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237 results on '"Keykavous Parang"'

1. Structure-Based Rational Design of Small α-Helical Peptides with Broad-Spectrum Activity against Multidrug-Resistant Pathogens

Author

Sandeep Lohan, Anastasia G. Konshina, Roman G. Efremov, Innokentiy Maslennikov, and Keykavous Parang

Subjects
Drug Discovery, Molecular Medicine
Abstract

A series of small (7-12 mer) amphipathic cationic peptides were designed and synthesized to create short helical peptides with broad-range bactericidal activity and selectivity toward the bacterial cells. The analysis identified a lead 12-mer peptide

Published
2022

3. Design, Synthesis, and Antiproliferative Activity of Benzopyran-4-One-Isoxazole Hybrid Compounds

Author

Shilpi Gupta, Shang Eun Park, Saghar Mozaffari, Bishoy El-Aarag, Keykavous Parang, and Rakesh Kumar Tiwari

Subjects
Chemistry (miscellaneous), Organic Chemistry, Drug Discovery, Molecular Medicine, Pharmaceutical Science, antiproliferative, apoptosis, benzopyranone, chromone, drug discovery, isoxazole, protein tyrosine kinase, Physical and Theoretical Chemistry, Analytical Chemistry
Abstract

The biological significance of benzopyran-4-ones as cytotoxic agents against multi-drug resistant cancer cell lines and isoxazoles as anti-inflammatory agents in cellular assays prompted us to design and synthesize their hybrid compounds and explore their antiproliferative activity against a panel of six cancer cell lines and two normal cell lines. Compounds 5a–d displayed significant antiproliferative activities against all the cancer cell lines tested, and IC50 values were in the range of 5.2–22.2 μM against MDA-MB-231 cancer cells, while they were minimally cytotoxic to the HEK-293 and LLC-PK1 normal cell lines. The IC50 values of 5a–d against normal HEK-293 cells were in the range of 102.4–293.2 μM. Compound 5a was screened for kinase inhibitory activity, proteolytic human serum stability, and apoptotic activity. The compound was found inactive towards different kinases, while it completely degraded after 2 h of incubation with human serum. At 5 μM concentration, it induced apoptosis in MDA-MB-231 by 50.8%. Overall, these findings suggest that new benzopyran-4-one-isoxazole hybrid compounds, particularly 5a–d, are selective anticancer agents, potentially safe for human cells, and could be synthesized at low cost. Additionally, Compound 5a exhibits potential anticancer activity mediated via inhibition of cancer cell proliferation and induction of apoptosis.

Published
2023
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4. Amphiphilic Cell-Penetrating Peptides Containing Arginine and Hydrophobic Residues as Protein Delivery Agents

Author

Jonathan Moreno, Khalid Zoghebi, David Salehi, Lois Kim, Sorour Khayyatnejad Shoushtari, Rakesh K. Tiwari, and Keykavous Parang

Subjects
Drug Discovery, Pharmaceutical Science, Molecular Medicine, amphiphilic, cyclic peptides, intracellular transportation, protein delivery
Abstract

The entry of proteins through the cell membrane is challenging, thus limiting their use as potential therapeutics. Seven cell-penetrating peptides, designed in our laboratory, were evaluated for the delivery of proteins. Fmoc solid-phase peptide synthesis was utilized for the synthesis of seven cyclic or hybrid cyclic–linear amphiphilic peptides composed of hydrophobic (tryptophan (W) or 3,3-diphenylalanine (Dip) and positively-charged arginine (R) residues, such as [WR]4, [WR]9, [WWRR]4, [WWRR]5, [(RW)5K](RW)5, [R5K]W7, and [DipR]5. Confocal microscopy was used to screen the peptides as a protein delivery system of model cargo proteins, green and red fluorescein proteins (GFP and RFP). Based on the confocal microscopy results, [WR]9 and [DipR]5 were found to be more efficient among all the peptides and were selected for further studies. [WR]9 (1–10 µM) + protein (GFP and RFP) physical mixture did not show high cytotoxicity (>90% viability) in triple-negative breast cancer cells (MDA-MB-231) after 24 h, while [DipR]5 (1–10 µM) physical mixture with GFP exhibited more than 81% cell viability. Confocal microscopy images revealed internalization of GFP and RFP in MDA-MB-231 cells using [WR]9 (2–10 μM) and [DipR]5 (1–10 µM). Fluorescence-activated cell sorting (FACS) analysis indicated that the cellular uptake of GFP was concentration-dependent in the presence of [WR]9 in MDA-MB-231 cells after 3 h of incubation at 37 °C. The concentration-dependent uptake of GFP and RFP was also observed in the presence of [DipR5] in SK-OV-3 and MDA-MB-231 cells after 3 h of incubation at 37 °C. FACS analysis indicated that the cellular uptake of GFP in the presence of [WR]9 was partially decreased by methyl-β-cyclodextrin and nystatin as endocytosis inhibitors after 3 h of incubation in MDA-MB-231 cells, whereas nystatin and chlorpromazine as endocytosis inhibitors slightly reduced the uptake of GFP in the presence of [DipR]5 after 3 h of incubation in MDA-MB-231. [WR]9 was able to deliver therapeutically relevant proteins (Histone H2A) at different concentrations. These results provide insight into the use of amphiphilic cyclic peptides in the delivery of protein-related therapeutics.

Published
2023
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5. Hybrid Cyclic-Linear Cell-Penetrating Peptides Containing Alternative Positively Charged and Hydrophobic Residues as Molecular Transporters

Author

Sorour Khayyatnejad Shoushtari, Keykavous Parang, Rakesh Tiwari, Khalid Zoghebi, and Muhammad Imran Sajid

Subjects
Pharmaceutical Science, Peptide, Cell-Penetrating Peptides, Endocytosis, Peptides, Cyclic, Cell membrane, chemistry.chemical_compound, Drug Delivery Systems, Cell Line, Tumor, Drug Discovery, medicine, Peptide synthesis, Emtricitabine, Humans, Fluorescent Dyes, chemistry.chemical_classification, Molecular Structure, Cell sorting, Molecular biology, Amino acid, Stavudine, HEK293 Cells, medicine.anatomical_structure, chemistry, Lamivudine, Cell-penetrating peptide, Molecular Medicine, Hydrophobic and Hydrophilic Interactions, Intracellular
Abstract

The cell membrane properties create a significant obstacle in intracellular delivery of cell-impermeable and negatively charged molecules. Herein, we report the synthesis and biological evaluation of a novel series of hybrid cyclic-linear peptides containing alternative positive and hydrophobic amino acids on the ring and side chain [(RW)5]K(RW)X (X = 1-5) to compare their molecular transporter efficiency. The peptides were synthesized through Fmoc solid-phase peptide synthesis. In vitro cytotoxicity of the peptides showed that the peptides did not exhibit any significant cytotoxicity at the concentration of 10 μM in human leukemia carcinoma cell line (CCRF-CEM), human ovarian adenocarcinoma cells (SK-OV-3), human epithelial embryonic kidney healthy (HEK-293), and human epithelial mammary gland adenocarcinoma cells (MDA-MB-231) after 3 h incubation. The cellular uptake of a fluorescence-labeled phosphopeptide (F'-GpYEEI) and anti-human immunodeficiency virus (HIV) drugs (lamivudine (F'-3TC), emtricitabine (F'-FTC), Stavudine (F'-d4T)), where F' is carboxyfluorescein, was measured in the presence of the peptides in CCRF-CEM and SK-OV-3 cells. Among all peptides, [(RW)5K](RW)5 (10 μM) was the most efficient transporter that improved the cellular uptake of F'-GpYEEI (2 μM) by 18- and 11-fold in CCRF-CEM and SK-OV-3, respectively, compared with F'-GpYEEI alone. Fluorescence-activated cell sorting (FACS) analysis results indicated that the cellular uptake of fluorescence-labeled peptide (F'-[(RW)5K](RW)5) was only partially inhibited by chlorpromazine as an endocytosis inhibitor after 3 h incubation in MDA-MB-231 cells. These data suggest the potential of this series of hybrid cyclic-linear peptides as cell-penetrating peptides and molecular transporters.

Published
2021

8. Subtype-Selective Positive Modulation of K

Author

Young-Woo, Nam, Rajasekharreddy, Pala, Naglaa Salem, El-Sayed, Denisse, Larin-Henriquez, Farideh, Amirrad, Grace, Yang, Mohammad Asikur, Rahman, Razan, Orfali, Myles, Downey, Keykavous, Parang, Surya M, Nauli, and Miao, Zhang

Subjects
Vasodilation, Small-Conductance Calcium-Activated Potassium Channels, Animals, Endothelial Cells, Humans, Cilia, Intermediate-Conductance Calcium-Activated Potassium Channels, Rats
Abstract

Small-conductance Ca

Published
2022

9. Synthesis and Evaluation of Anti-HIV Activity of Mono- and Di-Substituted Phosphonamidate Conjugates of Tenofovir

Author

Aaminat Qureshi, Louise A. Ouattara, Naglaa Salem El-Sayed, Amita Verma, Gustavo F. Doncel, Muhammad Iqbal Choudhary, Hina Siddiqui, and Keykavous Parang

Subjects
Alanine, Anti-HIV Agents, Nucleotides, Organic Chemistry, Pharmaceutical Science, Esters, HIV Infections, Naphthols, Amides, Analytical Chemistry, Chemistry (miscellaneous), Drug Discovery, HIV-1, Molecular Medicine, Humans, anti-HIV activity, ester conjugates of TFV, phosphonamidate, tenofovir (TFV), tenofovir alafenamide (TAF), Physical and Theoretical Chemistry, Tenofovir, Oleic Acid
Abstract

The activity of nucleoside and nucleotide analogs as antiviral agents requires phosphorylation by endogenous enzymes. Phosphate-substituted analogs have low bioavailability due to the presence of ionizable negatively-charged groups. To circumvent these limitations, several prodrug approaches have been proposed. Herein, we hypothesized that the conjugation or combination of the lipophilic amide bond with nucleotide-based tenofovir (TFV) (1) could improve the anti-HIV activity. During the current study, the hydroxyl group of phosphonates in TFV was conjugated with the amino group of L-alanine, L-leucine, L-valine, and glycine amino acids and other long fatty ester hydrocarbon chains to synthesize 43 derivatives. Several classes of derivatives were synthesized. The synthesized compounds were characterized by 1H NMR, IR, UV, and mass spectrometry. In addition, several of the synthesized compounds were evaluated as racemic mixtures for anti-HIV activity in vitro in a single round infection assay using TZM-bl cells at 100 ng/mL. TFV (1) was used as a positive control and inhibited HIV infection by 35%. Among all the evaluated compounds, the disubstituted heptanolyl ester alanine phosphonamidate with naphthol oleate (69), pentanolyl ester alanine phosphonamidate with phenol oleate (62), and butanolyl ester alanine phosphonamidate with naphthol oleate (87) ester conjugates of TFV were more potent than parent drug TFV with 79.0%, 76.5%, 71.5% inhibition, respectively, at 100 ng/mL. Furthermore, two fatty acyl amide conjugates of tenofovir alafenamide (TAF) were synthesized and evaluated for comparative studies with TAF and TFV conjugates. Tetradecanoyl TAF conjugate 95 inhibited HIV infection by 99.6% at 100 ng/mL and showed comparable activity to TAF (97–99% inhibition) at 10–100 ng/mL but was more potent than TAF when compared at molar concentration.

