Your search keyword '"Makan K"' showing total 11 results

1. 1202 In vivo engineering of CAR T cells using a novel targeted LNP-mRNA technology

Author

Yan Zhang, Michael Peel, Adrian Bot, Brittany Ross, Duy Nguyen, Michelle Nguyen, Theresa Hunter, Gregor Adams, Barzan A Sadiq, Haig Aghajanian, Ferran Soldevila, Daiki Matsuda, Yanjie Bao, Stuart A Sievers, John Li, Josephine Nguyen, Claudia Fernandez, Yi Kuo, James Vestal, Matthew Butcher, Jeffrey Chen, Stanley Zhang, Makan Khoshnejad, Donald Jhung, Steve Tanis, Michael Rosenzweig, and Priya Karmali

Subjects

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

Published

2023

2. Micronutrient optimization for tissue engineered articular cartilage production of type II collagen

Author

Maria A. Cruz, Yamilet Gonzalez, Javier A. Vélez Toro, Makan Karimzadeh, Anthony Rubbo, Lauren Morris, Ramapaada Medam, Taylor Splawn, Marilyn Archer, Russell J. Fernandes, James E. Dennis, and Thomas J. Kean

Subjects

primary chondrocyte, media optimization, tissue engineered cartilage, design of experiments (DoE), scaffold-free tissue engineered cartilage, vitamins and minerals, Biotechnology, TP248.13-248.65

Abstract

Tissue Engineering of cartilage has been hampered by the inability of engineered tissue to express native levels of type II collagen in vitro. Inadequate levels of type II collagen are, in part, due to a failure to recapitulate the physiological environment in culture. In this study, we engineered primary rabbit chondrocytes to express a secreted reporter, Gaussia Luciferase, driven by the type II collagen promoter, and applied a Design of Experiments approach to assess chondrogenic differentiation in micronutrient-supplemented medium. Using a Response Surface Model, 240 combinations of micronutrients absent in standard chondrogenic differentiation medium, were screened and assessed for type II collagen promoter-driven Gaussia luciferase expression. While the target of this study was to establish a combination of all micronutrients, alpha-linolenic acid, copper, cobalt, chromium, manganese, molybdenum, vitamins A, E, D and B7 were all found to have a significant effect on type II collagen promoter activity. Five conditions containing all micronutrients predicted to produce the greatest luciferase expression were selected for further study. Validation of these conditions in 3D aggregates identified an optimal condition for type II collagen promoter activity. Engineered cartilage grown in this condition, showed a 170% increase in type II collagen expression (Day 22 Luminescence) and in Young’s tensile modulus compared to engineered cartilage in basal media alone.Collagen cross-linking analysis confirmed formation of type II-type II collagen and type II-type IX collagen cross-linked heteropolymeric fibrils, characteristic of mature native cartilage. Combining a Design of Experiments approach and secreted reporter cells in 3D aggregate culture enabled a high-throughput platform that can be used to identify more optimal physiological culture parameters for chondrogenesis.

Published

2023

3. Optimizing Bioink Composition for Human Chondrocyte Expression of Lubricin

Author

Kari Martyniak, Sean Kennedy, Makan Karimzadeh, Maria A. Cruz, Oju Jeon, Eben Alsberg, and Thomas J. Kean

Subjects

human articular chondrocyte reporter, 3D bioprinting cartilage, surface zone articular cartilage, oxidized methacrylated alginate, lap-shear, lubricin chondrocyte reporter, Technology, Biology (General), QH301-705.5

