Your search keyword '"Banerjee PP"' showing total 190 results

1. Mentha arvensis (Linn.)-mediated green silver nanoparticles trigger caspase 9-dependent cell death in MCF7 and MDA-MB-231 cells

Author

Banerjee PP, Bandyopadhyay A, Harsha SN, Policegoudra RS, Bhattacharya S, Karak N, and Chattopadhyay A

Subjects

Nanoparticles, EDX, TEM, breast cancer cells, anticancer, nonmutagenic, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Prajna Paramita Banerjee,1 Arindam Bandyopadhyay,1 Singapura Nagesh Harsha,2 Rudragoud S Policegoudra,3 Shelley Bhattacharya,4 Niranjan Karak,2 Ansuman Chattopadhyay1 1Molecular Genetics Laboratory, Department of Zoology, Visva-Bharati, Santiniketan, West Bengal, 2Advanced Polymer and Nanomaterial Laboratory, Department of Chemical Sciences, Center for Polymer Science and Technology, Tezpur University, Napaam, 3Division of Pharmaceutical Technology, Defence Research Laboratory, Tezpur, Assam, 4Environmental Toxicology Laboratory, Department of Zoology, Visva-Bharati, Santiniketan, West Bengal, India Introduction: Leaf extract of Mentha arvensis or mint plant was used as reducing agent for the synthesis of green silver nanoparticles (GSNPs) as a cost-effective, eco-friendly process compared to that of chemical synthesis. The existence of nanoparticles was characterized by ultraviolet–visible spectrophotometry, dynamic light scattering, Fourier transform infrared spectroscopy, X-ray diffraction, energy-dispersive X-ray analysis, atomic-force microscopy and transmission electron microscopy analyses, which ascertained the formation of spherical GSNPs with a size range of 3–9 nm. Anticancer activities against breast cancer cell lines (MCF7 and MDA-MB-231) were studied and compared with those of chemically synthesized (sodium borohydride [NaBH4]-mediated) silver nanoparticles (CSNPs). Materials and methods: Cell survival of nanoparticle-treated and untreated cells was studied by 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide (MTT) assay. Cell-cycle analyses were carried out using fluorescence-activated cell sorting. Cell morphology was observed by fluorescence microscopy. Expression patterns of PARP1, P53, P21, Bcl2, Bax and cleaved caspase 9 as well as caspase 3 proteins in treated and untreated MCF7 and MDA-MB-231 cells were studied by Western blot method. Results: MTT assay results showed that Mentha arvensis-mediated GSNPs exhibited significant cytotoxicity toward breast cancer cells (MCF7 and MDA-MB-231), which were at par with that of CSNPs. Cell cycle analyses of MCF7 cells revealed a significant increase in sub-G1 cell population, indicating cytotoxicity of GSNPs. On the other hand, human peripheral blood lymphocytes showed significantly less cytotoxicity compared with MCF7 and MDA-MB-231 cells when treated with the same dose. Expression patterns of proteins suggested that GSNPs triggered caspase 9-dependent cell death in both cell lines. The Ames test showed that GSNPs were nonmutagenic in nature. Conclusion: GSNPs synthesized using Mentha arvensis may be considered as a promising anticancer agent in breast cancer therapy. They are less toxic and nonmutagenic and mediate caspase 9-dependent apoptosis in MCF7 and MDA-MB-231 cells. Keywords: nanoparticles, EDX, TEM, breast cancer cells, anticancer, nonmutagenic

Published

2017

2. The use of a virtual reality surgical simulator for cataract surgical skill assessment with 6 months of intervening operating room experience

Author

Sikder S, Luo J, Banerjee PP, Luciano C, Kania P, Song JC, Kahtani ES, Edward DP, and Al Towerki AE

Subjects

Ophthalmology, RE1-994

Abstract

Shameema Sikder,1 Jia Luo,2 P Pat Banerjee,2 Cristian Luciano,2 Patrick Kania,2 Jonathan C Song,1 Eman S Kahtani,3 Deepak P Edward,1,3 Abdul-Elah Al Towerki3 1Wilmer Eye Institute, Johns Hopkins University, Baltimore, MD, USA; 2College of Engineering, University of Illinois at Chicago, Chicago, IL, USA; 3King Khaled Eye Specialist Hospital, Riyadh, Saudi Arabia Purpose: To evaluate a haptic-based simulator, MicroVisTouch™, as an assessment tool for capsulorhexis performance in cataract surgery. The study is a prospective, unmasked, nonrandomized dual academic institution study conducted at the Wilmer Eye Institute at Johns Hopkins Medical Center (Baltimore, MD, USA) and King Khaled Eye Specialist Hospital (Riyadh, Saudi Arabia).Methods: This prospective study evaluated capsulorhexis simulator performance in 78 ophthalmology residents in the US and Saudi Arabia in the first round of testing and 40 residents in a second round for follow-up.Results: Four variables (circularity, accuracy, fluency, and overall) were tested by the simulator and graded on a 0–100 scale. Circularity (42%), accuracy (55%), and fluency (3%) were compiled to give an overall score. Capsulorhexis performance was retested in the original cohort 6 months after baseline assessment. Average scores in all measured metrics demonstrated statistically significant improvement (except for circularity, which trended toward improvement) after baseline assessment. A reduction in standard deviation and improvement in process capability indices over the 6-month period was also observed.Conclusion: An interval objective improvement in capsulorhexis skill on a haptic-enabled cataract surgery simulator was associated with intervening operating room experience. Further work investigating the role of formalized simulator training programs requiring independent simulator use must be studied to determine its usefulness as an evaluation tool. Keywords: medical education, computer simulation, educational assessment, technology assessment, cataract surgery

Published

2015

3. LENTIVIRAL VECTOR TRANSDUCED CD34+CELLS FOR THE TREATMENT OF WISKOTT-ALDRICH SYNDROME

Author

Scaramuzza S, Ferrua F, Giannelli S, Castiello MC, Cicalese MP, Evangelio C, Biasco L, Assanelli A, Biffi A, Casiraghi M, Bosticardo M, Miniero R, Finocchi A, Metin A, Banerjee PP, Orange JS, CICERI , FABIO, Roncarolo MG, Villa A, Naldini L, Aiuti A., Scaramuzza, S, Ferrua, F, Giannelli, S, Castiello, Mc, Cicalese, Mp, Evangelio, C, Biasco, L, Assanelli, A, Biffi, A, Casiraghi, M, Bosticardo, M, Miniero, R, Finocchi, A, Metin, A, Banerjee, Pp, Orange, J, Ciceri, Fabio, Roncarolo, Mg, Villa, A, Naldini, L, and Aiuti, A.

Published

2012

4. Biallelic loss-of-function mutation in NIK causes a primary immunodeficiency with multifaceted aberrant lymphoid immunity

Author

Willmann, KL, Klaver, S, Dogu, F, Santos-Valente, E, Garncarz, W, Bilic, I, Mace, E, Salzer, E, Conde, CD, Sic, H, Majek, P, Banerjee, PP, Vladimer, GI, Haskologlu, S, Bolkent, MG, Kupesiz, A, Condino-Neto, A, Colinge, J, Superti-Furga, G, Pickl, WF, van Zelm, Menno, Eibel, H, Orange, JS, Ikinciogullari, A, Boztug, K, Willmann, KL, Klaver, S, Dogu, F, Santos-Valente, E, Garncarz, W, Bilic, I, Mace, E, Salzer, E, Conde, CD, Sic, H, Majek, P, Banerjee, PP, Vladimer, GI, Haskologlu, S, Bolkent, MG, Kupesiz, A, Condino-Neto, A, Colinge, J, Superti-Furga, G, Pickl, WF, van Zelm, Menno, Eibel, H, Orange, JS, Ikinciogullari, A, and Boztug, K

Abstract

Primary immunodeficiency disorders enable identification of genes with crucial roles in the human immune system. Here we study patients suffering from recurrent bacterial, viral and Cryptosporidium infections, and identify a biallelic mutation in the MAP3K14 gene encoding NIK (NF-kappa B-inducing kinase). Loss of kinase activity of mutant NIK, predicted by in silico analysis and confirmed by functional assays, leads to defective activation of both canonical and non-canonical NF-kappa B signalling. Patients with mutated NIK exhibit B-cell lymphopenia, decreased frequencies of class-switched memory B cells and hypogammaglobulinemia due to impaired B-cell survival, and impaired ICOSL expression. Although overall T-cell numbers are normal, both follicular helper and memory T cells are perturbed. Natural killer (NK) cells are decreased and exhibit defective activation, leading to impaired formation of NK-cell immunological synapses. Collectively, our data illustrate the non-redundant role for NIK in human immune responses, demonstrating that loss-of-function mutations in NIK can cause multiple aberrations of lymphoid immunity.