Published
2022

10. Synthesis and Biological Evaluation of 5'

Author

Hitesh K, Agarwal, Bhupender S, Chhikara, Guofeng, Ye, Sitaram, Bhavaraju, Ajay, Dixit, Anil, Kumar, Gustavo F, Doncel, and Keykavous, Parang

Subjects
Anti-HIV Agents, Fatty Acids, HIV-1, Esters, Dideoxynucleosides, Cell Line
Abstract

A number of 5'

Published
2022

11. Redox-Responsive Disulfide Cyclic Peptides: A New Strategy for siRNA Delivery

Author

Dindyal Mandal, Eman H. M. Mohammed, Sandeep Lohan, Parvin Mandipoor, Darius Baradaran, Rakesh K. Tiwari, Keykavous Parang, and Hamidreza Montazeri Aliabadi

Subjects
Cell Line, Tumor, Drug Discovery, Pharmaceutical Science, Molecular Medicine, Humans, RNA Interference, Disulfides, Gene Silencing, RNA, Small Interfering, Peptides, Oxidation-Reduction, Peptides, Cyclic
Abstract

RNA interference (RNAi) is a powerful tool capable of targeting virtually any protein without time-consuming and expensive drug development studies. However, due to obstacles facing efficient and safe delivery, RNAi-based therapeutic approach remains a challenge. Herein, we have designed and synthesized a number of disulfide-constraining cyclic and hybrid peptides using tryptophan and arginine residues. Our hypothesis was that peptide structures would undergo reduction by intracellular glutathione (more abundant in cancer cells) and unpack the small interfering RNA (siRNA) from the peptide/siRNA complexes. A subset of newly developed peptides (specifically

Published
2022

12. Bis-Cinnamamide Derivatives as APE/Ref-1 Inhibitors for the Treatment of Human Melanoma

Author

Razan Alhazmi, Shirley Tong, Shaban Darwish, Elina Khanjani, Bharti Khungar, Swati Chawla, Zhonghui Zheng, Richard Chamberlin, Keykavous Parang, and Sun Yang

Subjects
Organic Chemistry, Pharmaceutical Science, Hominidae, Hydrogen Peroxide, Analytical Chemistry, Mice, Chemistry (miscellaneous), APE/Ref-1, human melanoma, small molecular inhibitors, reactive oxygen species (ROS), redox regulation, Cinnamates, Drug Discovery, DNA-(Apurinic or Apyrimidinic Site) Lyase, Molecular Medicine, Animals, Humans, Physical and Theoretical Chemistry, Melanoma
Abstract

Human malignant melanoma exhibits imbalances in redox status, leading to activation of many redox-sensitive signaling pathways. APE/Ref-1 is a multifunctional protein that serves as a redox chaperone that regulates many nuclear transcription factors and is an important mechanism in cancer cell survival of oxidative stress. Previous studies showed that APE/Ref-1 is a potential druggable target for melanoma therapy. In this study, we synthesized a novel APE/Ref-1 inhibitor, bis-cinnamoyl-1,12-dodecamethylenediamine (2). In a xenograft mouse model, compound 2 treatment (5 mg/kg) significantly inhibited tumor growth compared to the control group, with no significant systemic toxicity observed. We further synthesized compound 2 analogs to determine the structure-activity relationship based on their anti-melanoma activities. Among those, 4-hydroxyphenyl derivative (11) exhibited potent anti-melanoma activities and improved water solubility compared to its parental compound 2. The IC50 of compound 11 was found to be less than 0.1 μM. Compared to other known APE/Ref-1 inhibitors, compound 11 exhibited increased potency in inhibiting melanoma proliferation. As determined by luciferase reporter analyses, compound 2 was shown to effectively inhibit H2O2-activated AP-1 transcription activities. Targeting APE/Ref-1-mediated signaling using pharmaceutical inhibitors is a novel and effective strategy for melanoma treatment with potentially high impact.

Published
2022

13. PEGylation and Cell-Penetrating Peptides: Glimpse into the Past and Prospects in the Future

Author

Rakesh Tiwari, Poonam, Rajender Singh Malik, Suresh Kumar, Pooja Kumari, Keykavous Parang, and Devender Singh

Subjects
Drug, Drug Compounding, media_common.quotation_subject, Drug target, Cell, Cell-Penetrating Peptides, 02 engineering and technology, Pharmacology, 010402 general chemistry, 01 natural sciences, Polyethylene Glycols, Drug Delivery Systems, Pharmacokinetics, Drug Discovery, medicine, Animals, Humans, media_common, Chemistry, Biological Transport, General Medicine, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Bioavailability, medicine.anatomical_structure, Drug delivery, PEGylation, 0210 nano-technology
Abstract

Several drug molecules have shown low bioavailability and pharmacokinetic profile due to metabolism by enzymes, excretion by the renal system, or due to other physiochemical properties of drug molecules. These problems have resulted in the loss of efficacy and the gain of side effects associated with drug molecules. PEGylation is one of the strategies to overcome these pharmacokinetic issues and has been successful in the clinic. Cell-penetrating Peptides (CPPs) help to deliver molecules across biological membranes and could be used to deliver cargo selectively to the intracellular site or to the drug target. Hence CPPs could be used to improve the efficacy and selectivity of the drug. However, due to the peptidic nature of CPPs, they have a low pharmacokinetic profile. Using PEGylation and CPPs together as a component of a drug delivery system, the and efficacy of drug molecules could be improved. The other important pharmacokinetic properties such as short half-life, solubility, stability, absorption, metabolism, and elimination could be also improved. Here in this review, we summarized PEGylated CPPs or PEGylation based formulations for CPPs used in a drug delivery system for several biomedical applications until August 2019.

Published
2020

14. Amphiphilic Cell-Penetrating Peptides Containing Natural and Unnatural Amino Acids as Drug Delivery Agents

Author

David Salehi, Saghar Mozaffari, Khalid Zoghebi, Sandeep Lohan, Dindyal Mandal, Rakesh K. Tiwari, and Keykavous Parang

Subjects
Phosphopeptides, Swine, Phenylalanine, General Medicine, Cell-Penetrating Peptides, Adenocarcinoma, HEK293 Cells, Cell Line, Tumor, Animals, Humans, Female, Amino Acids, RNA, Small Interfering, cell-penetrating peptide, cellular uptake, cyclic peptide, diphenylalanine, drug delivery system, siRNA
Abstract

A series of cyclic peptides, [(DipR)(WR)4], [(DipR)2(WR)3], [(DipR)3(WR)2], [(DipR)4(WR)], and [DipR]5, and their linear counterparts containing arginine (R) as positively charged residues and tryptophan (W) or diphenylalanine (Dip) as hydrophobic residues, were synthesized and evaluated for their molecular transporter efficiency. The in vitro cytotoxicity of the synthesized peptides was determined in human epithelial ovary adenocarcinoma cells (SK-OV-3), human lymphoblast peripheral blood cells (CCRF-CEM), human embryonic epithelial kidney healthy cells (HEK-293), human epithelial mammary gland adenocarcinoma cells (MDA-MB-468), pig epithelial kidney normal cells (LLC-PK1), and human epithelial fibroblast uterine sarcoma cells (MES-SA). A concentration of 5–10 µM and 3 h incubation were selected in uptake studies. The cellular uptake of a fluorescent-labeled phosphopeptide, stavudine, lamivudine, emtricitabine, and siRNA was determined in the presence of peptides via flow cytometry. Among the peptides, [DipR]5 (10 µM) was found to be the most efficient transporter and significantly improved the uptake of F’-GpYEEI, i.e., by approximately 130-fold after 3 h incubation in CCRF-CEM cells. Confocal microscopy further confirmed the improved delivery of fluorescent-labeled [DipR]5 (F’-[K(DipR)5]) alone and F’-GpYEEI in the presence of [DipR]5 in MDA-MB-231 cells. The uptake of fluorescent-labeled siRNA (F’-siRNA) in the presence of [DipR]5 with N/P ratios of 10 and 20 was found to be 30- and 50-fold higher, respectively, compared with the cells exposed to F’-siRNA alone. The presence of endocytosis inhibitors, i.e., nystatin, chlorpromazine, chloroquine, and methyl β-cyclodextrin, did not completely inhibit the cellular uptake of F’-[K(DipR)5] alone or F’-GpYEEI in the presence of [DipR]5, suggesting that a combination of mechanisms contributes to uptake. Circular dichroism was utilized to determine the secondary structure, while transmission electron microscopy was used to evaluate the particle sizes and morphology of the peptides. The data suggest the remarkable membrane transporter property of [DipR]5 for improving the delivery of various small molecules and cell-impermeable negatively charged molecules (e.g., siRNA and phosphopeptide).

Published
2022

15. Amphiphilic cyclic peptide [W

Author

Eman H M, Mohammed, Sandeep, Lohan, Rakesh K, Tiwari, and Keykavous, Parang

Subjects
Anti-Infective Agents, Gram-Negative Bacteria, Pseudomonas aeruginosa, Meropenem, Microbial Sensitivity Tests, Gram-Positive Bacteria, Peptides, Cyclic, Anti-Bacterial Agents
Abstract

Linear and cyclic amphiphilic peptides, (W

Published
2022

16. Small Amphiphilic Peptides: Activity Against a Broad Range of Drug-Resistant Bacteria and Structural Insight into Membranolytic Properties

Author

Sandeep Lohan, Dindyal Mandal, Wonsuk Choi, Anastasia G. Konshina, Rakesh K. Tiwari, Roman G. Efremov, Innokentiy Maslennikov, and Keykavous Parang

Subjects
Magnetic Resonance Spectroscopy, Bacteria, Cell Survival, Cell Membrane, Microbial Sensitivity Tests, Molecular Dynamics Simulation, Gram-Positive Bacteria, Hemolysis, Anti-Bacterial Agents, HEK293 Cells, Drug Design, Drug Discovery, Gram-Negative Bacteria, Molecular Medicine, Humans, Peptides, Antimicrobial Cationic Peptides
Abstract

We report the synthesis and antibacterial activities of a series of amphiphilic membrane-active peptides composed, in part, of various nongenetically coded hydrophobic amino acids. The lead cyclic peptides

Published
2022

17. [(WR)8WKβA]-Doxorubicin Conjugate: A Delivery System to Overcome Multi-Drug Resistance against Doxorubicin

Author

Rakesh Tiwari, Hamidreza Montazeri Aliabadi, Khalid A. Zoghebi, and Keykavous Parang

Subjects
carbohydrates (lipids), resistance, antiproliferative, Doxorubicin, QH301-705.5, polycyclic compounds, cancer, endocytosis, General Medicine, Biology (General)
Abstract

Doxorubicin (Dox) is an anthracycline chemotherapeutic agent used to treat breast, leukemia, and lymphoma malignancies. However, cardiotoxicity and inherent acquired resistance are major drawbacks, limiting its clinical application. We have previously shown that cyclic peptide [WR]9 containing alternate tryptophan (W) and arginine (R) residues acts as an efficient molecular transporter. An amphiphilic cyclic peptide containing a lysine (K) residue and alternative W and R was conjugated through a free side chain amino group with Dox via a glutarate linker to afford [(WR)8WKβA]-Dox conjugate. Antiproliferative assays were performed in different cancer cell lines using the conjugate and the corresponding physical mixture of the peptide and Dox to evaluate the effectiveness of synthesized conjugate compared to the parent drug alone. [(WR)8WKβA]-Dox conjugate showed higher antiproliferative activity at 10 µM and 5 µM than Dox alone at 5 μM. The conjugate inhibited the cell viability of ovarian adenocarcinoma (SK-OV-3) by 59% and the triple-negative breast cancer cells MDA-MB-231 and MCF-7 by 71% and 77%, respectively, at a concentration of 5 μM after 72 h of incubation. In contrast, Dox inhibited the proliferation of SK-OV-3, MDA-MB-231, and MCF-7 by 35%, 63%, and 57%, respectively. Furthermore, [(WR)8WKβA]-Dox conjugate (5 µM) inhibited the cell viability of Dox-resistant cells (MES-SA/MX2) by 92%, while the viability of cells incubated with free Dox was only 15% at 5 μM. Confocal microscopy images confirmed the ability of both Dox conjugate and the physical mixture of the peptide with the drug to deliver Dox through an endocytosis-independent pathway, as the uptake was not inhibited in the presence of endocytosis inhibitors. The stability of Dox conjugate was observed at different time intervals using analytical HPLC when the conjugate was incubated with 25% human serum. Half-life (t1/2) for [(WR)8WKβA]-Dox conjugate was (∼6 h), and more than 80% of the conjugate was degraded at 12 h. The release of free Dox was assessed intracellularly using the CCRF-CEM cell line. The experiment demonstrated that approximately 100% of free Dox was released from the conjugate intracellularly within 72 h. These data confirm the ability of the cyclic cell-penetrating peptide containing tryptophan and arginine residues as an efficient tool for delivery of Dox and for overcoming resistance to it.