Abstract

The surface zone of articular cartilage is the first area impacted by cartilage defects, commonly resulting in osteoarthritis. Chondrocytes in the surface zone of articular cartilage synthesize and secrete lubricin, a proteoglycan that functions as a lubricant protecting the deeper layers from shear stress. Notably, 3D bioprinting is a tissue engineering technique that uses cells encapsulated in biomaterials to fabricate 3D constructs. Gelatin methacrylate (GelMA) is a frequently used biomaterial for 3D bioprinting cartilage. Oxidized methacrylated alginate (OMA) is a chemically modified alginate designed for its tunable degradation rate and mechanical properties. To determine an optimal combination of GelMA and OMA for lubricin expression, we used our novel high-throughput human articular chondrocyte reporter system. Primary human chondrocytes were transduced with PRG4 (lubricin) promoter-driven Gaussia luciferase, allowing for temporal assessment of lubricin expression. A lubricin expression-driven Design of Experiment screen and subsequent validation identified 14% GelMA/2% OMA for further study. Therefore, DoE optimized 14% GelMA/2% OMA, 14% GelMA control, and 16% GelMA (total solid content control) were 3D bioprinted. The combination of lubricin protein expression and shape retention over the 22 days in culture, successfully determined the 14% GelMA/2%OMA to be the optimal formulation for lubricin secretion. This strategy allows for rapid analysis of the role(s) of biomaterial composition, stiffness or other cell manipulations on lubricin expression by chondrocytes, which may improve therapeutic strategies for cartilage regeneration.

Published

2023

4. Artemisinin-based combination therapy for uncomplicated Plasmodium falciparum malaria in Mali: a systematic review and meta-analysis

Author

Fatoumata O. Maiga, Mamadou Wele, Sounkou M. Toure, Makan Keita, Cheick Oumar Tangara, Randi R. Refeld, Oumar Thiero, Kassoum Kayentao, Mahamadou Diakite, Antoine Dara, Jian Li, Mahamoudou Toure, Issaka Sagara, Abdoulaye Djimdé, Frances J. Mather, Seydou O. Doumbia, and Jeffrey G. Shaffer

Subjects

Artemether–lumefantrine, Artemisinin-based combination therapy, Malaria, Mali, Systematic review, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Artemisinin-based combination therapy (ACT) was deployed in 2005 as an alternative to chloroquine and is considered the most efficacious treatment currently available for uncomplicated falciparum malaria. While widespread artemisinin resistance has not been reported to date in Africa, recent studies have reported partial resistance in Rwanda. The purpose of this study is to provide a current systematic review and meta-analysis on ACT at Mali study sites, where falciparum malaria is highly endemic. Methods A systematic review of the literature maintained in the bibliographic databases accessible through the PubMed, ScienceDirect and Web of Science search engines was performed to identify research studies on ACT occurring at Mali study sites. Selected studies included trials occurring at Mali study sites with reported polymerase chain reaction (PCR)-corrected adequate clinical and parasite response rates (ACPRcs) at 28 days. Data were stratified by treatment arm (artemether–lumefantrine (AL), the first-line treatment for falciparum malaria in Mali and non-AL arms) and analysed using random-effects, meta-analysis approaches. Results A total of 11 studies met the inclusion criteria, and a risk of bias assessment carried out by two independent reviewers determined low risk of bias among all assessed criteria. The ACPRc for the first-line AL at Mali sites was 99.0% (95% CI (98.3%, 99.8%)), while the ACPRc among non-AL treatment arms was 98.9% (95% CI (98.3%, 99.5%)). The difference in ACPRcs between non-AL treatment arms and AL treatment arms was not statistically significant (p = .752), suggesting that there are potential treatment alternatives beyond the first-line of AL in Mali. Conclusions ACT remains highly efficacious in treating uncomplicated falciparum malaria in Mali. Country-specific meta-analyses on ACT are needed on an ongoing basis for monitoring and evaluating drug efficacy patterns to guide local malaria treatment policies, particularly in the wake of observed artemisinin resistance in Southeast Asia and partial resistance in Rwanda.

Published

2021

5. Neutralization of hepatitis B virus by a novel DNA-encoded monoclonal antibody

Author

Urvi S. Zankharia, Sagar Kudchodkar, Makan Khoshnejad, Alfredo Perales-Puchalt, Hyeree Choi, Michelle Ho, Faraz Zaidi, Kenneth E. Ugen, Joseph J. Kim, David B. Weiner, and Kar Muthumani

Subjects

hepatitis b virus, dna encoded monoclonal antibody (dmab), neutralization, immunoprophylaxis, Immunologic diseases. Allergy, RC581-607, Therapeutics. Pharmacology, RM1-950

