Sadanandan E. Velu
University of Alabama at Birmingham
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Featured researches published by Sadanandan E. Velu.
PLOS ONE | 2013
Kim M. Keeling; Dan Wang; Yanying Dai; Srinivasan Murugesan; Balachandra Chenna; Jeremy Clark; Valery Belakhov; Jeyakumar Kandasamy; Sadanandan E. Velu; Timor Baasov; David M. Bedwell
Nonsense suppression therapy is an approach to treat genetic diseases caused by nonsense mutations. This therapeutic strategy pharmacologically suppresses translation termination at Premature Termination Codons (PTCs) in order to restore expression of functional protein. However, the process of Nonsense-Mediated mRNA Decay (NMD), which reduces the abundance of mRNAs containing PTCs, frequently limits this approach. Here, we used a mouse model of the lysosomal storage disease mucopolysaccharidosis I-Hurler (MPS I-H) that carries a PTC in the Idua locus to test whether NMD attenuation can enhance PTC suppression in vivo. Idua encodes alpha-L-iduronidase, an enzyme required for degradation of the glycosaminoglycans (GAGs) heparan sulfate and dermatan sulfate. We found that the NMD attenuator NMDI-1 increased the abundance of the PTC-containing Idua transcript. Furthermore, co-administration of NMDI-1 with the PTC suppression drug gentamicin enhanced alpha-L-iduronidase activity compared to gentamicin alone, leading to a greater reduction of GAG storage in mouse tissues, including the brain. These results demonstrate that NMD attenuation significantly enhances suppression therapy in vivo.
Rapid Communications in Mass Spectrometry | 2009
Sebyung Kang; Liyuan Mou; Jason Lanman; Sadanandan E. Velu; Wayne J. Brouillette; Peter E. Prevelige
Chemical cross-linking combined with mass spectrometry (MS) has been used to elucidate protein structures and protein-protein interactions. However, heterogeneity of the samples and the relatively low abundance of cross-linked peptides make this approach challenging. As an effort to overcome this hurdle, we have synthesized lysine-reactive homobifunctional cross-linkers with the biotin in the middle of the linker and used them to enrich cross-linked peptides. The reaction of biotin-tagged cross-linkers with purified HIV-1 CA resulted in the formation of hanging and intramolecular cross-links. The peptides modified with biotinylated cross-linkers were effectively enriched and recovered using a streptavidin-coated plate and MS-friendly buffers. The enrichment of modified peptides and removal of the dominantly unmodified peptides simplify mass spectra and their analyses. The combination of the high mass accuracy of Fourier transform ion cyclotron resonance (FT-ICR) MS and the tandem mass spectrometric (MS/MS) capability of the linear ion trap allows us to unambiguously identify the cross-linking sites and additional modification, such as oxidation.
