosis, STAT6, and Th2-cell differentiation

Author

Riitta Lahesmaa, Johanna Tahvanainen, Kanury V. S. Rao, Hanna Lähteenmäki, Teemu Kallonen, Kaisa M. Heiskanen, and Jukka Westermarck

Subjects

Programmed cell death, Cellular differentiation, Blotting, Western, Immunology, Receptors, Antigen, T-Cell, Fluorescent Antibody Technique, Apoptosis, Biology, Kidney, Lymphocyte Activation, Biochemistry, Mitochondrial Proteins, Th2 Cells, medicine, Humans, RNA, Messenger, Transcription factor, Cells, Cultured, Interleukin 4, Oligonucleotide Array Sequence Analysis, STAT6, Membrane Potential, Mitochondrial, Calpain, Reverse Transcriptase Polymerase Chain Reaction, Gene Expression Profiling, T-cell receptor, Infant, Newborn, Proteins, Cell Differentiation, Cell Biology, Hematology, T helper cell, Th1 Cells, Fetal Blood, Mitochondria, Cell biology, Oxidative Stress, medicine.anatomical_structure, STAT protein, Cytokines, Reactive Oxygen Species, STAT6 Transcription Factor, Signal Transduction

Abstract

The identification of novel factors regulating human T helper (Th)–cell differentiation into functionally distinct Th1 and Th2 subsets is important for understanding the mechanisms behind human autoimmune and allergic diseases. We have identified a protein of relevant evolutionary and lymphoid interest (PRELI), a novel protein that induces oxidative stress and a mitochondrial apoptosis pathway in human primary Th cells. We also demonstrated that PRELI inhibits Th2-cell development and down-regulates signal transducer and activator of transcription 6 (STAT6), a key transcription factor driving Th2 differentiation. Our data suggest that calpain, an oxidative stress–induced cysteine protease, is involved in the PRELI-induced down-regulation of STAT6. Moreover, we observed that a strong T-cell receptor (TCR) stimulus induces expression of PRELI and inhibits Th2 development. Our results suggest that PRELI is involved in a mechanism wherein the strength of the TCR stimulus influences the polarization of Th cells. This study identifies PRELI as a novel factor influencing the human primary Th-cell death and differentiation.

Published

2009

35. Immunology in India: an emerging story

Author

Kanury V. S. Rao

Subjects

Biomedical Research, business.industry, Immunology, MEDLINE, India, Physiology, Historical Article, History, 20th Century, Allergy and Immunology, Humans, Immunology and Allergy, Medicine, Social science, business, History, Ancient

Abstract

Although immunological research is of only recent origin in India, it is nevertheless rapidly becoming an area of choice for young researchers in this country.

Published

2008

36. Regulation of Transcript Elongation through Cooperative and Ordered Recruitment of Cofactors

Author

Kanury V. S. Rao, Manish Sharma, Anuja A. George, Badri Nath Singh, and Naresh C. Sahoo

Subjects

RNA polymerase II, Models, Biological, Biochemistry, Mice, Transcriptional regulation, Animals, Positive Transcriptional Elongation Factor B, CD40 Antigens, Phosphorylation, Promoter Regions, Genetic, Molecular Biology, RNA polymerase II holoenzyme, Genetics, Models, Genetic, General transcription factor, biology, NF-kappa B, Cell Biology, Cyclin-Dependent Kinase 9, Nucleosomes, Up-Regulation, Cell biology, Gene Expression Regulation, B7-1 Antigen, biology.protein, Transcription factor II F, RNA Polymerase II, Transcription factor II E, Transcription factor II D, Transcription factor II B