Abstract

Hepatitis B virus (HBV) causes a potentially life-threatening liver infection that frequently results in life-long chronic infection. HBV is responsible for 887,000 deaths each year, most resulting from chronic liver diseases and hepatocellular carcinoma. Presently, there are 250 million chronic HBV carriers worldwide who are at a high risk for developing cirrhosis and hepatocellular carcinoma (HCC). HCC is the most common type of liver cancer with a strong association with HBV infection. HBV transmission through blood transfusions and perinatal transfer from infected mother to child have been common routes of infection. In the present study, we describe the development of a synthetic DNA plasmid encoding an anti-HBV human monoclonal antibody specific for the common “a determinant region” of HBsAg of hepatitis B virus and demonstrate the ability of this platform at directing in vivo antibody expression. In vivo delivery of this DNA encoded monoclonal antibody (DMAb) plasmid in mice resulted in expression of human IgG over a period of one month following a single injection. Serum antibody was found to recognize the relevant conformational epitope from plasma purified native HBsAg as well as bound HBV in HepG2.2.15 cells. The serum DMAb efficiently neutralized HBV and prevented infection of HepaRG cells in vitro. Additional study of these HBV-DMAb as a possible therapy or immunoprophylaxis for HBV infection is warranted.

Published

2020

6. Synthetic DNA Delivery of an Engineered Arginase Enzyme Can Modulate Specific Immunity In Vivo

Author

Makan Khoshnejad, Alfredo Perales-Puchalt, Yaya Dia, Peng Xiao, Ami Patel, Ziyang Xu, Xizhou Zhu, Kun Yun, Ishana Baboo, Rehman Qureshi, Laurent Humeau, Kar Muthumani, and David B. Weiner

Subjects

Arginase, Immunosuppression, Inflammation, DNA Delivery, Electroporation, Genetics, QH426-470, Cytology, QH573-671

Abstract

Arginase is a complex and unique enzyme that plays diverse roles in health and disease. By metabolizing arginine, it can shape the outcome of innate and adaptive immune responses. The immunomodulatory capabilities of arginase could potentially be applied for local immunosuppression or induction of immune tolerance. With the use of an enhanced DNA delivery approach, we designed and studied a DNA-encoded secretable arginase enzyme as a tool for immune modulation and evaluated its immunomodulatory function in vivo. Strong immunosuppression of cluster of differentiation 4 (CD4) and CD8 T cells, as well as macrophages and dendritic cells, was observed in vitro in the presence of an arginase-rich supernatant. To further evaluate the efficacy of DNA-encoded arginase on in vivo immunosuppression against an antigen, a cancer antigen vaccine model was used in the presence or absence of DNA-encoded arginase. Significant in vivo immunosuppression was observed in the presence of DNA-encoded arginase. The efficacy of this DNA-encoded arginase delivery was examined in a local, imiquimod-induced, psoriasis-like, skin-inflammation model. Pretreatment of animals with the synthetic DNA-encoded arginase led to significant decreases in skin acanthosis, proinflammatory cytokines, and costimulatory molecules in extracted macrophages and dendritic cells. These results draw attention to the potential of direct in vivo-delivered arginase to function as an immunomodulatory agent for treatment of local inflammation or autoimmune diseases.

Published

2020

7. Immunogenicity of a DNA vaccine candidate for COVID-19

Author

Trevor R. F. Smith, Ami Patel, Stephanie Ramos, Dustin Elwood, Xizhou Zhu, Jian Yan, Ebony N. Gary, Susanne N. Walker, Katherine Schultheis, Mansi Purwar, Ziyang Xu, Jewell Walters, Pratik Bhojnagarwala, Maria Yang, Neethu Chokkalingam, Patrick Pezzoli, Elizabeth Parzych, Emma L. Reuschel, Arthur Doan, Nicholas Tursi, Miguel Vasquez, Jihae Choi, Edgar Tello-Ruiz, Igor Maricic, Mamadou A. Bah, Yuanhan Wu, Dinah Amante, Daniel H. Park, Yaya Dia, Ali Raza Ali, Faraz I. Zaidi, Alison Generotti, Kevin Y. Kim, Timothy A. Herring, Sophia Reeder, Viviane M. Andrade, Karen Buttigieg, Gan Zhao, Jiun-Ming Wu, Dan Li, Linlin Bao, Jiangning Liu, Wei Deng, Chuan Qin, Ami Shah Brown, Makan Khoshnejad, Nianshuang Wang, Jacqueline Chu, Daniel Wrapp, Jason S. McLellan, Kar Muthumani, Bin Wang, Miles W. Carroll, J. Joseph Kim, Jean Boyer, Daniel W. Kulp, Laurent M. P. F. Humeau, David B. Weiner, and Kate E. Broderick