Published

2014

5. A2.23 Impaired Natural Killer Cell Function in DOCK8 Deficiency

Author

Mizesko, MC, primary, Banerjee, PP, additional, Monaco-Shawver, L, additional, Mace, EM, additional, Bernal, W, additional, Sawalle-Belohradsky, J, additional, Belohradsky, B, additional, Heinz, V, additional, Freeman, AF, additional, Sullivan, KE, additional, Holland, SM, additional, Torgerson, TR, additional, Al-Herz, W, additional, Chou, J, additional, Hanson, IC, additional, Albert, MH, additional, Geha, RS, additional, Renner, ED, additional, and Orange, JS, additional

Published

2013

6. Stem-cell gene therapy for the Wiskott-Aldrich syndrome.

Author

Boztug K, Schmidt M, Schwarzer A, Banerjee PP, Díez IA, Dewey RA, Böhm M, Nowrouzi A, Ball CR, Glimm H, Naundorf S, Kühlcke K, Blasczyk R, Kondratenko I, Maródi L, Orange JS, von Kalle C, Klein C, Boztug, Kaan, and Schmidt, Manfred

Abstract

The Wiskott-Aldrich syndrome (WAS) is an X-linked recessive primary immunodeficiency disorder associated with thrombocytopenia, eczema, and autoimmunity. We treated two patients who had this disorder with a transfusion of autologous, genetically modified hematopoietic stem cells (HSC). We found sustained expression of WAS protein expression in HSC, lymphoid and myeloid cells, and platelets after gene therapy. T and B cells, natural killer (NK) cells, and monocytes were functionally corrected. After treatment, the patients' clinical condition markedly improved, with resolution of hemorrhagic diathesis, eczema, autoimmunity, and predisposition to severe infection. Comprehensive insertion-site analysis showed vector integration that targeted multiple genes controlling growth and immunologic responses in a persistently polyclonal hematopoiesis. (Funded by Deutsche Forschungsgemeinschaft and others; German Clinical Trials Register number, DRKS00000330.). [ABSTRACT FROM AUTHOR]

Published

2010

7. Lentiviral hematopoietic stem cell gene therapy in patients with Wiskott-Aldrich syndrome

Author

Maria Grazia Valsecchi, Fabio Ciceri, Jason P. Gardner, Anne Galy, Andrea Finocchi, Clelia Di Serio, Anna Villa, Alessandro Aiuti, Danilo Pellin, Paolo Rizzardi, David J. Dow, Marita Bosticardo, Jordan S. Orange, Maria Pia Cicalese, Stefania Giannelli, Pinaki P. Banerjee, Maria Grazia Roncarolo, Luigi Naldini, Victor Neduva, Luca Biasco, Ayse Metin, Roberto Miniero, Alessandra Biffi, Francesca Ferrua, Stefania Galimberti, Manfred G. Schmidt, Samantha Scaramuzza, Sara Di Nunzio, Maria Carmina Castiello, Miriam Casiraghi, Francesca Dionisio, Luciano Callegaro, Cristina Baricordi, Andrea Assanelli, Nalini Mehta, Eugenio Montini, Andrea Calabria, Claudia Benati, Christof von Kalle, Costanza Evangelio, Aiuti, Alessandro, Biasco, L, Scaramuzza, S, Ferrua, F, Cicalese, Mp, Baricordi, C, Dionisio, F, Calabria, A, Giannelli, S, Castiello, Mc, Bosticardo, M, Evangelio, C, Assanelli, A, Casiraghi, M, Di Nunzio, S, Callegaro, L, Benati, C, Rizzardi, P, Pellin, D, DI SERIO, Mariaclelia, Schmidt, M, Von Kalle, C, Gardner, J, Mehta, N, Neduva, V, Dow, Dj, Galy, A, Miniero, R, Finocchi, A, Metin, A, Banerjee, Pp, Orange, J, Galimberti, S, Valsecchi, Mg, Biffi, A, Montini, E, Villa, A, Ciceri, Fabio, Roncarolo, MARIA GRAZIA, Naldini, Luigi, IRCCS San Raffaele Scientific Institute [Milan, Italie], Hematology and BMT Unit, San Raffaele Scientific Institute, Unit of Lymphoid Malignancies, CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Immunologie moléculaire et biothérapies innovantes (IMBI), École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université d'Évry-Val-d'Essonne (UEVE)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Généthon, Ospedale San Raffaele, École pratique des hautes études (EPHE), Biasco, Luca, Scaramuzza, Samantha, Ferrua, Francesca, Cicalese, Maria Pia, Baricordi, Cristina, Dionisio, Francesca, Calabria, Andrea, Giannelli, Stefania, Castiello, Maria Carmina, Bosticardo, Marita, Evangelio, Costanza, Assanelli, Andrea, Casiraghi, Miriam, Di Nunzio, Sara, Callegaro, Luciano, Benati, Claudia, Rizzardi, Paolo, Pellin, Danilo, Di Serio, Clelia, Schmidt, Manfred, Von Kalle, Christof, Gardner, Jason, Mehta, Nalini, Neduva, Victor, Dow, David J., Galy, Anne, Miniero, Roberto, Finocchi, Andrea, Metin, Ayse, Banerjee, Pinaki P., Orange, Jordan S., Galimberti, Stefania, Valsecchi, Maria Grazia, Biffi, Alessandra, Montini, Eugenio, Villa, Anna, Roncarolo, Maria Grazia, Aiuti, A, Cicalese, M, Castiello, M, Di Serio, C, Dow, D, Banerjee, P, Valsecchi, M, Ciceri, F, Roncarolo, M, Naldini, L, and Généthon

Subjects

Male, Wiskott–Aldrich syndrome, medicine.medical_treatment, Genetic enhancement, Hematopoietic Stem Cells/*metabolism, [SDV]Life Sciences [q-bio], Hematopoietic stem cell transplantation, Genetic Therapy/*methods, 0302 clinical medicine, Transduction, Genetic, Child, 0303 health sciences, Multidisciplinary, biology, Wiskott–Aldrich syndrome protein, Hematopoietic Stem Cell Transplantation, Hematopoietic stem cell, Gene Therapy, 3. Good health, Wiskott-Aldrich Syndrome, Haematopoiesis, medicine.anatomical_structure, 030220 oncology & carcinogenesis, [SDV.IMM]Life Sciences [q-bio]/Immunology, Genetic Vector, Wiskott-Aldrich Syndrome Protein, Human, Virus Integration, Genetic Vectors, Wiskott-Aldrich Syndrome/*therapy, Wiskott-Aldrich Syndrome Protein/*genetics, Lentiviru, Viral vector, 03 medical and health sciences, Transduction, Genetic, medicine, Humans, Progenitor cell, 030304 developmental biology, Settore MED/38 - Pediatria Generale e Specialistica, business.industry, Lentivirus, Hematopoietic Stem Cell, Genetic Therapy, medicine.disease, Hematopoietic Stem Cells, Immunology, biology.protein, business

Abstract

Next-Generation Gene Therapy Few disciplines in contemporary clinical research have experienced the high expectations directed at the gene therapy field. However, gene therapy has been challenging to translate to the clinic, often because the therapeutic gene is expressed at insufficient levels in the patient or because the gene delivery vector integrates near protooncogenes, which can cause leukemia (see the Perspective by Verma ). Biffi et al. ( 1233158 , published online 11 July) and Aiuti et al. ( 1233151 ; published online 11 July) report progress on both fronts in gene therapy trials of three patients with metachromatic leukodystrophy (MLD), a neurodegenerative disorder, and three patients with Wiskott-Aldrich syndrome (WAS), an immunodeficiency disorder. Optimized lentiviral vectors were used to introduce functional MLD or WAS genes into the patients' hematopoietic stem cells (HSCs) ex vivo, and the transduced cells were then infused back into the patients, who were then monitored for up to 2 years. In both trials, the patients showed stable engraftment of the transduced HSC and high expression levels of functional MLD or WAS genes. Encouragingly, there was no evidence of lentiviral vector integration near proto-oncogenes, and the gene therapy treatment halted disease progression in most patients. A longer follow-up period will be needed to further validate efficacy and safety.