Abstract

We studied the regulation of murine CD80, a gene whose basal transcriptional status was characterized by the presence of a stalled RNA polymerase II complex on the promoter-proximal region. Stimulus-induced activation of productive elongation involved a complex interplay of regulated events that included a synergy between ordered cofactor recruitment. This cascade of recruitments was initiated through the engagement of transcription factor NF-kappaB, leading to the temporal association of histone acetyltransferases and the consequent selective acetylation of a transcription start site downstream nucleosome. This in turn culminated into the nucleosomal association of Brd4-associated P-TEFb, a protein complex containing kinase specific for serine 2 of Rbp 1, the largest subunit of the carboxyl-terminal domain of RNA polymerase II. The consequent phosphorylation of serine 2 residues in CTD by CDK9 in the P-TEFb complex then facilitated escape of polymerase II into the productive elongation phase. Thus, the cooperative mechanisms that integrate between independent pathways characterize regulation of the elongation step of transcription, thereby providing another level at which specificity of gene regulation can be achieved.

Published

2007

37. Chiral diamides as efficient catalytic precursors for the borane-mediated asymmetric reduction of prochiral ketones

Author

Kanury V. S. Rao, Deevi Basavaiah, and Bhavanam Sekhara Reddy

Subjects

organic chemicals, Organic Chemistry, General Medicine, Borane, Toluene, Catalysis, Inorganic Chemistry, Reduction (complexity), chemistry.chemical_compound, chemistry, polycyclic compounds, Organic chemistry, heterocyclic compounds, Physical and Theoretical Chemistry, Enantiomer

Abstract

Chiral diamides [(2S)-5-oxo-2-(arylamino)carbonylpyrrolidines] derived from the abundantly available (S)-glutamic/(S)-pyroglutamic acids were successfully utilized as effective chiral catalytic precursors in the borane-mediated asymmetric reduction of prochiral ketones in refluxing toluene, to provide the corresponding secondary alcohols with up to 91% enantiomeric purities.

Published

2007

38. (5S)-1-Aza-2-imino-3-oxa-4,4-diphenylbicyclo(3.3.0)octane: a novel chiral catalytic source containing the N–(CNH)–O moiety for the borane-mediated asymmetric reduction of prochiral ketones

Author

Deevi Basavaiah, Bhavanam Sekhara Reddy, and Kanury V. S. Rao

Subjects

Stereochemistry, Organic Chemistry, General Medicine, Borane, Medicinal chemistry, Toluene, Catalysis, Inorganic Chemistry, Reduction (complexity), chemistry.chemical_compound, chemistry, Moiety, Physical and Theoretical Chemistry, Enantiomeric excess, Octane

Abstract

(5S)-1-Aza-2-imino-3-oxa-4,4-diphenylbicyclo(3.3.0)octane, a novel chiral catalytic source containing the N-(C=NH)-O moiety, has been synthesized and successfully utilized, for the first time, as a chiral catalytic source in the borane-mediated asymmetric reduction of prochiral ketones in refluxing toluene, to provide the corresponding secondary alcohols with up to 93% enantiomeric excess.

Published

2007

39. Dissecting host factors that regulate the early stages of tuberculosis infection

Author

Bhaswati Pandit, Neha Agrawal, Partha P. Majumder, Chandrika Bhattacharyya, Kanury V. S. Rao, Ubaid Ullah, and Ankur Mukherjee

Subjects

0301 basic medicine, Microbiology (medical), Adult, Chemokine, Tuberculosis, Genotype, medicine.medical_treatment, Immunology, Colony Count, Microbial, Context (language use), Microbiology, Polymorphism, Single Nucleotide, Mycobacterium tuberculosis, 03 medical and health sciences, 0302 clinical medicine, Immune system, medicine, Humans, Secretion, Genetic Predisposition to Disease, Cells, Cultured, Granuloma, biology, ta1183, biology.organism_classification, medicine.disease, 030104 developmental biology, Infectious Diseases, Cytokine, Host-Pathogen Interactions, biology.protein, Cytokines, Metabolic Networks and Pathways, 030215 immunology