Subjects

Science

Abstract

There is currently no licensed SARS-CoV-2 vaccine. Here, the authors generate an optimized DNA vaccine candidate encoding the SARS-CoV-2 spike antigen, demonstrating induction of specific T cells and neutralizing antibody responses in mice and guinea pigs. These initial results support further development of this vaccine candidate.

Published

2020

8. Systematic review on the application of 3D‐bioprinting technology in orthoregeneration: current achievements and open challenges

Author

Rachel L. Pan, Kari Martyniak, Makan Karimzadeh, David G. Gelikman, Jonathan DeVries, Kelly Sutter, Melanie Coathup, Mehdi Razavi, Rajendra Sawh‐Martinez, and Thomas J. Kean

Subjects

3D bioprinted joint, 3D bioprinting orthoregeneration, Bioprinted cartilage, Bioprinted bone, Bioprinted vasculature, Bioprinted osteochondral implant, Orthopedic surgery, RD701-811

Abstract

Abstract Background Joint degeneration and large or complex bone defects are a significant source of morbidity and diminished quality of life worldwide. There is an unmet need for a functional implant with near‐native biomechanical properties. The potential for their generation using 3D bioprinting (3DBP)‐based tissue engineering methods was assessed. We systematically reviewed the current state of 3DBP in orthoregeneration. Methods This review was performed using PubMed and Web of Science. Primary research articles reporting 3DBP of cartilage, bone, vasculature, and their osteochondral and vascular bone composites were considered. Full text English articles were analyzed. Results Over 1300 studies were retrieved, after removing duplicates, 1046 studies remained. After inclusion and exclusion criteria were applied, 114 articles were analyzed fully. Bioink material types and combinations were tallied. Cell types and testing methods were also analyzed. Nearly all papers determined the effect of 3DBP on cell survival. Bioink material physical characterization using gelation and rheology, and construct biomechanics were performed. In vitro testing methods assessed biochemistry, markers of extracellular matrix production and/or cell differentiation into respective lineages. In vivo proof‐of‐concept studies included full‐thickness bone and joint defects as well as subcutaneous implantation in rodents followed by histological and µCT analyses to demonstrate implant growth and integration into surrounding native tissues. Conclusions Despite its relative infancy, 3DBP is making an impact in joint and bone engineering. Several groups have demonstrated preclinical efficacy of mechanically robust constructs which integrate into articular joint defects in small animals. However, notable obstacles remain. Notably, researchers encountered pitfalls in scaling up constructs and establishing implant function and viability in long term animal models. Further, to translate from the laboratory to the clinic, standardized quality control metrics such as construct stiffness and graft integration metrics should be established with investigator consensus. While there is much work to be done, 3DBP implants have great potential to treat degenerative joint diseases and provide benefit to patients globally.

Published

2022

9. Talent retention strategies: An exploratory study within the consulting industry in Gauteng province, South Africa

Author

Calvin M. Mabaso, Malose T. Maja, Makan Kavir, Lesego Lekwape, Shereen S. Makhasane, and Mbali T. Khumalo

Subjects

rewards, training and development, career progression, consultants, employee performance, talent retention, Management. Industrial management, HD28-70, Business, HF5001-6182