Published

2013

8. CD28 Costimulation Augments CAR Signaling in NK Cells via the LCK/CD3ζ/ZAP70 Signaling Axis.

Author

Acharya S, Basar R, Daher M, Rafei H, Li P, Uprety N, Ensley E, Shanley M, Kumar B, Banerjee PP, Melo Garcia L, Lin P, Mohanty V, Kim KH, Jiang X, Pan Y, Li Y, Liu B, Nunez Cortes AK, Zhang C, Fathi M, Rezvan A, Montalvo MJ, Cha SL, Reyes-Silva F, Shrestha R, Guo X, Kundu K, Biederstädt A, Muniz-Feliciano L, Deyter GM, Kaplan M, Jiang XR, Liu E, Jain A, Roszik J, Fowlkes NW, Solis Soto LM, Raso MG, Khoury JD, Lin P, Vega F, Varadarajan N, Chen K, Marin D, Shpall EJ, and Rezvani K

Subjects

Humans, Animals, Mice, Lymphocyte Specific Protein Tyrosine Kinase p56(lck) metabolism, Xenograft Model Antitumor Assays, CD3 Complex immunology, CD3 Complex metabolism, Immunotherapy, Adoptive methods, Cell Line, Tumor, Killer Cells, Natural immunology, Killer Cells, Natural metabolism, CD28 Antigens metabolism, CD28 Antigens immunology, Signal Transduction, Receptors, Chimeric Antigen immunology, Receptors, Chimeric Antigen metabolism

Abstract

Multiple factors in the design of a chimeric antigen receptor (CAR) influence CAR T-cell activity, with costimulatory signals being a key component. Yet, the impact of costimulatory domains on the downstream signaling and subsequent functionality of CAR-engineered natural killer (NK) cells remains largely unexplored. Here, we evaluated the impact of various costimulatory domains on CAR-NK cell activity, using a CD70-targeting CAR. We found that CD28, a costimulatory molecule not inherently present in mature NK cells, significantly enhanced the antitumor efficacy and long-term cytotoxicity of CAR-NK cells both in vitro and in multiple xenograft models of hematologic and solid tumors. Mechanistically, we showed that CD28 linked to CD3ζ creates a platform that recruits critical kinases, such as lymphocyte-specific protein tyrosine kinase (LCK) and zeta-chain-associated protein kinase 70 (ZAP70), initiating a signaling cascade that enhances CAR-NK cell function. Our study provides insights into how CD28 costimulation enhances CAR-NK cell function and supports its incorporation in NK-based CARs for cancer immunotherapy. Significance: We demonstrated that incorporation of the T-cell-centric costimulatory molecule CD28, which is normally absent in mature natural killer (NK) cells, into the chimeric antigen receptor (CAR) construct recruits key kinases including lymphocyte-specific protein tyrosine kinase and zeta-chain-associated protein kinase 70 and results in enhanced CAR-NK cell persistence and sustained antitumor cytotoxicity., (©2024 American Association for Cancer Research.)

Published

2024

9. Immune reconstitution dynamics after unrelated allogeneic transplantation with post-transplant cyclophosphamide compared to classical immunosuppression with anti-thymocyte globulin: a prospective cohort study.

Author

Kerbauy MN, Rocha FA, Arcuri LJ, Cunegundes PS, Kerbauy LN, Machado CM, Ribeiro AAF, Banerjee PP, Marti LC, and Hamerschlak N

Abstract

Post-transplant cyclophosphamide has contributed to the success of haploidentical hematopoietic stem cell transplantation (HSCT) and is also been used in transplantation from matched donors. However, limited data on the immune reconstitution after this type of immunosuppression is available. We aimed to evaluate immune reconstitution after HSCT from unrelated donors, comparing anti-thymocyte globulin (ATG) and post-transplant cyclophosphamide (PTCy). Consecutive patients undergoing HSCT from unrelated donors and receiving either ATG or PTCy were prospectively included. Immune reconstitution analyses were performed by flow cytometry pre transplant and on days 30, 60, 90, and 180 post-transplant. We included 36 patients, 20 in the ATG group and 16 in the PTCy group. In the early post-transplant period (D+30), the ATG group showed a higher number of total lymphocytes, T, B, and NK cells compared to the PTCy group. However, at D+180, the PTCy group exhibited a higher number of B cells. On D+60 and D+90, the ATG group displayed higher number of NK cells CD56dim compared to the PTCy group, while on D+180, the PTCy group showed higher number of CD56neg, CD16pos, and, NKG2Dpos NK cells. Naive CD4+, transition CD4+, and naive CD8+ T cells on D+60 were identified as risk factors for acute graft-versus-host disease (GVHD) grades II-IV, and a higher count of CD4+ memory cells on D+180 was identified as a risk factor for chronic GVHD. In the context of unrelated allogeneic transplantation, immunosuppression with PTCy was associated with later B, T and NK cells reconstitution compared to ATG.

Published

2024

10. BATF is a major driver of NK cell epigenetic reprogramming and dysfunction in AML.

Author

Kumar B, Singh A, Basar R, Uprety N, Li Y, Fan H, Cortes AKN, Kaplan M, Acharya S, Shaim H, Xu AC, Wu M, Ensley E, Fang D, Banerjee PP, Garcia LM, Tiberti S, Lin P, Rafei H, Munir MN, Moore M, Shanley M, Mendt M, Kerbauy LN, Liu B, Biederstädt A, Gokdemir E, Ghosh S, Kundu K, Reyes-Silva F, Jiang XR, Wan X, Gilbert AL, Dede M, Mohanty V, Dou J, Zhang P, Liu E, Muniz-Feliciano L, Deyter GM, Jain AK, Rodriguez-Sevilla JJ, Colla S, Garcia-Manero G, Shpall EJ, Chen K, Abbas HA, Rai K, Rezvani K, and Daher M

Subjects

Humans, Animals, Transforming Growth Factor beta metabolism, Signal Transduction, Mice, Cellular Reprogramming, Smad3 Protein metabolism, Smad2 Protein metabolism, Leukemia, Myeloid, Acute genetics, Leukemia, Myeloid, Acute pathology, Leukemia, Myeloid, Acute immunology, Epigenesis, Genetic, Basic-Leucine Zipper Transcription Factors metabolism, Basic-Leucine Zipper Transcription Factors genetics, Killer Cells, Natural metabolism, Killer Cells, Natural immunology

Abstract

Myelodysplastic syndrome and acute myeloid leukemia (AML) belong to a continuous disease spectrum of myeloid malignancies with poor prognosis in the relapsed/refractory setting necessitating novel therapies. Natural killer (NK) cells from patients with myeloid malignancies display global dysfunction with impaired killing capacity, altered metabolism, and an exhausted phenotype at the single-cell transcriptomic and proteomic levels. In this study, we identified that this dysfunction was mediated through a cross-talk between NK cells and myeloid blasts necessitating cell-cell contact. NK cell dysfunction could be prevented by targeting the αvβ-integrin/TGF-β/SMAD pathway but, once established, was persistent because of profound epigenetic reprogramming. We identified BATF as a core transcription factor and the main mediator of this NK cell dysfunction in AML. Mechanistically, we found that BATF was directly regulated and induced by SMAD2/3 and, in turn, bound to key genes related to NK cell exhaustion, such as HAVCR2 , LAG3 , TIGIT , and CTLA4 . BATF deletion enhanced NK cell function against AML in vitro and in vivo. Collectively, our findings reveal a previously unidentified mechanism of NK immune evasion in AML manifested by epigenetic rewiring and inactivation of NK cells by myeloid blasts. This work highlights the importance of using healthy allogeneic NK cells as an adoptive cell therapy to treat patients with myeloid malignancies combined with strategies aimed at preventing the dysfunction by targeting the TGF-β pathway or BATF.

Published

2024

11. LP-184, a Novel Acylfulvene Molecule, Exhibits Anticancer Activity against Diverse Solid Tumors with Homologous Recombination Deficiency.