Published
2022

18. Modified Linear Peptides Effectively Silence STAT-3 in Breast Cancer and Ovarian Cancer Cell Lines

Author

Dindyal Mandal, Sandeep Lohan, Muhammad Imran Sajid, Abdulelah Alhazza, Rakesh Kumar Tiwari, Keykavous Parang, and Hamidreza Montazeri Aliabadi

Subjects
SKOV-3, RNA interference, siRNA, MDA-MB-231, cancer, cholesterol, Pharmaceutical Science, STAT-3, PEG, peptide
Abstract

RNA interference (RNAi) has drawn enormous attention as a powerful tool because of its capability to interfere with mRNA and protein production. However, designing a safe and efficient delivery system in RNAi therapeutics remains challenging. Herein, we have designed and synthesized several linear peptides containing tryptophan (W) and arginine (R) residues separated by the β-alanine (βA) spacer and attached to a lipophilic fatty acyl chain, cholesterol, or PEG. The peptide backbone sequences were: Ac-C-βA-βA-W4-βA-βA-R4-CO-NH2 and Ac-K-βA-βA-W4-βA-βA-R4-CO-NH2, with only a difference in N-terminal amino acid. The cysteine side chain in the first sequence was used for the conjugation with PEG2000 and PEG550. Alternatively, the side chain of lysine in the second sequence was used for conjugation with cholesterol or oleic acid. We hypothesized that amphiphilic peptides and optimum fatty acyl chain or PEG could function as an effective siRNA carrier by complementing each structural component’s self-assembly and membrane internalization properties. None of the designed peptides showed cytotoxicity up to 10 µM. Serum stability studies suggested that the newly designed peptides efficiently protected siRNA against early degradation by nucleases. Flow cytometry analysis indicated 50–90% cellular uptake of siRNA using the newly developed modified linear peptides (MLPs). Western blot results revealed more than 90% protein downregulation after targeting STAT3 in MDA-MB-231 and SKOV-3 cell lines. In summary, a new peptide class was developed to safely and efficiently deliver siRNA.

Published
2023

19. Structure-Activity Relationship Study of Subtype-Selective Positive Modulators of K(Ca)2 Channels

Author

Naglaa Salem El-Sayed, Young-Woo Nam, Polina A. Egorova, Hai Minh Nguyen, Razan Orfali, Mohammad Asikur Rahman, Grace Yang, Heike Wulff, Ilya Bezprozvanny, Keykavous Parang, and Miao Zhang

Subjects
Male, Article, Disease Models, Animal, Mice, Potassium Channels, Calcium-Activated, Purkinje Cells, Structure-Activity Relationship, Pyrimidines, Cerebellum, Membrane Transport Modulators, Drug Discovery, Molecular Medicine, Animals, Spinocerebellar Ataxias, Female, Ion Channel Gating
Abstract

A series of modified N-cyclohexyl-2-(3,5-dimethyl-1H-pyrazol-1-yl)-6-methylpyrimidin-4-amine (CyPPA) analogs were synthesized by replacing the cyclohexane moiety with different 4-substituted cyclohexane rings, tyrosine analogs, or mono- and dihalophenyl rings, and were subsequently studied for their potentiation of K(Ca)2 channel activity. Among the N-benzene-N-[2-(3,5-dimethyl-pyrazol-1-yl)-6-methyl-4-pyrimidinamine derivatives, halogen decoration at positions 2 and 5 of benzene-substituted 4-pyrimidineamine in compound 2q conferred ~10-fold higher potency, while halogen substitution at positions 3 and 4 of benzene-substituted 4-pyrimidineamine in compound 2o conferred ~7-fold higher potency on potentiating K(Ca)2.2a channels, compared to the parent template CyPPA. Both compounds retained the K(Ca)2.2a/K(Ca)2.3 subtype selectivity. Based on the initial evaluation, compounds 2o and 2q were selected for testing in an electrophysiological model of spinocerebellar ataxia type 2 (SCA2). Both compounds were able to normalize abnormal firing of Purkinje cells in cerebellar slices from SCA2 mice, suggesting the potential therapeutic usefulness of these compounds for treating symptoms of ataxia.

Published
2021

20. [(WR)

Author

Khalid, Zoghebi, Hamidreza Montazeri, Aliabadi, Rakesh Kumar, Tiwari, and Keykavous, Parang

Subjects
Peptides, Cyclic, Endocytosis, Article, carbohydrates (lipids), resistance, Drug Liberation, Drug Delivery Systems, Doxorubicin, Drug Resistance, Neoplasm, antiproliferative, Cell Line, Tumor, polycyclic compounds, Humans, cancer, Cell Proliferation
Abstract

Doxorubicin (Dox) is an anthracycline chemotherapeutic agent used to treat breast, leukemia, and lymphoma malignancies. However, cardiotoxicity and inherent acquired resistance are major drawbacks, limiting its clinical application. We have previously shown that cyclic peptide [WR]9 containing alternate tryptophan (W) and arginine (R) residues acts as an efficient molecular transporter. An amphiphilic cyclic peptide containing a lysine (K) residue and alternative W and R was conjugated through a free side chain amino group with Dox via a glutarate linker to afford [(WR)8WKβA]-Dox conjugate. Antiproliferative assays were performed in different cancer cell lines using the conjugate and the corresponding physical mixture of the peptide and Dox to evaluate the effectiveness of synthesized conjugate compared to the parent drug alone. [(WR)8WKβA]-Dox conjugate showed higher antiproliferative activity at 10 µM and 5 µM than Dox alone at 5 μM. The conjugate inhibited the cell viability of ovarian adenocarcinoma (SK-OV-3) by 59% and the triple-negative breast cancer cells MDA-MB-231 and MCF-7 by 71% and 77%, respectively, at a concentration of 5 μM after 72 h of incubation. In contrast, Dox inhibited the proliferation of SK-OV-3, MDA-MB-231, and MCF-7 by 35%, 63%, and 57%, respectively. Furthermore, [(WR)8WKβA]-Dox conjugate (5 µM) inhibited the cell viability of Dox-resistant cells (MES-SA/MX2) by 92%, while the viability of cells incubated with free Dox was only 15% at 5 μM. Confocal microscopy images confirmed the ability of both Dox conjugate and the physical mixture of the peptide with the drug to deliver Dox through an endocytosis-independent pathway, as the uptake was not inhibited in the presence of endocytosis inhibitors. The stability of Dox conjugate was observed at different time intervals using analytical HPLC when the conjugate was incubated with 25% human serum. Half-life (t1/2) for [(WR)8WKβA]-Dox conjugate was (∼6 h), and more than 80% of the conjugate was degraded at 12 h. The release of free Dox was assessed intracellularly using the CCRF-CEM cell line. The experiment demonstrated that approximately 100% of free Dox was released from the conjugate intracellularly within 72 h. These data confirm the ability of the cyclic cell-penetrating peptide containing tryptophan and arginine residues as an efficient tool for delivery of Dox and for overcoming resistance to it.

Published
2021

21. Cyclic Peptide-Gadolinium Nanocomplexes as siRNA Delivery Tools

Author

Joshua Long, Muhammad Imran Sajid, Stephanie Nagasawa, Dindyal Mandal, Rakesh Tiwari, Sandeep Lohan, David Stickley, Keykavous Parang, and Amir Nasrolahi Shirazi

Subjects
chemistry.chemical_classification, Arginine, Pharmaceutical Science, Peptide, cyclic peptides, Transfection, gadolinium nanoparticles, Cell sorting, Molecular biology, Article, Cyclic peptide, Amino acid, RS1-441, Pharmacy and materia medica, chemistry, intracellular transportation, siRNA delivery systems, Drug Discovery, Molecular Medicine, Medicine, nanocomplexes, Viability assay, Cytotoxicity
Abstract

We have recently reported that a cyclic peptide containing five tryptophan, five arginine, and one cysteine amino acids [(WR)5C], was able to produce peptide-capped gadolinium nanoparticles, [(WR)5C]-GdNPs, in the range of 240 to 260 nm upon mixing with an aqueous solution of GdCl3. Herein, we report [(WR)5C]-GdNPs as an efficient siRNA delivery system. The peptide-based gadolinium nanoparticles (50 µM) did not exhibit significant cytotoxicity (~93% cell viability at 50 µM) in human leukemia T lymphoblast cells (CCRF-CEM) and triple-negative breast cancer cells (MDA-MB-231) after 48 h. Fluorescence-activated cell sorting (FACS) analysis indicated that the cellular uptakes of Alexa-488-labeled siRNA were found to be enhanced by more than 10 folds in the presence of [(WR)5C]-GdNPs compared with siRNA alone in CCRF-CEM and MDA-MB-231 cells after 6 h of incubation at 37 °C. The gene silencing efficacy of the nanoparticles was determined via the western blot technique using an over-expressed gene, STAT-3 protein, in MDA-MB-231 cells. The results showed ~62% reduction of STAT-3 was observed in MDA-MB-231 with [(WR)5C]-GdNPs at N/P 40. The integrity of the cellular membrane of CCRF-CEM cells was found to be intact when incubated with [(WR)5C]-Gd nanoparticles (50 µM) for 2 h. Confocal microscopy reveals higher internalization of siRNA in MDA-MB-231 cells using [(WR)5C]-GdNPs at N/P 40. These results provided insight about the use of the [(WR)5C]-GdNPs complex as a potent intracellular siRNA transporter that could be a nontoxic choice to be used as a transfection agent for nucleic-acid-based therapeutics.

Published
2021

22. Cyclic Dipeptides: The Biological and Structural Landscape with Special Focus on the Anti-Cancer Proline-Based Scaffold

Author

Maha AlKhazindar, Shaima Ahmed El-Mowafi, Joanna Bojarska, Eman H M Mohammed, Ahmed O. Shalash, Istvan Toth, Zyta M. Ziora, Sherif M. Elnagdy, Mariusz Skwarczynski, Adam Mieczkowski, Keykavous Parang, and Wojciech M. Wolf

Subjects
Scaffold, supramolecular structuring, Proline, Supramolecular chemistry, Review, Computational biology, proline-based DKPs, Peptides, Cyclic, Biochemistry, Microbiology, drug discovery, Neoplasms, Humans, Molecular Biology, Diketopiperazines, Cell permeability, Drug discovery, Chemistry, Dipeptides, diketopiperazines, QR1-502, High resistance, cyclic dipeptides, privileged scaffold, Enzyme degradation
Abstract

Cyclic dipeptides, also know as diketopiperazines (DKP), the simplest cyclic forms of peptides widespread in nature, are unsurpassed in their structural and bio-functional diversity. DKPs, especially those containing proline, due to their unique features such as, inter alia, extra-rigid conformation, high resistance to enzyme degradation, increased cell permeability, and expandable ability to bind a diverse of targets with better affinity, have emerged in the last years as biologically pre-validated platforms for the drug discovery. Recent advances have revealed their enormous potential in the development of next-generation theranostics, smart delivery systems, and biomaterials. Here, we present an updated review on the biological and structural profile of these appealing biomolecules, with a particular emphasis on those with anticancer properties, since cancers are the main cause of death all over the world. Additionally, we provide a consideration on supramolecular structuring and synthons, based on the proline-based DKP privileged scaffold, for inspiration in the design of compound libraries in search of ideal ligands, innovative self-assembled nanomaterials, and bio-functional architectures.

Published
2021

23. Synthesis, characterization, and cytotoxicity evaluation of dextran-myristoyl-ECGKRK peptide conjugate

Author

Rakesh Tiwari, Muhammad Imran Sajid, Keykavous Parang, and Naglaa Salem El-Sayed

Subjects
Cell Survival, Peptide, Breast Neoplasms, Triple Negative Breast Neoplasms, Biochemistry, chemistry.chemical_compound, Drug Delivery Systems, Structural Biology, Cell Line, Tumor, Spectroscopy, Fourier Transform Infrared, medicine, Humans, Viability assay, Cytotoxicity, Molecular Biology, Myristoylation, chemistry.chemical_classification, Chemistry, Cancer, Dextrans, General Medicine, medicine.disease, Dextran, HEK293 Cells, Drug delivery, MCF-7 Cells, Nanoparticles, Peptides, Conjugate
Abstract

CGKRK is a well-known tumor homing peptide with significant specificity for many types of cancer tissues. Herein, we describe the synthesis of a novel drug delivery system based on dextran decorated with myristoyl-ECGKRK peptide. The myristoylated peptide was synthesized and conjugated to dextran via an ester bond followed by purification. FT-IR and NMR confirmed the success of the conjugation reaction, while the surface morphology examination revealed that the conjugate has a characteristic porous network-like structure. Dynamic-light scattering measurements indicated the ability of the conjugate to self-assemble into nanoparticles with an average size of 248 ± 6.33 nm, and zeta potential of 10.7 mV. The cytotoxicity profiles for the peptide, dextran (Dex0), and dextran-peptide conjugate (Dex1) were evaluated against triple-negative breast cancer cells (MDA-MB-231), breast cancer cells (MCF-7), and human embryonic normal kidney cells (HEK-293). The results revealed that myristoyl-ECGKRK was noncytotoxic on the two different breast cancer cell lines up to 50 μM, but the cell viability was minimally reduced to 85% at 50 μm in HEK-293 cells. Similarly, Dex0 showed a neglected cytotoxicity profile at all tested concentrations. The Dex1 was not toxic to the cells up to a concentration of 8.3 mg/mL.