Clinical Cancer Research | 2009
Wei Wang; Elizabeth R. Rayburn; Sadanandan E. Velu; Dwayaja H. Nadkarni; Srinivasan Murugesan; Ruiwen Zhang
Purpose: The present study was designed to determine biological structure-activity relationships for four newly synthesized analogues of natural compounds (makaluvamines). The compounds, 7-(4-fluorobenzylamino)-1,3,4,8-tetrahydropyrrolo[4,3,2-de]quinolin-8(1H)-one (FBA-TPQ); 7-(phenethylamino)-1,3,4,8-tetrahydropyrrolo[4,3,2-de]quinolin-8(1H)-one (PEA-TPQ); 7-(3,4-methylenedioxyphenethylamino)-1,3,4,8-tetrahydropyrrolo[4,3,2-de]quinolin-8(1H)-one (MPA-TPQ); and 7-(3,4-dimethoxyphenethylamino)-1,3,4,8-tetrahydropyrrolo[4,3,2-de]quinolin-8(1H)-one (DPA-TPQ), were synthesized and purified, and their chemical structures were elucidated on the basis of physicochemical constants and nuclear magnetic resonance spectra. Experimental Design: The structure-activity relationship of the compounds was initially evaluated by comparing their in vitro cytotoxicity against 14 human cell lines. Detailed in vitro and in vivo studies were then done in MCF-7 and MDA-MB-468 breast cancer cell lines. Results: The in vitro cytotoxicity was compound, dose, and cell line dependent. Whereas all of the compounds exerted some activity, FBA-TPQ was the most potent inducer of apoptosis and the most effective inhibitor of cell growth and proliferation, with half maximal inhibitory concentration values for most cell lines in the range of 0.097 to 2.297 μmol/L. In MCF-7 cells, FBA-TPQ exposure led to an increase in p53/p-p53, Bax, ATM/p-ATM, p-chk1 and p-chk2, and p-H2AX; and cleavage of poly(ADP)ribose polymerase, caspase-3, caspase-8, and caspase-9. It also decreased the levels of MDM2, E2F1, Bcl-2, chk1/2, and proteins associated with cell proliferation [cyclin-dependent kinase (Cdk)2, Cdk4, Cdk6, cyclin D1, etc.]. Moreover, FBA-TPQ inhibited the growth of breast cancer xenograft tumors in nude mice in a dose-dependent manner. Western blot analysis ofthe xenograft tumors indicated that similar changes in protein expression also occur in vivo. Conclusion: Our preclinical data indicate that FBA-TPQ is a potential therapeutic agent for breast cancer, providing a basis for the development of the compound as a novel anticancer agent.
Proteins | 2008
Norbert Schormann; Olga Senkovich; Kiera Walker; D.L. Wright; Amy C. Anderson; Andre Rosowsky; S. Ananthan; Bidhan A. Shinkre; Sadanandan E. Velu; Debasish Chattopadhyay
We have employed a structure‐based three‐dimensional quantitative structure–activity relationship (3D‐QSAR) approach to predict the biochemical activity for inhibitors of T. cruzi dihydrofolate reductase‐thymidylate synthase (DHFR‐TS). Crystal structures of complexes of the enzyme with eight different inhibitors of the DHFR activity together with the structure in the substrate‐free state (DHFR domain) were used to validate and refine docking poses of ligands that constitute likely active conformations. Structural information from these complexes formed the basis for the structure‐based alignment used as input for the QSAR study. Contrary to indirect ligand‐based approaches the strategy described here employs a direct receptor‐based approach. The goal is to generate a library of selective lead inhibitors for further development as antiparasitic agents. 3D‐QSAR models were obtained for T. cruzi DHFR‐TS (30 inhibitors in learning set) and human DHFR (36 inhibitors in learning set) that show a very good agreement between experimental and predicted enzyme inhibition data. For crossvalidation of the QSAR model(s), we have used the 10% leave‐one‐out method. The derived 3D‐QSAR models were tested against a few selected compounds (a small test set of six inhibitors for each enzyme) with known activity, which were not part of the learning set, and the quality of prediction of the initial 3D‐QSAR models demonstrated that such studies are feasible. Further refinement of the models through integration of additional activity data and optimization of reliable docking poses is expected to lead to an improved predictive ability. Proteins 2008.
Bioorganic & Medicinal Chemistry | 2003
Wayne J. Brouillette; Saroj N. Bajpai; Shoukath M. Ali; Sadanandan E. Velu; Venkatram R. Atigadda; Barbara S. Lommer; James B. Finley; Ming Luo; Gillian M. Air
We recently reported the first benzoic acid, 1-[4-carboxy-2-(3-pentylamino)phenyl]-5,5-bis(hydroxymethyl)pyrrolidin-2-one (8), that is a potent inhibitor of avian influenza A neuraminidase (N9) and, unlike other reported potent neuraminidase inhibitors, does not contain a basic aliphatic amine or guanidine nor a simple N-acetyl grouping. However, 8 was a poor inhibitor of influenza B neuraminidase. In the present study we further evaluated 8 as an inhibitor of human influenza A NA isolates, and it was effective against N2NA but found to be 160-fold less active against N1NA. We also synthesized analogues of 8 involving moderate modifications of essential substituents on the pyrrolidinone ring. Specifically, the aminomethyl (9), hydroxyethyl (10), and aminoethyl (11) analogues were prepared. Only the most conservative change (compound 9) resulted in continued effective inhibition of influenza A, in addition to a noteworthy increase in the activity of 9 for N1NA. The effectiveness of 9 against influenza B neuraminidase was furthermore improved 10-fold relative to 8, but this activity remained 50-fold poorer than for type A NA.