Author

Kulkarni A, Zhou J, Biyani N, Kathad U, Banerjee PP, Srivastava S, Prucsi Z, Solarczyk K, Bhatia K, Ewesuedo RB, and Sharma P

Subjects

Humans, Animals, Mice, Cell Line, Tumor, Neoplasms drug therapy, Neoplasms genetics, Female, DNA Breaks, Double-Stranded drug effects, Male, DNA Repair drug effects, Xenograft Model Antitumor Assays, Homologous Recombination drug effects, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use

Abstract

Homologous recombination (HR)-related gene alterations are present in a significant subset of prostate, breast, ovarian, pancreatic, lung, and colon cancers rendering these tumors as potential responders to specific DNA damaging agents. A small molecule acylfulvene prodrug, LP-184, metabolizes to an active compound by the oxidoreductase activity of enzyme prostaglandin reductase 1 (PTGR1), which is frequently elevated in multiple solid tumor types. Prior work demonstrated that cancer cell lines deficient in a spectrum of DNA damage repair (DDR) pathway genes show increased susceptibility to LP-184. Here, we investigated the potential of LP-184 in targeting multiple tumors with impaired HR function and its mechanism of action as a DNA damaging agent. LP-184 induced elevated DNA double-strand breaks in HR deficient (HRD) cancer cells. Depletion of key HR components BRCA2 or ataxia telangiectasia mutated (ATM) in cancer cells conferred up to 12-fold increased sensitivity to the LP-184. LP-184 showed nanomolar potency in a diverse range of HRD cancer models, including prostate cancer organoids, leiomyosarcoma cell lines, and patient-derived tumor graft models of lung, pancreatic, and prostate cancers. LP-184 demonstrated complete, durable tumor regression in 10 patient-derived xenograft (PDX) models of HRD triple-negative breast cancer (TNBC) including those resistant to PARP inhibitors (PARPi). LP-184 further displayed strong synergy with PARPi in ovarian and prostate cancer cell lines as well as in TNBC PDX models. These preclinical findings illustrate the potential of LP-184 as a pan-HRD cancer therapeutic. Taken together, our results support continued clinical evaluation of LP-184 in a large subset of HRD solid tumors., Significance: New agents with activity against DDR-deficient solid tumors refractory to standard-of-care therapies are needed. We report multiple findings supporting the potential for LP-184, a novel alkylating agent with three FDA orphan drug designations, to fill this void clinically: strong nanomolar potency; sustained, durable regression of solid tumor xenografts; synthetic lethality with HR defects. LP-184 adult phase IA trial to assess safety in advanced solid tumors is ongoing., (© 2024 The Authors; Published by the American Association for Cancer Research.)

Published

2024

12. Analysis and implementation of volume reflection gratings in photorefractive lithium niobate for edge enhancement.

Author

Scott AM and Banerjee PP

Abstract

Diffraction from volume reflection gratings written in bulk photorefractive lithium niobate is modeled for the case of longitudinally varying index modulation depths. Numerical solutions to the Helmholtz equation are found in the spatial frequency domain, leading to transfer functions for the volume reflection grating. These transfer functions are then used to show the spatial frequency filtering effect of the volume reflection grating on input light fields containing 2D spatial information. It is shown, first through simulations and then by experiment, that the 0th order transmitted beam undergoes a 2D edge enhancement.

Published

2024

13. Transport of intensity and phase: applications to digital holography [Invited].

Author

Alanazi NA, Scott AM, Al-Ghezi H, Faryad M, Lakhtakia A, and Banerjee PP

Abstract

We first review transport of intensity and phase and show their use as a convenient tool to directly determine the unwrapped phase of an imaged object, either through conventional imaging or using digital holography. For both cases, either the traditional transport of intensity and phase, or with a modification, viz., electrically controllable transport of intensity and phase, can be used. The use of digital holography with transport of intensity for 3D topographic mapping of fingermarks coated with columnar thin films is shown as an illustrative application of this versatile technique.

Published

2024

14. Author Correction: KIR-based inhibitory CARs overcome CAR-NK cell trogocytosis-mediated fratricide and tumor escape.

Author

Li Y, Basar R, Wang G, Liu E, Moyes JS, Li L, Kerbauy LN, Uprety N, Fathi M, Rezvan A, Banerjee PP, Muniz-Feliciano L, Laskowski TJ, Ensley E, Daher M, Shanley M, Mendt M, Acharya S, Liu B, Biederstädt A, Rafei H, Guo X, Melo Garcia L, Lin P, Ang S, Marin D, Chen K, Bover L, Champlin RE, Varadarajan N, Shpall EJ, and Rezvani K

Published

2024

15. Loss of metabolic fitness drives tumor resistance after CAR-NK cell therapy and can be overcome by cytokine engineering.

Author

Li L, Mohanty V, Dou J, Huang Y, Banerjee PP, Miao Q, Lohr JG, Vijaykumar T, Frede J, Knoechel B, Muniz-Feliciano L, Laskowski TJ, Liang S, Moyes JS, Nandivada V, Basar R, Kaplan M, Daher M, Liu E, Li Y, Acharya S, Lin P, Shanley M, Rafei H, Marin D, Mielke S, Champlin RE, Shpall EJ, Chen K, and Rezvani K

Subjects

Humans, Interleukin-15 genetics, Interleukin-15 metabolism, Cytokines metabolism, Cell Line, Tumor, Killer Cells, Natural, Cell- and Tissue-Based Therapy, Receptors, Chimeric Antigen genetics, Receptors, Chimeric Antigen metabolism

Abstract

Chimeric antigen receptor (CAR) engineering of natural killer (NK) cells is promising, with early-phase clinical studies showing encouraging responses. However, the transcriptional signatures that control the fate of CAR-NK cells after infusion and factors that influence tumor control remain poorly understood. We performed single-cell RNA sequencing and mass cytometry to study the heterogeneity of CAR-NK cells and their in vivo evolution after adoptive transfer, from the phase of tumor control to relapse. Using a preclinical model of noncurative lymphoma and samples from a responder and a nonresponder patient treated with CAR19/IL-15 NK cells, we observed the emergence of NK cell clusters with distinct patterns of activation, function, and metabolic signature associated with different phases of in vivo evolution and tumor control. Interaction with the highly metabolically active tumor resulted in loss of metabolic fitness in NK cells that could be partly overcome by incorporation of IL-15 in the CAR construct.

Published

2023

16. Anti-miR-93-5p therapy prolongs sepsis survival by restoring the peripheral immune response.

Author

Dragomir MP, Fuentes-Mattei E, Winkle M, Okubo K, Bayraktar R, Knutsen E, Qdaisat A, Chen M, Li Y, Shimizu M, Pang L, Liu K, Liu X, Anfossi S, Zhang H, Koch I, Tran AM, Mohapatra S, Ton A, Kaplan M, Anderson MW, Rothfuss SJ, Silasi R, Keshari RS, Ferracin M, Ivan C, Rodriguez-Aguayo C, Lopez-Berestein G, Georgescu C, Banerjee PP, Basar R, Li Z, Horst D, Vasilescu C, Bertilaccio MTS, Rezvani K, Lupu F, Yeung SC, and Calin GA

Subjects

Humans, Mice, Animals, Aged, Antagomirs, Adaptive Immunity, MicroRNAs genetics, Sepsis pathology

Abstract

Sepsis remains a leading cause of death for humans and currently has no pathogenesis-specific therapy. Hampered progress is partly due to a lack of insight into deep mechanistic processes. In the past decade, deciphering the functions of small noncoding miRNAs in sepsis pathogenesis became a dynamic research topic. To screen for new miRNA targets for sepsis therapeutics, we used samples for miRNA array analysis of PBMCs from patients with sepsis and control individuals, blood samples from 2 cohorts of patients with sepsis, and multiple animal models: mouse cecum ligation puncture-induced (CLP-induced) sepsis, mouse viral miRNA challenge, and baboon Gram+ and Gram- sepsis models. miR-93-5p met the criteria for a therapeutic target, as it was overexpressed in baboons that died early after induction of sepsis, was downregulated in patients who survived after sepsis, and correlated with negative clinical prognosticators for sepsis. Therapeutically, inhibition of miR-93-5p prolonged the overall survival of mice with CLP-induced sepsis, with a stronger effect in older mice. Mechanistically, anti-miR-93-5p therapy reduced inflammatory monocytes and increased circulating effector memory T cells, especially the CD4+ subset. AGO2 IP in miR-93-KO T cells identified important regulatory receptors, such as CD28, as direct miR-93-5p target genes. In conclusion, miR-93-5p is a potential therapeutic target in sepsis through the regulation of both innate and adaptive immunity, with possibly a greater benefit for elderly patients than for young patients.

Published

2023

17. Digital Holography and 3D Imaging: introduction to the joint feature issue in Applied Optics and Journal of the Optical Society of America A.

Author

Chu D, Park JH, Ferraro P, Cheng CJ, Stoykova E, and Banerjee PP

Abstract

This feature issue is a continuation of a tradition to follow the conclusion of the Optica Topical Meeting on Digital Holography and 3D Imaging (DH+3D). It addresses current research topics in digital holography and 3D imaging that are also in line with the topics of Applied Optics and Journal of the Optical Society of America A.