Published
2021

24. Design and application of hybrid cyclic-linear peptide-doxorubicin conjugates as a strategy to overcome doxorubicin resistance and toxicity

Author

Saghar Mozaffari, Rakesh Tiwari, Parvin Mahdipoor, Keykavous Parang, Hamidreza Montazeri Aliabadi, David Salehi, and Richard Beuttler

Subjects
macromolecular substances, Peptides, Cyclic, Cell Line, Structure-Activity Relationship, Drug Discovery, polycyclic compounds, medicine, Humans, Doxorubicin, Viability assay, Cytotoxicity, Cell Proliferation, Pharmacology, Cardiotoxicity, Antibiotics, Antineoplastic, Dose-Response Relationship, Drug, Molecular Structure, Chemistry, Cell growth, organic chemicals, Organic Chemistry, technology, industry, and agriculture, General Medicine, Molecular biology, carbohydrates (lipids), Drug Resistance, Neoplasm, Drug Design, Cancer cell, Toxicity, Drug Screening Assays, Antitumor, Conjugate, medicine.drug
Abstract

Doxorubicin (Dox) is used for breast cancer, leukemia, and lymphoma treatment as an effective chemotherapeutic agent. However, Dox use is restricted due to inherent and acquired resistance and an 8-fold increase in the risk of potentially fatal cardiotoxicity. Hybrid cyclic-linear peptide [R5K]W7A and linear peptide R5KW7A were conjugated with Dox through a glutarate linker to afford [R5K]W7A-Dox and R5KW7A-Dox conjugates to generate Dox derivatives. Alternatively, [R5K]W7C was conjugated with Dox via a disulfide linker to generate [R5K]W7C-S-S-Dox conjugate, where S-S is a disulfide bond. Comparative antiproliferative assays between conjugates [R5K]W7A-Dox, [R5K]W7C-S-S-Dox, linear R5KW7A-Dox, the corresponding physical mixtures of the peptides, and Dox were performed in normal and cancer cells. [R5K]W7A-Dox conjugate was 2-fold more efficient than R5KW7A-Dox, and [R5K]W7C-S-S-Dox conjugates in inhibiting the cell proliferation of human leukemia cells (CCRF-CEM). Therefore, hybrid cyclic-linear [R5K]W7A-Dox conjugate was selected for further studies and inhibited the cell viability of CCRF-CEM (84%), ovarian adenocarcinoma (SK-OV-3, 39%), and gastric carcinoma (AGS, 73%) at a concentration of 5 μM after 72 h of incubation, which was comparable to Dox (5 μM) efficacy (CCRF-CEM (85%), SK-OV-3 (33%), and AGS (87%)). While [R5K]W7A-Dox had a significant effect on the viability of cancer cells, it exhibited minimal cytotoxicity to normal kidney (LLC-PK1, 5-7%) and heart cells (H9C2

Published
2021

25. Antibiotics-Peptide Conjugates Against Multidrug-resistant Bacterial Pathogens

Author

Akinwale Ajayi David, Keykavous Parang, Shang Eun Park, and Rakesh Tiwari

Subjects
Bacteria, medicine.drug_class, Topoisomerase, Antibiotics, Microbial Sensitivity Tests, General Medicine, Biology, biology.organism_classification, medicine.disease, 01 natural sciences, Hemolysis, Anti-Bacterial Agents, 0104 chemical sciences, Microbiology, Multiple drug resistance, 010404 medicinal & biomolecular chemistry, Antibiotic resistance, Drug Resistance, Multiple, Bacterial, Drug Discovery, biology.protein, medicine, Efflux, Peptides, Cytotoxicity
Abstract

The menace of multi-drug resistance by bacterial pathogens that are responsible for infectious diseases in humans and animals cannot be over-emphasized. Many bacteria develop resistance to antibiotics by one or more combination of resistance mechanisms namely, efflux pump activation thereby reducing bacteria intracellular antibiotic concentration, synthesizing a protein that protects target site causing poor antibiotic affinity to the binding site, or mutations in DNA and topoisomerase gene coding that alters residues in the binding sites. The ability to use a combination of these resistance mechanisms among others creates a phenomenon known as antimicrobial drug resistance. The development of a new class of antibiotics to address bacterial resistance will require many resources, such as time-consuming effort and high cost associated with commercial risk. Hence, the researchers have adopted a strategic approach to enhance the antibacterial efficacy of existing antibiotics by conjugation or combination of existing antibiotics. A number of peptides have become known as antibacterial, cell-penetrating, or membrane-active agents. Antibiotics-Peptide Conjugates (APCs) are a combination of known antibiotics with a peptide connected through a linker. The rationale is to produce an alternative multifunctional antimicrobial compound that will elicit synergistic antibacterial activities while reducing known shortcomings of antibiotics or peptides, such as cellular penetration, serum instability, cytotoxicity, hemolysis, and instability in high salt conditions. In this review, we overview APCs which are used, as a strategy to combat the menace of multi-drug resistance of bacterial pathogens. Furthermore, we explain the focus area of adopted APC strategies and physicochemical properties data that show how they can be used to improve antibacterial efficacy.

Published
2019

26. Cyclic Peptides as Protein Kinase Inhibitors: Structure-Activity Relationship and Molecular Modeling

Author

Saghar Mozaffari, Samara E Hanna, Rakesh Tiwari, Michel F. Sanner, Simin Rahighi, Keykavous Parang, and Khalid Zoghebi

Subjects
Stereochemistry, General Chemical Engineering, Peptide, Library and Information Sciences, Molecular Dynamics Simulation, 01 natural sciences, Peptides, Cyclic, Article, src Homology Domains, Structure-Activity Relationship, 0103 physical sciences, Bruton's tyrosine kinase, Humans, Amino Acid Sequence, Kinase activity, Binding site, Protein kinase A, Protein Kinase Inhibitors, chemistry.chemical_classification, 010304 chemical physics, biology, Kinase, Cyclin-dependent kinase 2, General Chemistry, Cyclic peptide, 0104 chemical sciences, Computer Science Applications, 010404 medicinal & biomolecular chemistry, chemistry, biology.protein, Protein Binding
Abstract

Under-expression or over-expression of protein kinases has been shown to be associated with unregulated cell signal transduction in cancer cells. Therefore, there is a major interest in designing protein kinase inhibitors as anticancer agents. We have previously reported [WR](5), a peptide containing alternative arginine (R) and tryptophan (W) residues as a non-competitive c-Src tyrosine kinase inhibitor. A number of larger cyclic peptides containing alternative hydrophobic and positively charged residues [WR](x) (x = 6–9), and hybrid cyclic-linear peptides, [R(6)K]W(6) and [R(5)K]W(7), containing R and W residues were evaluated for their protein kinase inhibitory potency. Among all the peptides, cyclic peptide [WR](9) was found to be the most potent tyrosine kinase inhibitor. [WR](9) showed higher inhibitory activity (IC(50)= 0.21 μM) than [WR](5), [WR](6), [WR](7), and [WR](8) with IC(50) values of 0.81, 0.57, 0.35, and 0.33 μM, respectively, against Src kinase as determined by a radioactive assay using [γ-(33)P]ATP. Consistent with the result above, [WR](9) inhibited other protein kinases such as Abl kinase activity with an IC(50) value of 0.35 μM, showing 2.2-fold higher inhibition than [WR](5) (IC(50)= 0.79 μM). [WR](9) also inhibited PKCa kinase activity with an IC(50) value of 2.86 μM, approximately 3-fold higher inhibition than [WR](5) (IC(50)=8.52 μM). A similar pattern was observed against Braf, c-Src, Cdk2/Cyclin A1, and Lck. [WR](9) exhibited IC(50) values of

Published
2021

27. Suppression of Human Coronavirus 229E Infection in Lung Fibroblast Cells via RNA Interference

Author

Hamidreza Montazeri Aliabadi, Jennifer Totonchy, Parvin Mahdipoor, Keykavous Parang, and Hasan Uludağ

Subjects
0301 basic medicine, Small interfering RNA, RNA inteference, Human coronavirus 229E, lung fibroblast cell, coronavirus, 02 engineering and technology, TP1-1185, Biology, medicine.disease_cause, 03 medical and health sciences, RNA interference, Management of Technology and Innovation, medicine, Gene silencing, Viability assay, Coronavirus, Chemical technology, 021001 nanoscience & nanotechnology, biology.organism_classification, Virology, 030104 developmental biology, Cell culture, PLANA, delivery, 0210 nano-technology, Viral load
Abstract

Despite extensive efforts to repurpose approved drugs, discover new small molecules, and develop vaccines, COVID-19 pandemic is still claiming victims around the world. The current arsenal of antiviral compounds did not perform well in the past viral infections (e.g., SARS), which casts a shadow of doubt for use against the new SARS-CoV-2. Vaccines should offer the ultimate protection; however, there is limited information about the longevity of the generated immunity and the protection against possible mutations. This study uses Human Coronavirus 229E as a model coronavirus to test the hypothesis that effective delivery of virus-specific siRNAs to infected cells will result in lower viral load and reduced cell death. Two different categories of nucleic acid delivery systems, Peptide/Lipid-Associated Nucleic Acids (PLANAs) and lipophilic polymers, were investigated for their toxicity in human lung fibroblast cells and their ability to deliver specific siRNAs targeting Spike and Envelope proteins in order to prevent cell death in infected cells. Selected siRNAs were effectively delivered to human lung fibroblast cells with negligible toxicity. Cell death due to viral infection was significantly reduced with individual and combinatorial silencing of selected viral proteins. The combinatorial silencing of Spike and Envelope proteins restored the cell viability completely and eliminated plaques in the investigated system. Our cell culture data indicate promising results for the RNAi based approach as an alternative antiviral treatment.

Published
2021

28. Cytoplasmic synthesis of endogenous

Author

Shinichi, Fukuda, Akhil, Varshney, Benjamin J, Fowler, Shao-Bin, Wang, Siddharth, Narendran, Kameshwari, Ambati, Tetsuhiro, Yasuma, Joseph, Magagnoli, Hannah, Leung, Shuichiro, Hirahara, Yosuke, Nagasaka, Reo, Yasuma, Ivana, Apicella, Felipe, Pereira, Ryan D, Makin, Eamonn, Magner, Xinan, Liu, Jian, Sun, Mo, Wang, Kirstie, Baker, Kenneth M, Marion, Xiwen, Huang, Elmira, Baghdasaryan, Meenakshi, Ambati, Vidya L, Ambati, Akshat, Pandey, Lekha, Pandya, Tammy, Cummings, Daipayan, Banerjee, Peirong, Huang, Praveen, Yerramothu, Genrich V, Tolstonog, Ulrike, Held, Jennifer A, Erwin, Apua C M, Paquola, Joseph R, Herdy, Yuichiro, Ogura, Hiroko, Terasaki, Tetsuro, Oshika, Shaban, Darwish, Ramendra K, Singh, Saghar, Mozaffari, Deepak, Bhattarai, Kyung Bo, Kim, James W, Hardin, Charles L, Bennett, David R, Hinton, Timothy E, Hanson, Christian, Röver, Keykavous, Parang, Nagaraj, Kerur, Jinze, Liu, Brian C, Werner, S Scott, Sutton, Srinivas R, Sadda, Gerald G, Schumann, Bradley D, Gelfand, Fred H, Gage, and Jayakrishna, Ambati

Subjects
endocrine system, Cytoplasm, DNA, Complementary, Retroelements, Reverse Transcription, Biological Sciences, Epithelium, Macular Degeneration, Long Interspersed Nucleotide Elements, Alu Elements, hemic and lymphatic diseases, Animals, Humans, Retinal Pigments
Abstract

Alu retroelements propagate via retrotransposition by hijacking long interspersed nuclear element-1 (L1) reverse transcriptase (RT) and endonuclease activities. Reverse transcription of Alu RNA into complementary DNA (cDNA) is presumed to occur exclusively in the nucleus at the genomic integration site. Whether Alu cDNA is synthesized independently of genomic integration is unknown. Alu RNA promotes retinal pigmented epithelium (RPE) death in geographic atrophy, an untreatable type of age-related macular degeneration. We report that Alu RNA-induced RPE degeneration is mediated via cytoplasmic L1–reverse-transcribed Alu cDNA independently of retrotransposition. Alu RNA did not induce cDNA production or RPE degeneration in L1-inhibited animals or human cells. Alu reverse transcription can be initiated in the cytoplasm via self-priming of Alu RNA. In four health insurance databases, use of nucleoside RT inhibitors was associated with reduced risk of developing atrophic macular degeneration (pooled adjusted hazard ratio, 0.616; 95% confidence interval, 0.493–0.770), thus identifying inhibitors of this Alu replication cycle shunt as potential therapies for a major cause of blindness.