Abstract

Incomplete understanding of mechanisms involved in the host-pathogen interactions constrains our efforts to eliminate tuberculosis. In many individuals, resulting from immune response to mycobacterial infection organised structures called granulomas are formed. To identify host responses that may control at least the early stages of infection, we employed an in vitro granuloma model. Here, human PBMCs were infected with live Mycobacterium tuberculosis in culture, and the appearance of granuloma-like structures was monitored over the next several days. Production of cytokines and chemokines in culture supernatants was monitored at various times, and the resulting temporal profiles were examined for possible correlations with either granuloma formation, or bacterial growth. While a positive association of TNF-α and IFN-γ secretion levels with extent of granuloma formation could clearly be identified, we were, however, unable to detect any statistically significant relationship between any cytokine/chemokine and bacterial growth. Examination of specific host cellular biochemical pathways revealed that either modulation of neutral lipid homeostasis through inhibition of the Gi-protein coupled receptor GPR109A, or regulation of host metabolic pathways through addition of vitamin D, provided a more effective means of controlling infection. A subsequent genotypic analysis for a select subset of genes belonging to pathways known to be significant for TB pathology revealed associations of polymorphisms with cytokine secretions and bacterial growth independently. Collectively therefore, the present study supports that key metabolic pathways of the host cell, rather than levels of relevant cytokines/chemokines might be more critical for regulating the intracellular mycobacterial load, in the context of granuloma formation.

Published

2015

40. M. tuberculosis Secretory Protein ESAT-6 Induces Metabolic Flux Perturbations to Drive Foamy Macrophage Differentiation

Author

Samrat Chatterjee, Vijay K. Chaudhary, Varshneya Singh, Kanury V. S. Rao, and Charanpreet Kaur

Subjects

Antigens, Bacterial, Glucose Transporter Type 1, Phosphoglycerate kinase, Multidisciplinary, Macrophages, Cellular differentiation, Cell Differentiation, Mycobacterium tuberculosis, Biology, Article, Cell Line, Cell biology, Secretory protein, Bacterial Proteins, Biochemistry, DHAP, ESAT-6, Humans, Tuberculosis, Macrophage, Protein Interaction Domains and Motifs, Flux (metabolism), Intracellular, Foam Cells

Abstract

The Foamy Macrophage (FM) differentiation forms a major component of the host dependent survival axis of M. tuberculosis. The FM which are characterized by the intracellular accumulation of lipid bodies (LBs), ensure a privileged existence for the bacilli through ready provision of nutrients and by conferring protection against bactericidal pathways. The mycobacterial secretory protein ESAT-6 has been identified as the molecular mediator of the FM differentiation process although little is known about the mechanism through which it induces this process. In the present study, we show that ESAT-6 induces GLUT-1 mediated enhanced glucose uptake by macrophages which is coupled to metabolic flux perturbations in the glycolytic pathway caused by differential rates of reaction at several steps in the pathway. Two major changes identified were the simultaneous buildup of DHAP (for Triglyceride synthesis) and AcCoA (for synthesis of 3-HB, ligand for the anti-lipolytic GPR109A). We also show that part of the observed effects involve protein- protein interactions between ESAT-6 and the macrophage glycolytic enzymes, Enolase1 and Phosphoglycerate kinase1.

Published

2015

41. Differential proteomics approach to identify putative protective antigens of Mycobacterium tuberculosis presented during early stages of macrophage infection and their evaluation as DNA vaccines

Author

Shingar, Sharma, R S, Rajmani, Arun, Kumar, Ashima, Bhaskar, Amit, Singh, Venkatasamy, Manivel, Anil K, Tyagi, and Kanury V S, Rao

Subjects

Proteomics, Antigens, Bacterial, Macrophages, Guinea Pigs, Molecular Sequence Data, Mycobacterium tuberculosis, Host-Parasite Interactions, Mice, Inbred C57BL, Mice, Treatment Outcome, Bacterial Proteins, Tandem Mass Spectrometry, Cell Line, Tumor, BCG Vaccine, NIH 3T3 Cells, Vaccines, DNA, Animals, Humans, Tuberculosis, Female, Immunization, Amino Acid Sequence, Tuberculosis Vaccines, Chromatography, High Pressure Liquid