Published

2023

18. Multiplexed digital volume reflection holograms generated from digital transmission holograms.

Author

Qissi S and Banerjee PP

Abstract

Interference from co-propagation of the object and reference beams can be digitally recorded for a digital transmission hologram (DTH). Volume holograms, as in display holography, which have been traditionally recorded in bulk photopolymer or photorefractive materials using a counter-propagating object and writing beams, are read out using multispectral light and offer the advantage of excellent wavelength selectivity. In this work, the reconstruction from a single digital volume reflection hologram (DVRH) and wavelength multiplexed DVRHs derived from respective single and multi-wavelength DTHs is investigated, using coupled wave theory and an angular spectral approach. The dependence of the diffraction efficiency on volume grating thickness, wavelength, and incident angle of the reading beam is studied.

Published

2023

19. Novel Paired Normal Prostate and Prostate Cancer Model Cell Systems Derived from African American Patients.

Author

Jung M, Kowalczyk K, Hankins R, Bandi G, Kallakury B, Carrasquilla MA, Banerjee PP, Grindrod S, and Dritschilo A

Subjects

Humans, Male, Black or African American genetics, Epithelial Cells, Cell Line, Tumor, Prostate surgery, Prostatic Neoplasms genetics

Abstract

Prostate cancer is the most frequently diagnosed solid malignancy in men. African American (AA) men are at greater risk for developing prostate cancer, and experience higher mortality rates, as compared with Caucasian American men. However, mechanistic studies to understand this health disparity have been limited by the lack of relevant in vitro and in vivo models. There is an urgent need for preclinical cellular models to investigate molecular mechanisms underlying prostate cancer in AA men. We collected clinical specimens from radical prostatectomies of AA patients and established 10 paired tumor-derived and normal epithelial cell cultures from the same donors, which were further cultivated to extend the growth under "conditional reprogramming." Clinical and cellular annotations characterized these model cells as intermediate risk and predominantly diploid. Immunocytochemical analyses demonstrated variable expression levels of luminal (CK8) and basal (CK5, p63) markers in both normal and tumor cells. However, expression levels of TOPK, c-MYC, and N-MYC were markedly increased only in tumor cells. To determine cell utility for drug testing, we examined viability of cells following exposure to the antiandrogen (bicalutamide) and two PARP inhibitors (olaparib and niraparib) and observed decreased viability of tumor-derived cells as compared with viability of normal prostate-derived cells., Significance: Cells derived from prostatectomies of AA patients conferred a bimodal cellular phenotype, recapitulating clinical prostate cellular complexity in this model cell system. Comparisons of viability responses of tumor derived to normal epithelial cells offer the potential for screening therapeutic drugs. Therefore, these paired prostate epithelial cell cultures provide an in vitro model system suitable for studies of molecular mechanisms in health disparities., Competing Interests: M. Jung reports other from Shuttle Pharmaceuticals, Inc outside the submitted work. S. Grindrod reports grants from Shuttle Pharmaceuticals Inc during the conduct of the study; grants from Shuttle Pharmaceuticals Inc outside the submitted work. A. Dritschilo reports grants from NIH SBIR during the conduct of the study; other from Shuttle Pharmaceuticals, Inc. outside the submitted work. No disclosures were reported by the other authors., (© 2022 The Authors; Published by the American Association for Cancer Research.)

Published

2022

20. Activated B cells suppress T-cell function through metabolic competition.

Author

Imahashi N, Basar R, Huang Y, Wang F, Baran N, Banerjee PP, Lu J, Nunez Cortes AK, Uprety N, Ensley E, Muniz-Feliciano L, Laskowski TJ, Moyes JS, Daher M, Mendt M, Kerbauy LN, Shanley M, Li L, Lim FLWI, Shaim H, Li Y, Konopleva M, Green M, Wargo J, Shpall EJ, Chen K, and Rezvani K

Subjects

Immunosuppressive Agents pharmacology, Sirolimus, Immunotherapy, T-Lymphocytes, B-Lymphocytes

Abstract

Background: B cells play a pivotal role in regulating the immune response. The induction of B cell-mediated immunosuppressive function requires B cell activating signals. However, the mechanisms by which activated B cells mediate T-cell suppression are not fully understood., Methods: We investigated the potential contribution of metabolic activity of activated B cells to T-cell suppression by performing in vitro experiments and by analyzing clinical samples using mass cytometry and single-cell RNA sequencing., Results: Here we show that following activation, B cells acquire an immunoregulatory phenotype and promote T-cell suppression by metabolic competition. Activated B cells induced hypoxia in T cells in a cell-cell contact dependent manner by consuming more oxygen via an increase in their oxidative phosphorylation (OXPHOS). Moreover, activated B cells deprived T cells of glucose and produced lactic acid through their high glycolytic activity. Activated B cells thus inhibited the mammalian target of rapamycin pathway in T cells, resulting in suppression of T-cell cytokine production and proliferation. Finally, we confirmed the presence of tumor-associated B cells with high glycolytic and OXPHOS activities in patients with melanoma, associated with poor response to immune checkpoint blockade therapy., Conclusions: We have revealed for the first time the immunomodulatory effects of the metabolic activity of activated B cells and their possible role in suppressing antitumor T-cell responses. These findings add novel insights into immunometabolism and have important implications for cancer immunotherapy., Competing Interests: Competing interests: KR, RB, PPB, MD, LNK, EJS and The University of Texas MD Anderson Cancer Center have an institutional financial conflict of interest with Takeda Pharmaceutical. KR, RB, LNK, EJS, and The University of Texas MD Anderson Cancer Center have an institutional financial conflict of interest with Affimed GmbH. KR participates on the Scientific Advisory Board for GemoAb, Avenge Bio, Virogin Biotech, GSK, Caribou Biosciences, Navan Technologies and Bayer. The remaining authors declare no competing financial interests., (© Author(s) (or their employer(s)) 2022. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2022

21. KIR-based inhibitory CARs overcome CAR-NK cell trogocytosis-mediated fratricide and tumor escape.

Author

Li Y, Basar R, Wang G, Liu E, Moyes JS, Li L, Kerbauy LN, Uprety N, Fathi M, Rezvan A, Banerjee PP, Muniz-Feliciano L, Laskowski TJ, Ensley E, Daher M, Shanley M, Mendt M, Acharya S, Liu B, Biederstädt A, Rafei H, Guo X, Melo Garcia L, Lin P, Ang S, Marin D, Chen K, Bover L, Champlin RE, Varadarajan N, Shpall EJ, and Rezvani K

Subjects

Antigens, Neoplasm, Cell Line, Tumor, Immunotherapy, Adoptive methods, Killer Cells, Natural, Trogocytosis, Tumor Escape, Receptors, Chimeric Antigen metabolism

Abstract

Trogocytosis is an active process that transfers surface material from targeted to effector cells. Using multiple in vivo tumor models and clinical data, we report that chimeric antigen receptor (CAR) activation in natural killer (NK) cells promoted transfer of the CAR cognate antigen from tumor to NK cells, resulting in (1) lower tumor antigen density, thus impairing the ability of CAR-NK cells to engage with their target, and (2) induced self-recognition and continuous CAR-mediated engagement, resulting in fratricide of trogocytic antigen-expressing NK cells (NK TROG+ ) and NK cell hyporesponsiveness. This phenomenon could be offset by a dual-CAR system incorporating both an activating CAR against the cognate tumor antigen and an NK self-recognizing inhibitory CAR that transferred a 'don't kill me' signal to NK cells upon engagement with their TROG + siblings. This system prevented trogocytic antigen-mediated fratricide, while sparing activating CAR signaling against the tumor antigen, and resulted in enhanced CAR-NK cell activity., (© 2022. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published

2022

22. Engineered cord blood megakaryocytes evade killing by allogeneic T-cells for refractory thrombocytopenia.

Author

Kumar B, Afshar-Kharghan V, Mendt M, Sackstein R, Tanner MR, Popat U, Ramdial J, Daher M, Jimenez J, Basar R, Melo Garcia L, Shanley M, Kaplan M, Wan X, Nandivada V, Reyes Silva F, Woods V, Gilbert A, Gonzalez-Delgado R, Acharya S, Lin P, Rafei H, Banerjee PP, and Shpall EJ

Subjects

Animals, Cytokines pharmacology, Fetal Blood, Megakaryocytes, Mice, T-Lymphocytes, rho-Associated Kinases, Hematopoietic Stem Cell Transplantation, Thrombocytopenia