Published
2021

29. Cytoplasmic synthesis of endogenous Alu complementary DNA via reverse transcription and implications in age-related macular degeneration

Author

Vidya L. Ambati, Mo Wang, Kyung Bo Kim, Joseph R. Herdy, Siddharth Narendran, Yuichiro Ogura, Bradley D. Gelfand, Eamonn Magner, Jayakrishna Ambati, Apuã C. M. Paquola, Christian Röver, Benjamin J. Fowler, Timothy Hanson, Meenakshi Ambati, Lekha Pandya, Ramendra K. Singh, Yosuke Nagasaka, Kirstie Baker, Jian Sun, James W. Hardin, Jinze Liu, Reo Yasuma, Charles L. Bennett, Genrich V. Tolstonog, Deepak Bhattarai, Praveen Yerramothu, Akshat Pandey, Daipayan Banerjee, Tetsuro Oshika, Gerald G. Schumann, Xinan Liu, Srinivas R. Sadda, Kameshwari Ambati, Tammy H. Cummings, Shaban Darwish, Akhil Varshney, Keykavous Parang, Saghar Mozaffari, Ryan D. Makin, Peirong Huang, Kenneth M. Marion, Elmira Baghdasaryan, Shaobin Wang, Hannah Leung, Brian C. Werner, Jennifer A. Erwin, Nagaraj Kerur, Xiwen Huang, Hiroko Terasaki, Felipe Pereira, S Scott Sutton, Shuichiro Hirahara, David R. Hinton, Ulrike Held, Joseph Magagnoli, Shinichi Fukuda, Ivana Apicella, Fred H. Gage, and Tetsuhiro Yasuma

Subjects
0301 basic medicine, Multidisciplinary, biology, RNA, Endogeny, Retrotransposon, Macular degeneration, medicine.disease, Molecular biology, Reverse transcriptase, 3. Good health, 03 medical and health sciences, Endonuclease, 030104 developmental biology, 0302 clinical medicine, Cytoplasm, Complementary DNA, biology.protein, medicine, 030217 neurology & neurosurgery
Abstract

Significance Alu elements, comprising more than 10% of the human genome, propagate via retrotransposition. This genomic expansion requires enzymatic activity of L1 that reverse transcribes Alu RNA into Alu cDNA in the nucleus. We report Alu also undergoes L1-mediated reverse transcription via self-priming in the cytoplasm independent of retrotransposition, providing evidence of human DNA synthesis in this cellular compartment. This newly discovered shunt molecule in the Alu replication cycle also induces death of the retinal pigmented epithelium, a hallmark of atrophic age-related macular degeneration. A Big Data Archeology analysis of multiple health insurance databases reveals that use of FDA-approved nucleoside reverse transcriptase inhibitors is associated with protection against macular degeneration, identifying a repurposing candidate for this blinding disease.

Published
2021

30. Peptide/Lipid-Associated Nucleic Acids (PLANAs) as a Multicomponent siRNA Delivery System

Author

Saghar Mozaffari, Parvin Mahdipoor, Keykavous Parang, Hamidreza Montazeri Aliabadi, Abdulaziz Alasmari, and Ryley Hall

Subjects
Peptide Nucleic Acids, Small interfering RNA, Pharmaceutical Science, Peptide, 02 engineering and technology, 030226 pharmacology & pharmacy, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, In vivo, RNA interference, Phosphatidylcholine, Cell Line, Tumor, Drug Discovery, Gene silencing, Humans, Gene Silencing, RNA, Small Interfering, chemistry.chemical_classification, Chemistry, Gene Transfer Techniques, 021001 nanoscience & nanotechnology, Controlled release, Lipids, Nucleic acid, Biophysics, Molecular Medicine, Nanoparticles, RNA Interference, 0210 nano-technology, Peptides
Abstract

RNAi is a biological process that utilizes small interfering RNA (siRNA) to prevent the translation of mRNA to protein. This mechanism could be beneficial in preventing the overexpression of proteins in cancer. However, the cellular delivery of siRNA has proven to be challenging due to its inherent negative charge and relative instability. Here, we designed a multicomponent delivery system composed of a specifically designed peptide (linear or cyclic fatty acyl peptide conjugates and hybrid cyclic/linear peptides) and several lipids (DOTAP, DOPE, cholesterol, and phosphatidylcholine) to form a nanoparticle, which we have termed as peptide lipid-associated nucleic acids (PLANAs). Five formulations were prepared (a formulation with no peptide, which was named lipid-associated nucleic acid or LANA, and PLANA formulations A-D) using a mini extruder to form uniform nanoparticles around 100 nm in size with a slightly positive charge (less than +10 mv). Formulations were evaluated for peptide incorporation, siRNA encapsulation efficiency, release profile, toxicity, cellular uptake, and protein silencing. Our experiments showed effective encapsulation of siRNA (>95%), a controlled release profile, and negligible toxicity in formulations that did not contain a positively charged lipid. The results also revealed that PLANAs C and D exhibited optimum cellular uptake (with 80-90% siRNA-positive cells for most of the formulations). PLANA D formulation was selected to silence two model proteins (Src and RPS6KA5) in the triple-negative human breast cancer cell line MDA-MB-231, with promising silencing efficiency, which diminished the expression of RPS6KA5 and Src to approximately 29 and 38% compared to naive cells, respectively. Many approaches have been investigated for safe and efficient delivery of nucleic acids in the last 20 years; however, many have failed due to the multifaceted challenges to overcome. Our results show a promising potential for a multicomponent design that incorporates different components for a variety of delivery tasks, which warrants further investigation of PLANAs in vivo.

Published
2021

31. A Global Review on Short Peptides: Frontiers and Perspectives

Author

Yefeng Tang, Taku Yoshiya, Sherif M. Elnagdy, Michele Saviano, Milan Remko, Joanna Bojarska, John Matsoukas, Roger New, Krzysztof Kaczmarek, Piotr Zielenkiewicz, Octavio Paredes Lopez, Hamideh Parhiz, Vasso Apostolopoulos, Konstantinos Kelaidonis, Wojciech M. Wolf, Elham Mousavinezhad Sarasia, Tsun-Thai Chai, Conrad O. Perera, Janusz Zabrocki, Istvan Toth, Mónica Pickholz, Maha AlKhazindar, Vanessa Barriga, Keykavous Parang, and Mariusz Skwarczynski

Subjects
cell-penetrating peptides, short peptides, synthesis, Computer science, Lipid Bilayers, Pharmaceutical Science, Peptide, Review, cosmeceuticals, 01 natural sciences, Analytical Chemistry, Anti-Infective Agents, Drug Discovery, Amino Acids, chemistry.chemical_classification, 0303 health sciences, Stem Cells, Gene Transfer Techniques, diketopiperazine, vaccines, peptide, Chemistry (miscellaneous), Vaccines, Subunit, Molecular Medicine, altered peptide ligands, 2019-20 coronavirus outbreak, drug design and drug/gene delivery, Coronavirus disease 2019 (COVID-19), Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Aptamer, In silico, aptamers, SARS-COV-2, Computational biology, ant/super/agonists, Antiviral Agents, lcsh:QD241-441, bilayer interactions, 03 medical and health sciences, lcsh:Organic chemistry, constrained amino acids and peptide (bio)mimetics, Humans, cancer, Computer Simulation, Physical and Theoretical Chemistry, Peptide ligand, 030304 developmental biology, 010405 organic chemistry, Organic Chemistry, Balance disorders, Nanostructures, COVID-19 Drug Treatment, 0104 chemical sciences, Lactoferrin, chemistry, Dietary Supplements, Peptides
Abstract

Peptides are fragments of proteins that carry out biological functions. They act as signaling entities via all domains of life and interfere with protein-protein interactions, which are indispensable in bio-processes. Short peptides include fundamental molecular information for a prelude to the symphony of life. They have aroused considerable interest due to their unique features and great promise in innovative bio-therapies. This work focusing on the current state-of-the-art short peptide-based therapeutical developments is the first global review written by researchers from all continents, as a celebration of 100 years of peptide therapeutics since the commencement of insulin therapy in the 1920s. Peptide “drugs” initially played only the role of hormone analogs to balance disorders. Nowadays, they achieve numerous biomedical tasks, can cross membranes, or reach intracellular targets. The role of peptides in bio-processes can hardly be mimicked by other chemical substances. The article is divided into independent sections, which are related to either the progress in short peptide-based theranostics or the problems posing challenge to bio-medicine. In particular, the SWOT analysis of short peptides, their relevance in therapies of diverse diseases, improvements in (bio)synthesis platforms, advanced nano-supramolecular technologies, aptamers, altered peptide ligands and in silico methodologies to overcome peptide limitations, modern smart bio-functional materials, vaccines, and drug/gene-targeted delivery systems are discussed.

Published
2021

32. Synthesis and Biological Evaluation of 5′-O-Fatty Acyl Ester Derivatives of 3′-Fluoro-2′,3′-dideoxythymidine as Potential Anti-HIV Microbicides

Author

Hitesh K. Agarwal, Bhupender S. Chhikara, Guofeng Ye, Sitaram Bhavaraju, Ajay Dixit, Anil Kumar, Gustavo F. Doncel, and Keykavous Parang

Subjects
Chemistry (miscellaneous), Organic Chemistry, Drug Discovery, Molecular Medicine, Pharmaceutical Science, Physical and Theoretical Chemistry, Analytical Chemistry
Abstract

A number of 5′-O-fatty acyl derivatives of 3′-fluoro-2′,3′-dideoxythymidine (FLT, 1) were synthesized. These conjugates were evaluated for their potential as topical microbicides with anti-HIV activity against cell-free (X4 and R5), cell-associated, and multidrug-resistant viruses. Compared to FLT and 3′-azido-2′,3′-dideoxythymidine (AZT), 5′-O-(12-azidododecanoyl) (5), 5′-O-myristoyl (6), and 5′-O-(12-thioethyldodecanoyl) (8) derivatives of FLT were found to be more active against both cell-free viruses (lymphocytotropic and monocytotropic strains) with EC50 values of 0.4 μM, 1.1 μM, and 4 and >30 times better antiviral index than FLT and AZT, respectively. Conjugates 5 and 8 were significantly more potent than FLT against many multidrug-resistant strains. A comparison of the anti-HIV activity with the corresponding non-hydrolyzable ether conjugates suggested that ester hydrolysis to FLT and fatty acids is critical to enable anti-HIV activity. Cellular uptake studies were conducted using fluorescent derivatives of FLT attached with 5(6)-carboxyfluorescein through either β-alanine (23) or 12-aminododecanoic acid (24) spacers. The lipophilic fluorescent analog with a long chain (24) showed more than 12 times higher cellular uptake profile than the fluorescent analog with a short chain (23). These studies further confirmed that the attachment of fatty acids improved the cellular uptake of nucleoside conjugates. In addition, 5, 6, and 8 were the least cytotoxic and did not alter vaginal cell and sperm viability compared to the positive control, a commercial topical spermicide (N-9), which significantly decreased sperm and vaginal cell viability inducing the generation of proinflammatory cytokines.