Breast Cancer Research and Treatment | 2010
Wei Wang; Elizabeth R. Rayburn; Sadanandan E. Velu; Deng Chen; Dwayaja H. Nadkarni; Srinivasan Murugesan; Dongquan Chen; Ruiwen Zhang
Herein, we report our examination of the anti-breast cancer activity of a novel synthetic compound, 7-(benzylamino)-1, 3, 4, 8-tetrahydropyrrolo [4, 3, 2-de]quinolin-8(1H)-one (BA-TPQ). This agent is an analog of a naturally occurring marine compound, and was found to be the most active out of more than 40 related compounds. We investigated the in vitro activity of BA-TPQ on the survival, proliferation, and apoptosis of breast cancer cells using the MTT and BrdUrd assays, and Annexin/Annexin-PI staining and flow cytometry. The in vivo anti-cancer effects of BA-TPQ were evaluated in xenograft models of breast cancer. Finally, the mechanisms of action of the compound were also assessed by cDNA microarrays, RT–PCR and Western blotting. In a dose-dependent manner, BA-TPQ inhibited cell growth and induced apoptosis and cell cycle arrest in human MCF-7 and MDA-MB-468 breast cancer cells in vitro, and showed in vivo efficacy in mice bearing MCF-7 or MDA-MB-468 xenograft tumors. We demonstrated that BA-TPQ modifies the expression of numerous molecules involved in cell cycle progression and apoptosis. Similar changes in protein expression were observed in vitro and in vivo, as determined by examination of cells and excised xenograft tumors. Our preclinical data indicate that BA-TPQ is a potential therapeutic agent for breast cancer that has multiple hormone-, Her2-, and p53-independent mechanisms of action, providing a basis for further development of the compound as a novel anticancer agent.
Investigational New Drugs | 2010
Feng Wang; Scharri J. Ezell; Yong Zhang; Wei Wang; Elizabeth R. Rayburn; Dwayaja H. Nadkarni; Srinivasan Murugesan; Sadanandan E. Velu; Ruiwen Zhang
SummaryWe recently synthesized a series of novel makaluvamine compounds, and found that the most potent was FBA-TPQ. The effects of FBA-TPQ on human (LNCaP and PC3) and murine (TRAMP C1) prostate cancer cells were evaluated. Potential mechanisms of action of the compound were also determined. FBA-TPQ exhibited dose-dependent cytotoxicity in the low micromolar range, inhibited proliferation, caused cell cycle arrest, and induced apoptosis in prostate cancer cell lines. The compound also decreased the expression of the androgen receptor and PSA. The results presented herein support the further development of FBA-TPQ as a novel agent for prostate cancer.