Abstract

The current global platelet supply is often insufficient to meet all the transfusion needs of patients, in particular for those with alloimmune thrombocytopenia. To address this issue, we have developed a strategy employing a combination of approaches to achieve more efficient production of functional megakaryocytes (MKs) and platelets collected from cord blood (CB)-derived CD34+ hematopoietic cells. This strategy is based on ex-vivo expansion and differentiation of MKs in the presence of bone marrow niche-mimicking mesenchymal stem cells (MSCs), together with two other key components: (1) To enhance MK polyploidization, we used the potent pharmacological Rho-associated coiled-coil kinase (ROCK) inhibitor, KD045, resulting in liberation of increased numbers of functional platelets both in-vitro and in-vivo ; (2) To evade HLA class I T-cell-driven killing of these expanded MKs, we employed CRISPR-Cas9-mediated β-2 microglobulin (β2M) gene knockout (KO). We found that coculturing with MSCs and MK-lineage-specific cytokines significantly increased MK expansion. This was further increased by ROCK inhibition, which induced MK polyploidization and platelet production. Additionally, ex-vivo treatment of MKs with KD045 resulted in significantly higher levels of engraftment and donor chimerism in a mouse model of thrombocytopenia. Finally, β2M KO allowed MKs to evade killing by allogeneic T-cells. Overall, our approaches offer a novel, readily translatable roadmap for producing adult donor-independent platelet products for a variety of clinical indications., Competing Interests: ES, BK, MM, VA, RB have filed for a patent MDA20-0115; UTSC.P1219US.P1 “Production of megakaryocytes and platelets in a co-culture system”. ES and RB and the MDACC has an institutional financial conflict of interest with Affimed GmbH and Takeda Pharmaceuticals for the licensing of the technology related to CAR-NK cells. ES participates on Scientific Advisory Board for Bayer, Novartis, Magenta, Adaptimmune, Mesoblast and Axio. According to NIH policies and procedures, the Brigham & Women’s Hospital has assigned intellectual property rights regarding cell surface glycan engineering to RS. RS’s ownership interests were reviewed and are managed by the Brigham & Women’s Hospital and Partners HealthCare in accordance with their conflict of interest policy. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be constructed as a potential conflict of interest, (Copyright © 2022 Kumar, Afshar-Kharghan, Mendt, Sackstein, Tanner, Popat, Ramdial, Daher, Jimenez, Basar, Melo Garcia, Shanley, Kaplan, Wan, Nandivada, Reyes Silva, Woods, Gilbert, Gonzalez-Delgado, Acharya, Lin, Rafei, Banerjee and Shpall.)

Published

2022

23. A multi-omics approach identifies pancreatic cancer cell extracellular vesicles as mediators of the unfolded protein response in normal pancreatic epithelial cells.

Author

Hinzman CP, Singh B, Bansal S, Li Y, Iliuk A, Girgis M, Herremans KM, Trevino JG, Singh VK, Banerjee PP, and Cheema AK

Subjects

Epithelial Cells metabolism, Humans, Palmitic Acid metabolism, Pancreas metabolism, Tumor Microenvironment, Pancreatic Neoplasms, Carcinoma, Pancreatic Ductal metabolism, Extracellular Vesicles metabolism, Pancreatic Neoplasms metabolism, Unfolded Protein Response

Abstract

Although cancer-derived extracellular vesicles (cEVs) are thought to play a pivotal role in promoting cancer progression events, their precise effect on neighbouring normal cells is unknown. In this study, we investigated the impact of pancreatic cancer ductal adenocarcinoma (PDAC) derived EVs on recipient non-tumourigenic pancreatic normal epithelial cells upon internalization. We demonstrate that cEVs are readily internalized and induce endoplasmic reticulum (ER) stress and the unfolded protein response (UPR) in treated normal pancreatic epithelial cells within 24 h. We further show that PDAC cEVs increase cell proliferation, migration, and invasion and that these changes are regulated at least in part, by the UPR mediator DDIT3. Subsequently, these cells release several inflammatory cytokines. Leveraging a layered multi-omics approach, we analysed EV cargo from a panel of six PDAC and two normal pancreas cell lines, using multiple EV isolation methods. We found that cEVs were enriched for an array of biomolecules which can induce or regulate ER stress and the UPR, including palmitic acid, sphingomyelins, metabolic regulators of tRNA charging and proteins which regulate trafficking and degradation. We further show that palmitic acid, at doses relevant to those found in cEVs, is sufficient to induce ER stress in normal pancreas cells. These results suggest that cEV cargo packaging may be designed to disseminate proliferative and invasive characteristics upon internalization by distant recipient normal cells, hitherto unreported. This study is among the first to highlight a major role for PDAC cEVs to induce stress in treated normal pancreas cells that may modulate a systemic response leading to altered phenotypes. These findings highlight the importance of EVs in mediating disease aetiology and open potential areas of investigation toward understanding the role of cEV lipids in promoting cell transformation in the surrounding microenvironment., (© 2022 The Authors. Journal of Extracellular Vesicles published by Wiley Periodicals, LLC on behalf of the International Society for Extracellular Vesicles.)

Published

2022

24. Digital Holography and 3D Imaging: introduction to the joint feature issue in Applied Optics and Journal of the Optical Society of America A.

Author

Banerjee PP, Stoykova E, Chu D, Park JH, Ferraro P, and Sheridan J

Abstract

This feature issue is a continuation of a tradition, since 2007, to follow the conclusion of the OSA Topical Meeting on Digital Holography and 3D Imaging (DH+3D). It addresses current research topics in digital holography (DH) and 3D imaging that are also in line with the topics of Applied Optics (AO) and the Journal of the Optical Society of America A (JOSA A).

Published

2022

25. Non-recursive transport of intensity phase retrieval with the transport of phase.

Author

Zhou H, Guo H, and Banerjee PP

Abstract

The transport of intensity equation (TIE) is a non-interferometric phase retrieval method that originates from the imaginary part of the Helmholtz equation and is equivalent to the law of conservation of energy. From the real part of the Helmholtz equation, the transport of phase equation (TPE), which represents the Eikonal equation in the presence of diffraction, can be derived. The amplitude and phase for an arbitrary optical field should satisfy these coupled equations simultaneously during propagation. In this work, the coupling between the TIE and TPE is exploited to improve the phase retrieval solutions from the TIE. Specifically, a non-recursive fast Fourier transform (FFT)-based phase retrieval method using both the TIE and TPE is demonstrated. Based on the FFT-based TIE solution, a correction factor calculated by the TPE is introduced to improve the phase retrieval results.

Published

2022

26. Use of structured light in 3D reconstruction of transparent objects.

Author

Guo H, Zhou H, and Banerjee PP

Abstract

A simple non-interferometric incoherent light ray propagation model is introduced to perform three-dimensional profiling of transparent objects with typical thicknesses of the order of mm to cm by analyzing the distorted captured image behind the object. A two-dimensional cosine fringe is used as the incident reference image, whose periodicity is markedly altered by the shape of the object. By monitoring the local change in the period, the surface profile is simulated and optimized to achieve minimal error with experimental data and thus determine the final morphology. Our proposed method is simple, robust, straightforward, and single-shot, and can be used with coherent or incoherent illumination. Its feasibility for more complex applications is verified experimentally through rigorous error calculation. Moreover, the application of this technique for arbitrary transparent objects is theoretically attainable and promising.

Published

2022

27. TGFβ Drives Metabolic Perturbations during Epithelial Mesenchymal Transition in Pancreatic Cancer: TGFβ Induced EMT in PDAC.

Author

Rajagopal MU, Bansal S, Kaur P, Jain SK, Altadil T, Hinzman CP, Li Y, Moulton J, Singh B, Bansal S, Chauthe SK, Singh R, Banerjee PP, Mapstone M, Fiandaca MS, Federoff HJ, Unger K, Smith JP, and Cheema AK

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is a highly lethal malignancy wherein a majority of patients present metastatic disease at diagnosis. Although the role of epithelial to mesenchymal transition (EMT), mediated by transforming growth factor beta (TGFβ), in imparting an aggressive phenotype to PDAC is well documented, the underlying biochemical pathway perturbations driving this behaviour have not been elucidated. We used high-resolution mass spectrometry (HRMS) based molecular phenotyping approach in order to delineate metabolic changes concomitant to TGFβ-induced EMT in pancreatic cancer cells. Strikingly, we observed robust changes in amino acid and energy metabolism that may contribute to tumor invasion and metastasis. Somewhat unexpectedly, TGFβ treatment resulted in an increase in intracellular levels of retinoic acid (RA) that in turn resulted in increased levels of extracellular matrix (ECM) proteins including fibronectin (FN) and collagen (COL1). These findings were further validated in plasma samples obtained from patients with resectable pancreatic cancer. Taken together, these observations provide novel insights into small molecule dysregulation that triggers a molecular cascade resulting in increased EMT-like changes in pancreatic cancer cells, a paradigm that can be potentially targeted for better clinical outcomes.