Published
2022

34. Hydrophobic interactions between the HA helix and S4‐S5 linker modulate apparent Ca 2+ sensitivity of SK2 channels

Author

Adam Viegas, Khalid Zoghebi, Simin Rahighi, Keykavous Parang, Razan Orfali, Meng Cui, Young-Woo Nam, Misa Nguyen, Miao Zhang, and Eman H M Mohammed

Subjects
0301 basic medicine, Calmodulin, biology, Physiology, Chemistry, Mutant, Mutagenesis, 030204 cardiovascular system & hematology, Hydrophobic effect, 03 medical and health sciences, Electrophysiology, 030104 developmental biology, 0302 clinical medicine, Helix, biology.protein, Biophysics, Linker, Intracellular
Abstract

Aim Small-conductance Ca2+ -activated potassium (SK) channels are activated exclusively by increases in intracellular Ca2+ that binds to calmodulin constitutively associated with the channel. Wild-type SK2 channels are activated by Ca2+ with an EC50 value of ~0.3 μmol/L. Here, we investigate hydrophobic interactions between the HA helix and the S4-S5 linker as a major determinant of channel apparent Ca2+ sensitivity. Methods Site-directed mutagenesis, electrophysiological recordings and molecular dynamic (MD) simulations were utilized. Results Mutations that decrease hydrophobicity at the HA-S4-S5 interface lead to Ca2+ hyposensitivity of SK2 channels. Mutations that increase hydrophobicity result in hypersensitivity to Ca2+ . The Ca2+ hypersensitivity of the V407F mutant relies on the interaction of the cognate phenylalanine with the S4-S5 linker in the SK2 channel. Replacing the S4-S5 linker of the SK2 channel with the S4-S5 linker of the SK4 channel results in loss of the hypersensitivity caused by V407F. This difference between the S4-S5 linkers of SK2 and SK4 channels can be partially attributed to I295 equivalent to a valine in the SK4 channel. A N293A mutation in the S4-S5 linker also increases hydrophobicity at the HA-S4-S5 interface and elevates the channel apparent Ca2+ sensitivity. The double N293A/V407F mutations generate a highly Ca2+ sensitive channel, with an EC50 of 0.02 μmol/L. The MD simulations of this double-mutant channel revealed a larger channel cytoplasmic gate. Conclusion The electrophysiological data and MD simulations collectively suggest a crucial role of the interactions between the HA helix and S4-S5 linker in the apparent Ca2+ sensitivity of SK2 channels.

Published
2020

35. Click-Free Synthesis of a Multivalent Tricyclic Peptide as a Molecular Transporter

Author

Saghar Mozaffari, Rakesh Tiwari, Dindyal Mandal, Keykavous Parang, Sumit Kumar, and Shaima Ahmed El-Mowafi

Subjects
phosphopeptide, Stereochemistry, MDA-MB-231, Pharmaceutical Science, lcsh:RS1-441, Peptide, tricyclic, Conjugated system, 010402 general chemistry, 01 natural sciences, Article, cyclic peptide, lcsh:Pharmacy and materia medica, antibacterial activity, Peptide bond, chemistry.chemical_classification, 010405 organic chemistry, Phosphopeptide, cellular uptake, Cyclic peptide, 0104 chemical sciences, chemistry, siRNA, Drug delivery, drug delivery, Cell-penetrating peptide, cytotoxicity, cell-penetrating peptide, Tricyclic
Abstract

The cellular delivery of cell-impermeable and water-insoluble molecules remains an ongoing challenge to overcome. Previously, we reported amphipathic cyclic peptides c[WR]4 and c[WR]5 consisting of alternate arginine and tryptophan residues as nuclear-targeting molecular transporters. These peptides contain an optimal balance of positive charge and hydrophobicity, which is required for interactions with the phospholipid bilayer to facilitate their application as a drug delivery system. To further optimize them, we synthesized and evaluated a multivalent tricyclic peptide as an efficient molecular transporter. The monomeric cyclic peptide building blocks were synthesized using Fmoc/tBu solid-phase chemistry and cyclization in the solution and conjugated with each other through an amide bond to afford the tricyclic peptide, which demonstrated modest antibacterial activity against methicillin-resistant Staphylococcus aureus (MRSA), Klebsiella pneumoniae, Pseudomonas aeruginosa, and Escherichia coli (E. coli) with a minimum inhibitory concentration (MIC) of 64&ndash, 128 &micro, g/mL. The tricyclic peptide was found to be nontoxic up to 30 &micro, M in the breast cancer cell lines (MDA-MB-231). The presence of tricyclic peptide enhanced cellular uptakes of fluorescently-labeled phosphopeptide (F&rsquo, GpYEEI, 18-fold), anti-HIV drugs (lamivudine (F&rsquo, 3TC), emtricitabine (F&rsquo, FTC), and stavudine (F&rsquo, d4T), 1.7&ndash, 12-fold), and siRNA (3.3-fold) in the MDA-MB-231 cell lines.

Published
2020

36. Comparative Molecular Transporter Properties of Cyclic Peptides Containing Tryptophan and Arginine Residues Formed through Disulfide Cyclization

Author

Dindyal Mandal, Rakesh Tiwari, Magdy A. H. Zahran, Keykavous Parang, Eman H M Mohammed, Amany Mostafa Osman, and Saghar Mozaffari

Subjects
Arginine, phosphopeptide, Stereochemistry, Cell Survival, Pharmaceutical Science, Cell-Penetrating Peptides, 01 natural sciences, Article, Analytical Chemistry, lcsh:QD241-441, 03 medical and health sciences, chemistry.chemical_compound, Drug Delivery Systems, lcsh:Organic chemistry, Cell Line, Tumor, Drug Discovery, Peptide synthesis, Humans, cancer, Disulfides, Physical and Theoretical Chemistry, Cytotoxicity, 030304 developmental biology, Cell Proliferation, chemistry.chemical_classification, 0303 health sciences, Molecular Structure, 010405 organic chemistry, Phosphopeptide, Organic Chemistry, disulfide bridge, Tryptophan, cellular uptake, Transporter, Cyclic peptide, 0104 chemical sciences, chemistry, Chemistry (miscellaneous), Cyclization, drug delivery, Cell-penetrating peptide, Molecular Medicine, cytotoxicity, cell-penetrating peptide
Abstract

We have previously reported cyclic cell-penetrating peptides [WR]5 and [WR]4 as molecular transporters. To optimize further the utility of our developed peptides for targeted therapy in cancer cells using the redox condition, we designed a new generation of peptides and evaluated their cytotoxicity as well as uptake behavior against different cancer cell lines. Thus, cyclic [C(WR)xC] and linear counterparts (C(WR)xC), where x = 4&ndash, 5, were synthesized using Fmoc/tBu solid-phase peptide synthesis, purified, and characterized. The compounds did not show any significant cytotoxicity (at 25 &micro, M) against ovarian (SK-OV-3), leukemia (CCRF-CEM), gastric adenocarcinoma (CRL-1739), breast carcinoma (MDA-MB-231), and normal kidney (LLCPK) cells after 24 and 72 h incubation. Both cyclic [C(WR)5C] and linear (C(WR)5C) demonstrated comparable molecular transporter properties versus [WR]5 in the delivery of a phosphopeptide (F&prime, GpYEEI) in CCRF-CEM cells. The uptake of F&prime, GpYEEI in the presence of 1,4-dithiothreitol (DTT) as the reducing agent was significantly improved in case of l(C(WR)5C), while it was not changed by [C(WR)5C]. Fluorescence microscopy also demonstrated a significant uptake of F&prime, GpYEEI in the presence of l(C(WR)5C). Cyclic [C(WR)5C] improved the uptake of the fluorescent-labeled anti-HIV drugs F&prime, d4T, F&prime, 3TC, and F&prime, FTC by 3.0&ndash, 4.9-fold. These data indicate that both [C(WR)5C] and linear (C(WR)5C) peptides can act as molecular transporters.

Published
2020

37. Hydrophobic interactions between the HA helix and S4-S5 linker modulate apparent Ca

Author

Young-Woo, Nam, Meng, Cui, Razan, Orfali, Adam, Viegas, Misa, Nguyen, Eman H M, Mohammed, Khalid A, Zoghebi, Simin, Rahighi, Keykavous, Parang, and Miao, Zhang

Subjects
Cytoplasm, Mutation, Hydrophobic and Hydrophilic Interactions
Abstract

Small-conductance CaSite-directed mutagenesis, electrophysiological recordings and molecular dynamic (MD) simulations were utilized.Mutations that decrease hydrophobicity at the HA-S4-S5 interface lead to CaThe electrophysiological data and MD simulations collectively suggest a crucial role of the interactions between the HA helix and S4-S5 linker in the apparent Ca

Published
2020

38. Phenylpyrazalopyrimidines as Tyrosine Kinase Inhibitors: Synthesis, Antiproliferative Activity, and Molecular Simulations

Author

Rakesh Tiwari, Bhupender S. Chhikara, Dindyal Mandal, Saghar Mozaffari, Keykavous Parang, Zaheer Ul-Haq, Nicole St. Jeans, and Sajda Ashraf

Subjects
antiproliferative activity, Chalcone, Molecular Conformation, Pharmaceutical Science, Antineoplastic Agents, Chemistry Techniques, Synthetic, Molecular Dynamics Simulation, 01 natural sciences, Article, molecular simulation, Analytical Chemistry, lcsh:QD241-441, 03 medical and health sciences, chemistry.chemical_compound, Structure-Activity Relationship, lcsh:Organic chemistry, Cell Line, Tumor, Drug Discovery, Bruton's tyrosine kinase, Humans, Physical and Theoretical Chemistry, Protein kinase A, IC50, Protein Kinase Inhibitors, enzyme inhibition, 030304 developmental biology, 0303 health sciences, biology, Dose-Response Relationship, Drug, Molecular Structure, 010405 organic chemistry, Chemistry, Kinase, Organic Chemistry, Cyclin-dependent kinase 2, protein kinase, Molecular biology, phenylpyrazolopyrimidine, 0104 chemical sciences, Enzyme Activation, Molecular Docking Simulation, Pyrimidines, src-Family Kinases, Chemistry (miscellaneous), biology.protein, Molecular Medicine, Tyrosine kinase, Proto-oncogene tyrosine-protein kinase Src
Abstract

N1-(&alpha, &beta, Alkene)-substituted phenylpyrazolopyrimidine derivatives with acetyl and functionalized phenyl groups at &alpha, and &beta, positions, respectively, were synthesized by the reaction of 3-phenylpyrazolopyrimidine (PhPP) with bromoacetone, followed by a chalcone reaction with differently substituted aromatic aldehydes. The Src kinase enzyme assay revealed modest inhibitory activity (half maximal inhibitory concentration, IC50 = 21.7&ndash, 192.1 &micro, M) by a number of PhPP derivatives. Antiproliferative activity of the compounds was evaluated on human leukemia (CCRF-CEM), human ovarian adenocarcinoma (SK-OV-3), breast carcinoma (MDA-MB-231), and colon adenocarcinoma (HT-29) cells in vitro. 4-Chlorophenyl carbo-enyl substituted 3-phenylpyrazolopyrimidine (10) inhibited the cell proliferation of HT-29 and SK-OV-3 by 90% and 79%, respectively, at a concentration of 50 &micro, M after 96 h incubation. The compound showed modest inhibitory activity against c-Src (IC50 = 60.4 &micro, M), Btk (IC50 = 90.5 &micro, M), and Lck (IC50 = 110 &micro, M), while it showed no activity against Abl1, Akt1, Alk, Braf, Cdk2, and PKCa. In combination with target selection and kinase profiling assay, extensive theoretical studies were carried out to explore the selectivity behavior of compound 10. Specific interactions were also explored by examining the changing trends of interactions of tyrosine kinases with the phenylpyrazolopyrimidine derivative. The results showed good agreement with the experimental selectivity pattern among c-Src, Btk, and Lck.