Abstract

Unsatisfactory performance of the existing BCG vaccines, especially against the adult pulmonary disease, has urged the need for an effective vaccine against tuberculosis (TB). In this study, we employed differential proteomics to obtain a list of antigens as potential vaccine candidates. Bacterial epitopes being presented at early stages on MHC class I and class II molecules of macrophages infected with Mycobacterium tuberculosis (M. tb) were identified using iTRAQ labelling and reverse phase LC-MS/MS. The putative vaccine candidates, thus identified, were tested as plasmid DNA vaccines in mice to ascertain their protective efficacy against the aerosolized M. tb challenge, based on their ability to reduce the bacterial load in the lungs of infected mice. Here, we observed that 4 out of the 17 selected antigens imparted significant protection against the challenge of M. tb. The four shortlisted antigens were further assessed in a more stringent guinea pig model, where too, they demonstrated.significant protection. It concludes that combining a proteomics approach with the in vivo assessment of vaccine candidates in animal models can be valuable in identifying new potential candidates to expand the antigenic repertoire for novel vaccines against TB.

Published

2015

42. A Comprehensive Inter-Tissue Crosstalk Analysis Underlying Progression and Control of Obesity and Diabetes

Author

Parul Tripathi, Neeraj Sinha, Kamiya Tikoo, Dhiraj Kumar, Meet Singhal, Pawan Samdani, Kanury V. S. Rao, and Sachin Sharma

Subjects

medicine.medical_specialty, Proteome, Adipose tissue, Inflammation, Disease, Biology, Diet, High-Fat, Bioinformatics, Models, Biological, Article, Mice, Insulin resistance, Dietary Sucrose, Diabetes mellitus, Internal medicine, Diabetes Mellitus, medicine, Animals, Computer Simulation, Tissue Distribution, Obesity, Multidisciplinary, Microarray analysis techniques, medicine.disease, Dietary Fats, Crosstalk (biology), Endocrinology, Organ Specificity, Disease Progression, medicine.symptom

Abstract

Obesity is a metabolic state associated with excess of positive energy balance. While adipose tissues are considered the major contributor for complications associated with obesity, they influence a variety of tissues and inflict significant metabolic and inflammatory alterations. Unfortunately, the communication network between different cell-types responsible for such systemic alterations has been largely unexplored. Here we study the inter-tissue crosstalk during progression and cure of obesity using multi-tissue gene expression data generated through microarray analysis. We used gene expression data sets from 10 different tissues from mice fed on high-fat-high-sugar diet (HFHSD) at various stages of disease development and applied a novel analysis algorithm to deduce the tissue crosstalk. We unravel a comprehensive network of inter-tissue crosstalk that emerges during progression of obesity leading to inflammation and insulin resistance. Many of the crosstalk involved interactions between well-known modulators of obesity and associated pathology like inflammation. We then used similar datasets from mice that in addition to HFHSD were also administered with a herbal concoction known to circumvent the effects of HFHSD in the diet induced model of obesity in mice. We propose, the analysis presented here could be applied to understand systemic details of several chronic diseases.

Published

2015

43. Selective enrichment of mycobacterial proteins from infected host macrophages

Author

Kanury V. S. Rao, Srikanth Ravichandran, Varsha Sirohi, Mukul Kumar Midha, Zaved Siddiqui, and Ajit Chande

Subjects

Multidisciplinary, Staining and Labeling, Effector, Virulence Factors, Gene Expression Profiling, Macrophages, Mutant, Virulence, Mycobacterium tuberculosis, Biology, biology.organism_classification, Article, Microbiology, Cell Line, Gene expression profiling, Secretory protein, Bacterial Proteins, Unfolded protein response, Humans, Secretion