Published

2021

28. Stress-Mediated Reprogramming of Prostate Cancer One-Carbon Cycle Drives Disease Progression.

Author

Pällmann N, Deng K, Livgård M, Tesikova M, Jin Y, Frengen NS, Kahraman N, Mokhlis HM, Ozpolat B, Kildal W, Danielsen HE, Fazli L, Rennie PS, Banerjee PP, Üren A, Jin Y, Kuzu OF, and Saatcioglu F

Subjects

Animals, Cell Line, Tumor, Cell Proliferation, Disease Progression, Humans, Male, Mice, Mice, Nude, Carbon Cycle genetics, Prostatic Neoplasms genetics

Abstract

One-carbon (1C) metabolism has a key role in metabolic programming with both mitochondrial (m1C) and cytoplasmic (c1C) components. Here we show that activating transcription factor 4 (ATF4) exclusively activates gene expression involved in m1C, but not the c1C cycle in prostate cancer cells. This includes activation of methylenetetrahydrofolate dehydrogenase 2 (MTHFD2) expression, the central player in the m1C cycle. Consistent with the key role of m1C cycle in prostate cancer, MTHFD2 knockdown inhibited prostate cancer cell growth, prostatosphere formation, and growth of patient-derived xenograft organoids. In addition, therapeutic silencing of MTHFD2 by systemically administered nanoliposomal siRNA profoundly inhibited tumor growth in preclinical prostate cancer mouse models. Consistently, MTHFD2 expression is significantly increased in human prostate cancer, and a gene expression signature based on the m1C cycle has significant prognostic value. Furthermore, MTHFD2 expression is coordinately regulated by ATF4 and the oncoprotein c-MYC, which has been implicated in prostate cancer. These data suggest that the m1C cycle is essential for prostate cancer progression and may serve as a novel biomarker and therapeutic target. SIGNIFICANCE: These findings demonstrate that the mitochondrial, but not cytoplasmic, one-carbon cycle has a key role in prostate cancer cell growth and survival and may serve as a biomarker and/or therapeutic target., (©2021 American Association for Cancer Research.)

Published

2021

29. Generation of glucocorticoid-resistant SARS-CoV-2 T cells for adoptive cell therapy.

Author

Basar R, Uprety N, Ensley E, Daher M, Klein K, Martinez F, Aung F, Shanley M, Hu B, Gokdemir E, Nunez Cortes AK, Mendt M, Reyes Silva F, Acharya S, Laskowski T, Muniz-Feliciano L, Banerjee PP, Li Y, Li S, Melo Garcia L, Lin P, Shaim H, Yates SG, Marin D, Kaur I, Rao S, Mak D, Lin A, Miao Q, Dou J, Chen K, Champlin RE, Shpall EJ, and Rezvani K

Abstract

Adoptive cell therapy with virus-specific T cells has been used successfully to treat life-threatening viral infections, supporting application of this approach to coronavirus disease 2019 (COVID-19). We expand severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) T cells from the peripheral blood of COVID-19-recovered donors and non-exposed controls using different culture conditions. We observe that the choice of cytokines modulates the expansion, phenotype, and hierarchy of antigenic recognition by SARS-CoV-2 T cells. Culture with interleukin (IL)-2/4/7, but not under other cytokine-driven conditions, results in more than 1,000-fold expansion in SARS-CoV-2 T cells with a retained phenotype, function, and hierarchy of antigenic recognition compared with baseline (pre-expansion) samples. Expanded cytotoxic T lymphocytes (CTLs) are directed against structural SARS-CoV-2 proteins, including the receptor-binding domain of Spike. SARS-CoV-2 T cells cannot be expanded efficiently from the peripheral blood of non-exposed controls. Because corticosteroids are used for management of severe COVID-19, we propose an efficient strategy to inactivate the glucocorticoid receptor gene (NR3C1) in SARS-CoV-2 CTLs using CRISPR-Cas9 gene editing., Competing Interests: Declaration of interests R.B., D. Marin, E.J.S., K.R., and The University of Texas MD Anderson Cancer Center have an institutional financial conflict of interest with Affimed GmbH. Because MD Anderson is committed to the protection of human subjects and the effective management of its financial conflicts of interest in relation to its research activities, MD Anderson is implementing an Institutional Conflict of Interest Management and Monitoring Plan to manage and monitor the conflict of interest with respect to MD Anderson’s conduct of any other ongoing or future research related to this relationship. R.B., M.D., P.P.B., D. Marin, R.E.C., E.J.S., K.R., and The University of Texas MD Anderson Cancer Center have an institutional financial conflict of interest with Takeda Pharmaceutical for the licensing of the technology related to CAR-NK cell research. MD Anderson has implemented an Institutional Conflict of Interest Management and Monitoring Plan to manage and monitor the conflict of interest with respect to MDACC’s conduct of any other ongoing or future research related to this relationship. K.R. participates on the Scientific Advisory Board for GemoAb, AvengeBio, Virogin, GSK, and Bayer., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021

30. Targeting the αv integrin/TGF-β axis improves natural killer cell function against glioblastoma stem cells.

Author

Shaim H, Shanley M, Basar R, Daher M, Gumin J, Zamler DB, Uprety N, Wang F, Huang Y, Gabrusiewicz K, Miao Q, Dou J, Alsuliman A, Kerbauy LN, Acharya S, Mohanty V, Mendt M, Li S, Lu J, Wei J, Fowlkes NW, Gokdemir E, Ensley EL, Kaplan M, Kassab C, Li L, Ozcan G, Banerjee PP, Shen Y, Gilbert AL, Jones CM, Bdiwi M, Nunez-Cortes AK, Liu E, Yu J, Imahashi N, Muniz-Feliciano L, Li Y, Hu J, Draetta G, Marin D, Yu D, Mielke S, Eyrich M, Champlin RE, Chen K, Lang FF, Shpall EJ, Heimberger AB, and Rezvani K

Subjects

Animals, Female, Glioblastoma genetics, Glioblastoma pathology, Glioblastoma therapy, Heterografts, Humans, Integrins genetics, Killer Cells, Natural pathology, Male, Mice, Neoplasm Proteins genetics, Neoplasm Transplantation, Neoplastic Stem Cells pathology, Receptor, Transforming Growth Factor-beta Type II genetics, Receptor, Transforming Growth Factor-beta Type II immunology, Transforming Growth Factor beta genetics, Glioblastoma immunology, Integrins immunology, Killer Cells, Natural immunology, Neoplasm Proteins immunology, Neoplastic Stem Cells immunology, Transforming Growth Factor beta immunology

Abstract

Glioblastoma multiforme (GBM), the most aggressive brain cancer, recurs because glioblastoma stem cells (GSCs) are resistant to all standard therapies. We showed that GSCs, but not normal astrocytes, are sensitive to lysis by healthy allogeneic natural killer (NK) cells in vitro. Mass cytometry and single-cell RNA sequencing of primary tumor samples revealed that GBM tumor-infiltrating NK cells acquired an altered phenotype associated with impaired lytic function relative to matched peripheral blood NK cells from patients with GBM or healthy donors. We attributed this immune evasion tactic to direct cell-to-cell contact between GSCs and NK cells via αv integrin-mediated TGF-β activation. Treatment of GSC-engrafted mice with allogeneic NK cells in combination with inhibitors of integrin or TGF-β signaling or with TGFBR2 gene-edited allogeneic NK cells prevented GSC-induced NK cell dysfunction and tumor growth. These findings reveal an important mechanism of NK cell immune evasion by GSCs and suggest the αv integrin/TGF-β axis as a potentially useful therapeutic target in GBM.

Published

2021

31. Combining AFM13, a Bispecific CD30/CD16 Antibody, with Cytokine-Activated Blood and Cord Blood-Derived NK Cells Facilitates CAR-like Responses Against CD30 + Malignancies.