Published
2020
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39. A PDK-1 allosteric agonist neutralizes insulin signaling derangements and beta-amyloid toxicity in neuronal cells and in vitro

Author

Henry Querfurth, John Marshall, Keykavous Parang, Mengia S. Rioult-Pedotti, Rakesh Tiwari, Bumsup Kwon, Steve Reisinger, and Han-Kyu Lee

Subjects
Physiology, Alzheimer's Disease, Toxicology, Pathology and Laboratory Medicine, Biochemistry, Rats, Sprague-Dawley, Mice, Endocrinology, Medical Conditions, Antibiotics, Medicine and Health Sciences, Insulin, Post-Translational Modification, Phosphorylation, Materials, Neurons, Multidisciplinary, Antimicrobials, Drugs, Neurodegenerative Diseases, Neurology, Doxycycline, Physical Sciences, Medicine, Signal Transduction, Research Article, Science, Materials Science, Microbiology, 3-Phosphoinositide-Dependent Protein Kinases, Antimalarials, Allosteric Regulation, Alzheimer Disease, Cell Line, Tumor, Microbial Control, Mental Health and Psychiatry, Animals, Humans, Pentanoic Acids, Diabetic Endocrinology, Pharmacology, Amyloid beta-Peptides, Endocrine Physiology, Toxicity, Insulin Signaling, Biology and Life Sciences, Proteins, Hormones, Rats, Oligomers, Dementia, Insulin Resistance
Abstract

The Alzheimer’s brain is affected by multiple pathophysiological processes, which include a unique, organ-specific form of insulin resistance that begins early in its course. An additional complexity arises from the four-fold risk of Alzheimer’s Disease (AD) in type 2 diabetics, however there is no definitive proof of causation. Several strategies to improve brain insulin signaling have been proposed and some have been clinically tested. We report findings on a small allosteric molecule that reverses several indices of insulin insensitivity in both cell culture andin vitromodels of AD that emphasize the intracellular accumulation of β-amyloid (Aβi). PS48, a chlorophenyl pentenoic acid, is an allosteric activator of PDK-1, which is an Akt-kinase in the insulin/PI3K pathway. PS48 was active at 10 nM to 1 μM in restoring normal insulin-dependent Akt activation and in mitigating Aβi peptide toxicity. Synaptic plasticity (LTP) in prefrontal cortical slices from normal rat exposed to Aβ oligomers also benefited from PS48. During these experiments, neither overstimulation of PI3K/Akt signaling nor toxic effects on cells was observed. Another neurotoxicity model producing insulin insensitivity, utilizing palmitic acid, also responded to PS48 treatment, thus validating the target and indicating that its therapeutic potential may extend outside of β-amyloid reliance. The describedin vitroandcell based-in vitrocoupled enzymatic assay systems proved suitable platforms to screen a preliminary library of new analogs.

Published
2022

40. Comparative Molecular Transporter Efficiency of Cyclic Peptides Containing Tryptophan and Arginine Residues

Author

Rakesh Tiwari, Saghar Mozaffari, Samara E Hanna, and Keykavous Parang

Subjects
chemistry.chemical_classification, Arginine, 010405 organic chemistry, Phosphopeptide, Stereochemistry, General Chemical Engineering, Tryptophan, Transporter, General Chemistry, 030226 pharmacology & pharmacy, 01 natural sciences, Article, Cyclic peptide, 0104 chemical sciences, Amiloride, lcsh:Chemistry, 03 medical and health sciences, 0302 clinical medicine, chemistry, lcsh:QD1-999, medicine, Intracellular, Cellular localization, medicine.drug
Abstract

Cyclic peptides containing tryptophan (W) and arginine (R) residues, [WR]5, [WR]6, [WR]7, [WR]8, and [WR]9, were synthesized through Fmoc solid-phase chemistry to compare their molecular transporter efficiency. The in vitro cytotoxicity of the peptides was evaluated using human leukemia carcinoma cell line (CCRF-CEM) and normal kidney cell line (LLC-PK1). [WR]6, [WR]7, [WR]8, and [WR]9 were not significantly cytotoxic to LLC-PK1cells at a concentration of 10 μM after 3 h incubation. Among all the peptides, [WR]9 was found to be a more efficient transporter than [WR]5, [WR]6, [WR]7, and [WR]8 in CCRF-CEM cells for delivery of a cell-impermeable fluorescence-labeled negatively charged phosphopeptide (F′-GpYEEI). [WR]9 (10 μM) improved the cellular uptake of F′-GpYEEI (2 μM) by 20-fold. The cellular uptake of a fluorescent conjugate of [WR]9, F′-[W9R8K], was increased in a concentration- and time-dependent pattern in CCRF-CEM cells. The uptake of F′-[W9R8K] was slightly reduced in CCRF-CEM cells in the presence of different endocytic inhibitors, such as nystatin, 5-(N-ethyl-N-isopropyl)amiloride, chlorpromazine, chloroquine, and methyl β-cyclodextrin. Furthermore, the uptake of F′-[W9R8K] was shown to be temperature-dependent and slightly adenosine 5′-triphosphate-dependent. The intracellular/cellular localization (in the nucleus and cytoplasm) of F′-[W9R8K] was confirmed by fluorescent microscopy in CCRF-CEM cells. These studies suggest that large cyclic peptides containing arginine and tryptophan can be used as a molecular transporter of specific compounds.

Published
2018

41. Ferrocenylchalcone–uracil conjugates: synthesis and cytotoxic evaluation

Author

Vipan Kumar, Keykavous Parang, Amandeep Singh, Neda Sadeghiani, Vishu Mehra, and Saghar Mozaffari

Subjects
Chalcone, 010405 organic chemistry, Organic Chemistry, Uracil, 010402 general chemistry, medicine.disease, 01 natural sciences, In vitro, 0104 chemical sciences, chemistry.chemical_compound, Leukemia, chemistry, Cell culture, Cancer cell, Click chemistry, Cancer research, medicine, Cytotoxic T cell, General Pharmacology, Toxicology and Pharmaceutics
Abstract

Huisgen’s azide–alkyne cycloaddition reaction was employed to synthesize a series of 1H-1,2,3-triazole-tethered uracil–ferrocenyl chalcone conjugates with the aim of evaluating their in vitro anti-proliferative efficacy on human leukemia (CCRF-CEM) and human breast adenocarcinoma (MDA-MB-468) cell lines. Cytotoxic evaluation studies identified a number of synthesized conjugates that inhibited the proliferation of leukemia cancer cells by ~70% after 72 h. The selected synthesized conjugates were found to be significantly less cytotoxic against normal kidney cell line (LLC-PK1) when compared with CCRF-CEM cancer cells.

Published
2018

42. Cyclic peptide conjugate of curcumin and doxorubicin as an anticancer agent

Author

Rakesh Tiwari, Shaban Darwish, Keykavous Parang, and Saghar Mozaffari

Subjects
chemistry.chemical_classification, 010405 organic chemistry, Chemistry, Organic Chemistry, Cell, Peptide, Pharmacology, 01 natural sciences, Biochemistry, Cyclic peptide, 0104 chemical sciences, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine.anatomical_structure, Cell culture, 030220 oncology & carcinogenesis, Drug Discovery, Cancer cell, medicine, Curcumin, Doxorubicin, medicine.drug, Conjugate
Abstract

The hydrophobicity of curcumin creates hurdle towards its use in the anticancer therapy. Herein, we synthesized a curcumin-doxorubicin conjugated cyclic peptide scaffold to improve the solubility of curcumin and create a conjugate containing two anticancer agents. A solid-phase Fmoc/tBu solid phase methodology was used to synthesize a cell-penetrating nuclear targeting peptide with free thiol and amine groups, which was coupled with the activated doxorubicin (Dox) and curcumin, affording Dox-peptide-curcumin conjugate (DPCC) (10). The antiproliferative activity of the conjugate was evaluated in human leukemia carcinoma cell (CCRF-CEM), human ovarian carcinoma cell (SKOV-3), and normal kidney cell line (LLCPK). Cyclic peptide-doxorubicin conjugate (7) and DPCC (10) did not inhibit the proliferation of normal kidney LLCPK cells after 72 h incubation, but were cytotoxic in CCRF-CEM (73% and 41%, respectively) and SKOV-3 (55% and 30%, respectively) cells while Dox was cytotoxic (60–79%) in all three cell lines under similar conditions, suggesting selectivity of these compounds towards cancer cells.

Published
2017

43. Synthesis and antiviral activity of fatty acyl conjugates of remdesivir against severe acute respiratory syndrome coronavirus 2 and Ebola virus

Author

Jennifer Totonchy, Alexander S. Jureka, Sandeep Lohan, Rakesh Tiwari, Patrick T Keiser, Caroline G. Williams, Naglaa Salem El-Sayed, Robert A. Davey, Christopher F. Basler, Keykavous Parang, and Megan R. Edwards

Subjects
Remdesivir, medicine.disease_cause, Antiviral Agents, Article, Acylation, Ebola virus, Transcription (biology), Drug Discovery, medicine, Humans, Incubation, IC50, Pharmacology, Alanine, Chemistry, SARS-CoV-2, Organic Chemistry, Fatty Acids, COVID-19, General Medicine, Prodrug, Ebolavirus, Virology, Adenosine Monophosphate, Fatty acyl-RDV conjugates, Structure-activity relationships (SAR), Fatty acylation, Conjugate, EBOV
Abstract

We report here the synthesis, purification, and characterization of mono- and di-fatty acyl conjugates of remdesivir (RDV) and their in vitro antiviral activity against SAR-CoV-2, an Ebola virus transcription- and replication-competent virus-like particle (trVLP) system, and infectious Ebola virus. The most potent monofatty acyl conjugate was 4b, containing a 4-oxatetradecanolyl at the 3′ position. Monofatty acyl conjugates, 3′-O-tetradecanoyl (4a) (IC50(VeroE6) = 2.3 μM; IC50(Calu3) = 0.24 μM), 3′-O-4-oxatetradodecanoyl (4b) (IC50(VeroE6) = 2.0 μM; IC50(Calu3) = 0.18 μM), and 3′-O-(12-ethylthiododecanoyl) (4e) (IC50(VeroE6) = 2.4 μM; IC50(Calu3) = 0.25 μM) derivatives exhibited less activity than RDV (IC50(VeroE6) = 0.85 μM; IC50(Calu3) = 0.06 μM) in both VeroE6 and Calu3 cells. Difatty acylation led to a significant reduction in the antiviral activity of RDV (as shown in conjugates 5a and 5b) against SARS-CoV-2 when compared with monofatty acylation (3a-e and 4a-e). About 77.9% of 4c remained intact after 4 h incubation with human plasma while only 47% of parent RDV was observed at the 2 h time point. The results clearly indicate the effectiveness of fatty acylation to improve the half-life of RDV. The antiviral activities of a number of monofatty acyl conjugates of RDV, such as 3b, 3e, and 4b, were comparable with RDV against the Ebola trVLP system. Meanwhile, the corresponding physical mixtures of RDV and fatty acids 6a and 6b showed 1.6 to 2.2 times less antiviral activity than the corresponding conjugates, 4a and 4c, respectively, against SARS-CoV-2 in VeroE6 cells. A significant reduction in viral RNA synthesis was observed for selected compounds 3a and 4b consistent with the IC50 results. These studies indicate the potential of these compounds as long-acting antiviral agents or prodrugs of RDV., Graphical abstract Image 1

Published
2021

44. Difatty Acyl-Conjugated Linear and Cyclic Peptides for siRNA Delivery

Author

Hamidreza Montazeri Aliabadi, Keykavous Parang, Hung Do, Naglaa Salem El-Sayed, Emira Bousoik, Meenakshi Sharma, and Parvin Mahdipoor

Subjects
0301 basic medicine, General Chemical Engineering, media_common.quotation_subject, Peptide, 02 engineering and technology, Conjugated system, Article, lcsh:Chemistry, 03 medical and health sciences, Amphiphile, Lipid bilayer, Internalization, media_common, chemistry.chemical_classification, food and beverages, General Chemistry, 021001 nanoscience & nanotechnology, Cyclic peptide, In vitro, 030104 developmental biology, chemistry, Biochemistry, lcsh:QD1-999, lipids (amino acids, peptides, and proteins), 0210 nano-technology, Conjugate
Abstract

A number of amphiphilic difatty acyl linear and cyclic R5K2 peptide conjugates were synthesized by solid-phase peptide methods to enhance the interaction with the hydrophobic cellular phospholipid bilayer and to improve siRNA delivery and silencing. Binding to siRNA molecules was significantly less for the cyclic peptide conjugates. A gradual decrease was observed in the particle size of the complexes with increasing peptide/siRNA ratio for most of the synthesized peptides, suggesting the complex formation. Most of the complexes showed a particle size of less than 200 nm, which is considered an appropriate size for in vitro siRNA delivery. A number of fatty acyl-conjugated peptides, such as LP-C16 and LP-C18, displayed near complete protection against serum degradation. Flow cytometry studies demonstrated significantly higher internalization of fluorescence-labeled siRNA (FAM-siRNA) in the presence of LP-C16, LP-C18, and CP-C16 with 1,2-dioleoyl-sn-glycero-3-phosphoethanolamine (DOPE) addition. Confocal microscopy confirmed the cellular internalization of fluorescence-labeled siRNA in the presence of LP-C16 and LP-C18 with DOPE when compared with cells exposed to DOPE/FAM-siRNA. While C16- and C18-conjugated peptides (especially linear peptides) showed silencing against kinesin spindle protein (KSP) and janus kinase 2 (JAK2) proteins, the addition of DOPE enhanced the silencing efficiency significantly for all selected peptides, except for CP-C16. In conclusion, C16 and C18 difatty acyl peptide conjugates were found to enhance siRNA delivery and generate silencing of targeted proteins in the presence of DOPE. This study provides insights for the design and potential application of optimized difatty acyl peptide/lipid nanoparticles for effective siRNA delivery.