Abstract

Orientation: The consultancy industry globally has witnessed a paradigm shift over the past few years in terms of its nature, employee turnover and attraction and retention of talent. These changes have posed a challenge because the industry struggles to attain commitment from their employees. Research purpose: To explore strategies to retain talent whilst ensuring performance in a consulting firm based in the south of Johannesburg, Gauteng province, South Africa. Motivation for the study: Currently there is limited research on strategies to retain talent and enhance employee performance within the consultancy industry in South Africa. Exploring the experiences and views of consultants can assist consulting firms to develop effective retention strategies to retain talent whilst enhancing employee performance. Research design, approach and method: A qualitative research method was adopted in this study. Semi-structured interviews were used to gather data. Thematic analysis was employed to identify patterns of meaning across the data set. Data coding was conducted on the themes that were identified. Different categories and subcategories were identified and analysed to determine themes and findings. Data collected were analysed and interpreted for meaningful conclusions. A non-probability sampling procedure was employed using purposive sampling. The sample included men and women, between 25 and 60 years of age, with a minimum of 5 years’ experience as consultants in the consultancy industry in Gauteng. Main findings: The findings show the following strategies to retain consultants in the consulting industry: (1) rewards, (2) work–life balance, (3) performance management system, (4) improved training and development, (5) employee recognition and (6) career progression opportunities. Practical/managerial implications: The findings of this study can be used by human capital managers to develop reward systems that will enhance employee performance and retain consultants. Contribution/value-add: This study provided important practical guidelines that could be used by consulting firms to develop and implement retention strategy valued by consultants.

Published

2021

10. Red blood cell-hitchhiking boosts delivery of nanocarriers to chosen organs by orders of magnitude

Author

Jacob S. Brenner, Daniel C. Pan, Jacob W. Myerson, Oscar A. Marcos-Contreras, Carlos H. Villa, Priyal Patel, Hugh Hekierski, Shampa Chatterjee, Jian-Qin Tao, Hamideh Parhiz, Kartik Bhamidipati, Thomas G. Uhler, Elizabeth D. Hood, Raisa Yu. Kiseleva, Vladimir S. Shuvaev, Tea Shuvaeva, Makan Khoshnejad, Ian Johnston, Jason V. Gregory, Joerg Lahann, Tao Wang, Edward Cantu, William M. Armstead, Samir Mitragotri, and Vladimir Muzykantov

Subjects

Science

Abstract

Unwanted uptake in the liver and limited accumulation in target organs is a major obstacle to targeted drug delivery. Here, the authors report on the hitchhiking of nanocarriers on red blood cells and the targeted upstream delivery to different target organs in mice, pigs and ex vivo human lungs.

Published

2018

11. Peptide-based subunit vaccine against hookworm infection.

Author

Mariusz Skwarczynski, Annette M Dougall, Makan Khoshnejad, Saranya Chandrudu, Mark S Pearson, Alex Loukas, and Istvan Toth

Subjects

Medicine, Science

Abstract

Hookworms infect more people than HIV and malaria combined, predominantly in third world countries. Treatment of infection with chemotherapy can have limited efficacy and re-infections after treatment are common. Heavy infection often leads to debilitating diseases. All these factors suggest an urgent need for development of vaccine. In an attempt to develop a vaccine targeting the major human hookworm, Necator americanus, a B-cell peptide epitope was chosen from the apical enzyme in the hemoglobin digestion cascade, the aspartic protease Na-APR-1. The A(291)Y alpha helical epitope is known to induce neutralizing antibodies that inhibit the enzymatic activity of Na-APR-1, thus reducing the capacity for hookworms to digest hemoglobin and obtain nutrients. A(291)Y was engineered such that it was flanked on both termini by a coil-promoting sequence to maintain native conformation, and subsequently incorporated into a Lipid Core Peptide (LCP) self-adjuvanting system. While A(291)Y alone or the chimeric epitope with or without Freund's adjuvants induced negligible IgG responses, the LCP construct incorporating the chimeric peptide induced a strong IgG response in mice. Antibodies produced were able to bind to and completely inhibit the enzymatic activity of Na-APR-1. The results presented show that the new chimeric LCP construct can induce effective enzyme-neutralising antibodies in mice, without the help of any additional toxic adjuvants. This approach offers promise for the development of vaccines against helminth parasites of humans and their livestock and companion animals.

Published

2012