Recent Patents on Anti-cancer Drug Discovery | 2013
John S. Jarboe; Shilpa Dutta; Sadanandan E. Velu; Christopher D. Willey
Kinase inhibitors are among the fastest growing class of anti-cancer therapies. One family of kinases that has recently gained attention as a target for treating malignant disorders is the Tec kinase family. Evidence has been published that one member of this family; the Bmx kinase, may play a role in the pathogenesis of glioblastoma, prostate, breast and lung cancer. Bmx has also shown potential as an anti-vascular therapy in combination with radiation or as a sensitizer to chemotherapeutic agents. Therefore, several companies such as Pharmacyclics, Avila Therapeutics, Merck and Co., Metaproteomics, IRM, and Moerae Matrix have developed compounds or peptides that function as Bmx kinase inhibitors. These companies have subsequently been issued patents for these inhibitors. Additionally, it has been shown that current clinical stage EGFR inhibitors can irreversibly inhibit Bmx, suggesting these compounds might be rapidly moved to clinical trials for other malignancies. This review will discuss current patents issued since 2009 that contain data specifically on inhibition of the Bmx kinase, and will also discuss the scientific literature that suggests their potential application as therapeutics in the treatment of the aforementioned malignancies.
Marine Drugs | 2010
Scharri J. Ezell; Haibo Li; Hongxia Xu; Xiangrong Zhang; Evrim Gurpinar; Xu Zhang; Elizabeth R. Rayburn; Charnell I. Sommers; Xinyi Yang; Sadanandan E. Velu; Wei Wang; Ruiwen Zhang
Marine natural products and their synthetic derivatives represent a major source of novel candidate anti-cancer compounds. We have recently tested the anti-cancer activity of more than forty novel compounds based on an iminoquinone makaluvamine scaffold, and have found that many of the compounds exert potent cytotoxic activity against human cancer cell lines. One of the most potent compounds, BA-TPQ [(11,12),7-(benzylamino)-1,3,4,8-tetrahydropyrrolo[4,3,2-de]quinolin-8(1H)-one], was active against a variety of human cancer cell lines, and inhibited the growth of breast and prostate xenograft tumors in mice. However, there was some toxicity noted in the mice following administration of the compound. In order to further the development of BA-TPQ, and in a search for potential sites of accumulation that might underlie the observed toxicity of the compound, we accomplished preclinical pharmacological studies of the compound. We herein report the in vitro and in vivo pharmacological properties of BA-TPQ, including its stability in plasma, plasma protein binding, metabolism by S9 enzymes, and plasma and tissue distribution. We believe these studies will be useful for further investigations, and may be useful for other investigators examining the use of similar compounds for cancer therapy.
Free Radical Biology and Medicine | 2011
John T. Anderson; Meiqin Zeng; Qian Li; Ryan Stapley; Doyle Ray Moore; Balachandra Chenna; Naomi Fineberg; Jaroslaw W. Zmijewski; Isam-Eldin Eltoum; Gene P. Siegal; Amit Gaggar; Stephen Barnes; Sadanandan E. Velu; Victor J. Thannickal; Edward Abraham; Rakesh P. Patel; Jack R. Lancaster; David D. Chaplin; Mark T. Dransfield; Jessy Deshane
The contribution of nitric oxide (NO) to the pathophysiology of asthma remains incompletely defined despite its established pro- and anti-inflammatory effects. Induction of the inducible nitric oxide synthase (iNOS), arginase, and superoxide pathways is correlated with increased airway hyperresponsiveness in asthmatic subjects. To determine the contributions of these pathways in proximal and distal airways, we compared bronchial wash (BW) to traditional bronchoalveolar lavage (BAL) for measurements of reactive nitrogen/oxygen species, arginase activation, and cytokine/chemokine levels in asthmatic and normal subjects. Levels of NO were preferentially elevated in the BAL, demonstrating higher level NOS activation in the distal airway compartment of asthmatic subjects. In contrast, DHE(+) cells, which have the potential to generate reactive oxygen species, were increased in both proximal and distal airway compartments of asthmatics compared to controls. Different patterns of cytokines and chemokines were observed, with a predominance of epithelial cell-associated mediators in the BW compared to macrophage/monocyte-derived mediators in the BAL of asthmatic subjects. Our study demonstrates differential production of reactive species and soluble mediators within the distal airways compared to the proximal airways in asthma. These results indicate that cellular mechanisms are activated in the distal airways of asthmatics and must be considered in the development of therapeutic strategies for this chronic inflammatory disorder.