Published
2017

45. Synthesis and anti-HIV activities of unsymmetrical long chain dicarboxylate esters of dinucleoside reverse transcriptase inhibitors

Author

Keykavous Parang, Hitesh K. Agarwal, Bhupender S. Chhikara, and Gustavo F. Doncel

Subjects
0301 basic medicine, Anti-HIV Agents, Stereochemistry, Clinical Biochemistry, Pharmaceutical Science, HIV Infections, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Drug Discovery, Humans, Dicarboxylic Acids, Molecular Biology, EC50, chemistry.chemical_classification, Organic Chemistry, Fatty acid, Esters, Nucleosides, HIV Reverse Transcriptase, Reverse transcriptase, 030104 developmental biology, Dicarboxylic acid, chemistry, Succinic acid, 030220 oncology & carcinogenesis, HIV-1, Reverse Transcriptase Inhibitors, Molecular Medicine, Suberic acid, Nucleoside, Conjugate
Abstract

A series of 11 unsymmetrical dicarboxylate conjugates of dinucleoside reverse transcriptase inhibitors were synthesized. Three dicarboxylic acids, succinic acid, suberic acid and 1,14-tetradecandioc acid, were diesterified with either 3′-azido-2′,3′-dideoxythymidine (AZT), 3′-fluoro-2′,3′-dideoxythymidine (FLT), 2′,3′-dideoxy-3′-thiacytidine (3TC), or 5-fluoro-2′,3′-dideoxy-3′-thiacytidine (FTC). The anti-HIV activity of synthesized compounds was evaluated against HIV-1 X4 (IIIB) and R5 (BaL) viral strains in single-round infection assays. Results indicated that the tetradecandioate esters of nucleosides were more active against HIV than the corresponding parent nucleosides and nucleoside conjugates. The tetradecandioate conjugate of FLT and FTC (5) was found to be the most potent compounds with EC50 values of 47 and 75 nM against X4 and R5 HIV-1 strains, respectively, while the EC50 values for the parent analogs, FLT and FTC, ranged from 700 to 3300 nM.

Published
2017

46. Novel Fluorescent Benzimidazoles: Synthesis, Characterization, Crystal Structure and Evaluation of Their Anticancer Properties

Author

Ching Kheng Quah, Chuan Wei Oo, Keykavous Parang, Wan Leng Lim, Tze Shyang Chia, Amir Nasrolahi Shirazi, Yeong Keng Yoon, and Tan Soo Choon

Subjects
Benzimidazole, Organic Chemistry, 02 engineering and technology, Crystal structure, 010402 general chemistry, 021001 nanoscience & nanotechnology, Photochemistry, 01 natural sciences, Biochemistry, Fluorescence, 0104 chemical sciences, Characterization (materials science), chemistry.chemical_compound, chemistry, X-ray crystallography, 0210 nano-technology
Published
2017

47. Palladium-Catalyzed Intramolecular Cross-Dehydrogenative Coupling: Synthesis of Fused Imidazo[1,2-a]pyrimidines and Pyrazolo[1,5-a]pyrimidines

Author

Jeh-Jeng Wang, Jaya Kishore Vandavasi, Siva K. Reddy Kotla, Rakesh Tiwari, and Keykavous Parang

Subjects
Reaction conditions, Green chemistry, 010405 organic chemistry, Stereochemistry, General Chemical Engineering, chemistry.chemical_element, Substrate (chemistry), General Chemistry, 010402 general chemistry, 01 natural sciences, Combinatorial chemistry, Coupling reaction, 0104 chemical sciences, Catalysis, lcsh:Chemistry, Coupling (electronics), lcsh:QD1-999, chemistry, Intramolecular force, Palladium
Abstract

A palladium-catalyzed intramolecular dehydrogenative coupling reaction was developed for the synthesis of fused imidazo[1,2-a]pyrimidines and pyrazolo[1,5-a]pyrimidines. The developed protocol provides a practical approach for the synthesis of biologically important substituted pyrimidines from easily available substrates, with a broad substrate scope under mild reaction conditions.

Published
2017

48. Cyclic Cell-Penetrating Peptides as Efficient Intracellular Drug Delivery Tools

Author

Keykavous Parang, Shang Eun Park, Muhammad Imran Sajid, and Rakesh Tiwari

Subjects
Cell Membrane Permeability, Computer science, Human immunodeficiency virus (HIV), Pharmaceutical Science, HIV Infections, 02 engineering and technology, Computational biology, Cell-Penetrating Peptides, Endosomes, medicine.disease_cause, 030226 pharmacology & pharmacy, Peptides, Cyclic, 03 medical and health sciences, Mice, 0302 clinical medicine, Drug Delivery Systems, Drug Resistance, Multiple, Bacterial, Neoplasms, Drug Discovery, medicine, Animals, Humans, chemistry.chemical_classification, Cell Nucleus, Drug Carriers, 021001 nanoscience & nanotechnology, Cyclic peptide, chemistry, Proteolysis, Molecular Medicine, Intracellular drug delivery, 0210 nano-technology, Cell penetration
Abstract

Cyclic cell-penetrating peptides are relatively a newer class of peptides that have a huge potential for the intracellular delivery of therapeutic agents aimed at treating challenging ailments like multidrug-resistant bacterial diseases, cancer, and HIV infection. Cell-penetrating peptides (CPPs) have been extensively explored as intracellular delivery vehicles; however, they have some inherent limitations like poor stability, endosomal entrapment, toxicity, and suboptimal cell penetration. Owing to their favorable properties that avoid these limitations, cyclic CPPs can provide a good alternative to linear CPPs. Several Reviews have been published in the past decade that cover CPPs and cyclic peptides independently. To the best of our knowledge, this is one of the first Reviews that covers cyclic CPPs comprehensively in the light of studies published so far. In this Review, we have detailed examples of cyclic CPPs, their structures, and cyclization strategies followed by a detailed account of their advantages over their linear counterparts. A hot area in cyclic CPPs is the exploration of cell-penetration mechanisms; this Review highlights this topic in detail. Finally, we will review the applications of cyclic CPPs, followed by conclusions and future prospects.

Published
2019

49. Demarcation of Sepsis-Induced Peripheral and Central Acidosis with pH (Low) Insertion Cycle Peptide

Author

Gregory Slaybaugh, Michelle L. James, Veronica L. Nagle, Yana K. Reshetnyak, Kelly E. Henry, Aisling Chaney, Keykavous Parang, Haley C. Cropper, Jason S. Lewis, Oleg A. Andreev, and Saghar Mozaffari

Subjects
0301 basic medicine, Lipopolysaccharide, Peptides, Cyclic, 03 medical and health sciences, Cresyl violet, chemistry.chemical_compound, Mice, 0302 clinical medicine, In vivo, Positron Emission Tomography Computed Tomography, Sepsis, Extracellular, medicine, Animals, Radiology, Nuclear Medicine and imaging, Tissue Distribution, Neuroinflammation, Acidosis, Hydrogen-Ion Concentration, Molecular biology, Molecular Imaging, Mice, Inbred C57BL, 030104 developmental biology, chemistry, Isotope Labeling, Female, medicine.symptom, 030217 neurology & neurosurgery, Immunostaining, Ex vivo
Abstract

Acidosis is a key driver for many diseases, including cancer, sepsis, and stroke. The spatiotemporal dynamics of dysregulated pH across disease remain elusive, and current diagnostic strategies do not provide localization of pH alterations. We sought to explore if PET imaging using hydrophobic cyclic peptides that partition into the cellular membrane at low extracellular pH (denoted as pH [low] insertion cycles, or pHLIC) can permit accurate in vivo visualization of acidosis. Methods: Acid-sensitive cyclic peptide c[E(4)W(5)C] pHLIC was conjugated to bifunctional maleimide-NO2A and radiolabeled with (64)Cu (half-life, 12.7 h). C57BL/6J mice were administered lipopolysaccharide (15 mg/kg) or saline (vehicle) and serially imaged with [(64)Cu]Cu-c[E(4)W(5)C] over 24 h. Ex vivo autoradiography was performed on resected brain slices and subsequently stained with cresyl violet to enable high-resolution spatial analysis of tracer accumulation. A non–pH-sensitive cell-penetrating control peptide (c[R(4)W(5)C]) was used to confirm specificity of [(64)Cu]Cu-c[E(4)W(5)C]. CD11b (macrophage/microglia) and TMEM119 (microglia) immunostaining was performed to correlate extent of neuroinflammation with [(64)Cu]Cu-c[E(4)W(5)C] PET signal. Results: [(64)Cu]Cu-c[E(4)W(5)C] radiochemical yield and purity were more than 95% and more than 99%, respectively, with molar activity of more than 0.925 MBq/nmol. Significantly increased [(64)Cu]Cu-c[E(4)W(5)C] uptake was observed in lipopolysaccharide-treated mice (vs. vehicle) within peripheral tissues, including blood, lungs, liver, and small intestines (P < 0.001–0.05). Additionally, there was significantly increased [(64)Cu]Cu-c[E(4)W(5)C] uptake in the brains of lipopolysaccharide-treated animals. Autoradiography confirmed increased uptake in the cerebellum, cortex, hippocampus, striatum, and hypothalamus of lipopolysaccharide-treated mice (vs. vehicle). Immunohistochemical analysis revealed microglial or macrophage infiltration, suggesting activation in brain regions containing increased tracer uptake. [(64)Cu]Cu-c[R(4)W(5)C] demonstrated significantly reduced uptake in the brain and periphery of lipopolysaccharide mice compared with the acid-mediated [(64)Cu]Cu-c[E(4)W(5)C] tracer. Conclusion: Here, we demonstrate that a pH-sensitive PET tracer specifically detects acidosis in regions associated with sepsis-driven proinflammatory responses. This study suggests that [(64)Cu]Cu-pHLIC is a valuable tool to noninvasively assess acidosis associated with both central and peripheral innate immune activation.

Published
2019

50. Sirtuin inhibition and anti-cancer activities of ethyl 2-benzimidazole-5-carboxylate derivatives

Author

W. N. Chen, K. Y. Yeong, M. I. H. Nor Azizi, N. Berdigaliyev, Keykavous Parang, Amir Nasrolahi Shirazi, and W. L. Lee

Subjects
Benzimidazole, Cell cycle checkpoint, SIRT3, Pharmaceutical Science, Pharmacology, SIRT2, 01 natural sciences, Biochemistry, chemistry.chemical_compound, Drug Discovery, medicine, biology, 010405 organic chemistry, Chemistry, Organic Chemistry, Cancer, medicine.disease, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Apoptosis, Sirtuin, Cancer cell, biology.protein, Molecular Medicine
Abstract

New benzimidazoles were synthesized based on the previously identified sirtuin inhibitor BZD9L1. The compounds were screened for their sirtuin (SIRT1, SIRT2 and SIRT3) inhibitory activities. Compound BZD9Q1 was determined to be a pan-SIRT1–3 inhibitor. Furthermore, the proliferation of various cancer cells was inhibited by BZD9Q1. It was shown that BZD9Q1 elicits a cytostatic effect by inducing cell cycle arrest at the G(2)/M phase while also showing a prominent induction of apoptosis against oral cancer cells.

Published
2019

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