Abstract

Upon infection, Mycobacterium tuberculosis (Mtb) deploys specialized secretion machinery to deliver virulent proteins with the capacity to modulate a variety of host-cellular pathways. Studies on the identification of intra-macrophage Mtb proteins, however, are constricted by an inability to selectively enrich these virulent effectors against overwhelming protein content of the host. Here, we introduce an Mtb-selective protein labeling method based on genetic incorporation of azidonorleucine (Anl) through the expression of a mutant methionyl-tRNA synthetase. Exclusive incorporation of Anl, into native Mtb proteins, provided a click handle to pull out low abundant secretory proteins from the lysates of infected cells. Further, temporal secretome profiling, upon infection with strains of varying degree of virulence, revealed the proficiency of virulent Mtb to secrete chaperones. This ability contributed at least partially to the mycobacterial virulence-specific suppression of ER stress in the host macrophage, representing an important facet of mycobacterial virulence. The Anl labeling approach should facilitate new exciting opportunities for imaging and proteomic investigations of differently virulent Mtb isolates to understand determinants of pathogenicity.

Published

2015

44. Epitope-Based Vaccines : One Step at a Time

Author

Kanury V S Rao

Subjects

lcsh:Q, lcsh:Science

Abstract

Epitope-Based Vaccines : One Step at a Time

Published

2015

45. Immune -Recognition : A Bifocal Lens With Twenty -Twenty Vision

Author

Kanury V S Rao

Subjects

lcsh:Q, lcsh:Science

Abstract

Immune -Recognition : A Bifocal Lens With Twenty -Twenty Vision

Published

2015

46. 13C Kinetic Labeling and Extraction of Metabolites from Adherent Mammalian Cells

Author

Kanury V. S. Rao, Parul Mehrotra, and Najmuddin Mohd Saquib

Subjects

Metabolic state, CLs upper limits, Chromatography, Biochemistry, Strategy and Management, Mechanical Engineering, Extraction (chemistry), Metals and Alloys, Biology, Industrial and Manufacturing Engineering

Abstract

Fluctu a tions inme bol te lev els mammalian cls re the most dir form ofreadout of the cellular metabolic state. The current protocol describes a method for pulse labeling and subsequent isolation of metabolites from adherent mammalian cells. The isolated metabolites can be identified and quantified by mass-spectrometry, allowing for estimation of the rates of synthesis and removal of metabolites from the system being analyzed.

Published

2015

47. Mycobacterium tuberculosis secreted antigen (MTSA-10) modulates macrophage function by redox regulation of phosphatases

Author

Pawan Sharma, Kanury V. S. Rao, Dhiraj Kumar, Dinesh K. Singh, Niladri Ganguly, Zaved Siddiqui, and Sandip K. Basu

Subjects

biology, Phosphatase, Virulence, Cell Biology, biology.organism_classification, Biochemistry, Microbiology, Cell biology, Dephosphorylation, Mycobacterium tuberculosis, Downregulation and upregulation, Antigen, Cell culture, Molecular Biology, Gene

Abstract

Macrophages are the primary host cells for Mycobacterium tuberculosis (Mtb). Although macrophages can mount a strong inflammatory response to dispose of invading microbial pathogens, the immune dysfunction of the Mtb-infected macrophage constitutes the hallmark of mycobacterial pathogenesis. A 10-kDa, Mtb secretory antigen (MTSA-10), encoded by ORF Rv3874, is one of the predominant members of the 'region of difference 1' locus of Mtb genome that has been strongly implicated in mycobacterial virulence. In this study, we investigated the possible role of MTSA-10 in modulating the macrophage dysfunction in a mouse macrophage cell line J774.1. We found that recombinant MTSA-10 caused extensive protein dephosphorylation in J774.1 cells as revealed by two-dimensional gel electrophoresis analysis. We also observed that MTSA-10 treatment downregulated the reactive oxygen species levels in the cells leading to activation of cellular protein phosphatases putatively responsible for the dephosphorylation phenomenon. This implied a direct role of MTSA-10 in the disruption of host cell signaling, resulting in downregulation of transcription of several genes essential for macrophage function.

Published

2006

48. Differential Epitope Positioning within the Germline Antibody Paratope Enhances Promiscuity in the Primary Immune Response

Author

Dinakar M. Salunke, Venkatasamy Manivel, Sethi Dhruv Kam, Kanury V. S. Rao, and Anupriya Agarwal

Subjects

Immunology, Antibodies, Epitope, Antigen-Antibody Reactions, Affinity maturation, Immunoglobulin Fab Fragments, Antigen, Antibody Specificity, Animals, Humans, Immunology and Allergy, MOLIMMUNO, Protein Structure, Quaternary, Genetics, biology, Antibody Diversity, Primary and secondary antibodies, Cell biology, Infectious Diseases, biology.protein, Epitopes, B-Lymphocyte, Paratope, Binding Sites, Antibody, Antibody, Hapten

Abstract

SummaryCorrelation between the promiscuity of the primary antibody response and conformational flexibility in a germline antibody was addressed by using germline antibody 36-65. Crystallographic analyses of the 36-65 Fab with three independent dodecapeptides provided mechanistic insights into the generation of antibody diversity. While four antigen-free Fab molecules provided a quantitative description of the conformational repertoire of the antibody CDRs, three Fab molecules bound to structurally diverse peptide epitopes exhibited a common paratope conformation. Each peptide revealed spatially different footprints within the antigen-combining site. However, a conformation-specific lock involving two shared residues, which were also associated with hapten binding, was discernible. Unlike the hapten, the peptides interacted with residues that undergo somatic mutations, suggesting a possible mechanism for excluding “nonspecific” antigens during affinity maturation. The observed multiple binding modes of diverse epitopes within a common paratope conformation of a germline antibody reveal a simple, yet elegant, mechanism for expanding the primary antibody repertoire.

Published

2006

49. (5S)-1,3-Diaza-2-imino-3-phenylbicyclo[3.3.0]octane: first example of guanidine based in situ recyclable chiral catalytic source for borane-mediated asymmetric reduction of prochiral ketones

Author

Bhavanam Sekhara Reddy, Kanury V. S. Rao, and Deevi Basavaiah

Subjects

In situ, Organic Chemistry, General Medicine, Borane, Combinatorial chemistry, Catalysis, Inorganic Chemistry, Reduction (complexity), chemistry.chemical_compound, chemistry, Organic chemistry, Physical and Theoretical Chemistry, Enantiomer, Guanidine, Octane

Abstract

(5S)-1,3-Diaza-2-imino-3-phenylbicyclo[3.3.0]octane has been synthesized and successfully employed, for the first time, as a chiral catalytic source for the borane-mediated asymmetric reduction of prochiral α-halo ketones to provide the corresponding secondary alcohols in high enantiomeric purity. The potential of this guanidine as an in situ recyclable chiral catalytic source for the borane-mediated chiral reduction processes has also been demonstrated.

Published

2006

50. Transcription regulation from a TATA and INR-less promoter: spatial segregation of promoter function

Author

Badri Nath Singh, Naresh C. Sahoo, Manish Sharma, Anuja A. George, and Kanury V. S. Rao

Subjects

Genetics, Regulation of gene expression, Transcription, Genetic, General Immunology and Microbiology, General Neuroscience, TATA box, Response element, NF-kappa B, Promoter, Biology, TATA Box, Article, General Biochemistry, Genetics and Molecular Biology, Cell Line, Cell biology, Mice, Enhancer Elements, Genetic, Gene Expression Regulation, Transcription (biology), B7-1 Antigen, Transcriptional regulation, Animals, Enhancer, Molecular Biology, Gene

Abstract

The mode of regulation of class II genes that lack the known core promoter elements is presently unclear. Here, we studied one such example, the murine CD80 gene. An unusual mechanism was revealed wherein the pre-initiation complex (PIC) first assembled on an upstream, NF-kappaB enhancer element. Notably, this assembly occurred independent of contributions from the core promoter domain, and resulted in a PIC that was competent for transcription initiation. Positioning was subsequently achieved by exploiting the intrinsic architecture of the promoter, by virtue of which the tethered PIC was spatially juxtaposed with the transcription initiation site. Bridging interactions then ensued, through protein-protein contacts, which then enabled the elongation phase of CD80 transcription.

Published

2006