Author

Kerbauy LN, Marin ND, Kaplan M, Banerjee PP, Berrien-Elliott MM, Becker-Hapak M, Basar R, Foster M, Garcia Melo L, Neal CC, McClain E, Daher M, Nunez Cortes AK, Desai S, Inng Lim FW, Mendt MC, Schappe T, Li L, Shaim H, Shanley M, Ensley EL, Uprety N, Wong P, Liu E, Ang SO, Cai R, Nandivada V, Mohanty V, Miao Q, Shen Y, Baran N, Fowlkes NW, Chen K, Muniz-Feliciano L, Champlin RE, Nieto YL, Koch J, Treder M, Fischer W, Okamoto OK, Shpall EJ, Fehniger TA, and Rezvani K

Subjects

Humans, Blood drug effects, Blood immunology, Cells, Cultured, Combined Modality Therapy, Cytokines pharmacology, Fetal Blood drug effects, Fetal Blood immunology, Ki-1 Antigen immunology, Receptors, IgG immunology, Antibodies, Bispecific therapeutic use, Immunotherapy methods, Killer Cells, Natural immunology, Leukemia therapy, Lymphoma therapy

Abstract

Purpose: Natural killer (NK)-cell recognition and function against NK-resistant cancers remain substantial barriers to the broad application of NK-cell immunotherapy. Potential solutions include bispecific engagers that target NK-cell activity via an NK-activating receptor when simultaneously targeting a tumor-specific antigen, as well as enhancing functionality using IL12/15/18 cytokine pre-activation., Experimental Design: We assessed single-cell NK-cell responses stimulated by the tetravalent bispecific antibody AFM13 that binds CD30 on leukemia/lymphoma targets and CD16A on various types of NK cells using mass cytometry and cytotoxicity assays. The combination of AFM13 and IL12/15/18 pre-activation of blood and cord blood-derived NK cells was investigated in vitro and in vivo ., Results: We found heterogeneity within AFM13-directed conventional blood NK cell (cNK) responses, as well as consistent AFM13-directed polyfunctional activation of mature NK cells across donors. NK-cell source also impacted the AFM13 response, with cNK cells from healthy donors exhibiting superior responses to those from patients with Hodgkin lymphoma. IL12/15/18-induced memory-like NK cells from peripheral blood exhibited enhanced killing of CD30 + lymphoma targets directed by AFM13, compared with cNK cells. Cord-blood NK cells preactivated with IL12/15/18 and ex vivo expanded with K562-based feeders also exhibited enhanced killing with AFM13 stimulation via upregulation of signaling pathways related to NK-cell effector function. AFM13-NK complex cells exhibited enhanced responses to CD30 + lymphomas in vitro and in vivo ., Conclusions: We identify AFM13 as a promising combination with cytokine-activated adult blood or cord-blood NK cells to treat CD30 + hematologic malignancies, warranting clinical trials with these novel combinations., (©2021 American Association for Cancer Research.)

Published

2021

32. T-LAK cell-originated protein kinase (TOPK) enhances androgen receptor splice variant (ARv7) and drives androgen-independent growth in prostate cancer.

Author

Alhawas L, Amin KS, Salla B, and Banerjee PP

Subjects

Alternative Splicing, Androgen Antagonists pharmacology, Androgen Antagonists therapeutic use, Androgens metabolism, Antineoplastic Agents, Hormonal pharmacology, Antineoplastic Agents, Hormonal therapeutic use, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Biomarkers, Tumor analysis, Biomarkers, Tumor antagonists & inhibitors, Biomarkers, Tumor metabolism, Cell Line, Tumor, Disease-Free Survival, Drug Resistance, Neoplasm drug effects, Drug Resistance, Neoplasm genetics, Humans, Inhibitory Concentration 50, Male, Mitogen-Activated Protein Kinase Kinases analysis, Mitogen-Activated Protein Kinase Kinases antagonists & inhibitors, Neoplasm Recurrence, Local epidemiology, Neoplasm Recurrence, Local prevention & control, Prognosis, Prostate pathology, Prostatic Neoplasms, Castration-Resistant drug therapy, Prostatic Neoplasms, Castration-Resistant mortality, Prostatic Neoplasms, Castration-Resistant pathology, Protein Kinase Inhibitors pharmacology, Protein Kinase Inhibitors therapeutic use, Quinolones pharmacology, Quinolones therapeutic use, Receptors, Androgen metabolism, Signal Transduction drug effects, Signal Transduction genetics, Thiophenes pharmacology, Thiophenes therapeutic use, Transcriptional Activation drug effects, Antineoplastic Combined Chemotherapy Protocols pharmacology, Mitogen-Activated Protein Kinase Kinases metabolism, Neoplasm Recurrence, Local genetics, Prostatic Neoplasms, Castration-Resistant genetics, Receptors, Androgen genetics

Abstract

Despite impressive advances in the treatment of prostate cancer with various efficacious inhibitors along the androgen/androgen receptor axis, eventual development of incurable metastatic Castration-Resistant Prostate Cancer (mCRPC) is inevitable and remains a major clinical challenge. Constitutively active androgen receptor (AR) spliced variants have emerged as primary means of resistance to anti-androgens and androgen synthesis inhibitors. The alternatively spliced AR variant, ARv7, has attracted significant interest due to its constitutively active status in CRPC that drives androgen-independence. Factors that are involved in regulating ARv7 levels in CRPC are not clearly known. We recently demonstrated that a protein kinase, T-LAK cell-originated protein kinase (TOPK) level correlates with the aggressiveness of prostate cancer and its invasive behavior. In this study, we investigated whether TOPK plays a role in driving androgen-independence in prostate cancer cells. Our data demonstrate that TOPK overexpression in androgen-dependent LNCaP and VCaP induces ARv7 and drives androgen-independent growth. On the other hand, pharmacological inhibition of TOPK in androgen-independent LNCaP95 and 22Rv1 represses AR transactivation, and AR stability. In summary, this study illustrates a direct role of TOPK in regulating ARv7 and driving androgen-independence in prostate cancer cells., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2021

33. Bacopasaponins with cytotoxic activity against human breast cancer cells in vitro.

Author

Bandyopadhyay A, Garai S, Banerjee PP, Bhattacharya S, and Chattopadhyay A

Subjects

Apoptosis drug effects, Cell Death drug effects, Cell Line, Tumor, Cell Shape drug effects, Cell Survival drug effects, Female, Humans, Lymphocytes drug effects, Saponins chemistry, Triterpenes chemistry, Breast Neoplasms pathology, Saponins pharmacology, Triterpenes pharmacology

Abstract

Globally, breast cancer is a serious concern that exhibits a persistent rise in its incidence and related mortality even after significant advancement in the field of cancer research. To find an alternative cure for the disease from natural resources we selected Bacopa monniera, a perennial ethnomedicinal plant popularly used for boosting memory and mental health. We isolated four different types of dammarane saponins, namely bacopasaponins C-F (1-4) from the plant and evaluated their toxic effects on two different types of human breast cancer cell lines-a hormone-responsive MCF7 and a triple-negative MDA-MB-231. Interestingly, MTT assay revealed a dose-dependent toxic effect of all four types of bacopasaponins on both of these cell lines, 4 being the most effective with 48 h-inhibitory concentration (IC 50 ) of 32.44 and 30 µM in MCF7 and MDA-MB-231 respectively. Further, 4 caused significant alterations in normal cytomorphology and induction of apoptosis in both of these cell lines after 48 h of treatment. No caspase-8 activity was detected in these cell lines when exposed to 4 for 2, 24, and 48 h; instead, Western blotting analysis confirmed involvement of either caspase-9 (MCF7) or both caspase-9 and caspase-3 (MDA-MB-231) in the process of apoptosis indicating the occurrence of intrinsic mode. Additionally, at comparable effective doses to cancer, bacopasaponins showed much less toxicity in normal human peripheral blood lymphocytes (≥ 85% cell survival). Overall, the findings project bacopasaponin F, a natural constituent of Bacopa monniera, as an efficient and safer alternative for breast cancer therapeutics.

Published

2021

34. GMP-Compliant Universal Antigen Presenting Cells (uAPC) Promote the Metabolic Fitness and Antitumor Activity of Armored Cord Blood CAR-NK Cells.

Author

Liu E, Ang SOT, Kerbauy L, Basar R, Kaur I, Kaplan M, Li L, Tong Y, Daher M, Ensley EL, Uprety N, Nunez Cortes AK, Yang RZ, Li Y, Shaim H, Reyes Silva F, Lin P, Mohanty V, Acharya S, Shanley M, Muniz-Feliciano L, Banerjee PP, Chen K, Champlin RE, Shpall EJ, and Rezvani K

Subjects

Animals, Cell Engineering, Cell Line, Tumor, Cell Proliferation, Cytotoxicity, Immunologic, Fetal Blood, HLA Antigens genetics, Humans, K562 Cells, Mice, Mice, Knockout, Receptors, Natural Killer Cell metabolism, Transcriptome, Transduction, Genetic, Xenograft Model Antitumor Assays, Antigen-Presenting Cells metabolism, Killer Cells, Natural immunology, Killer Cells, Natural metabolism, Receptors, Chimeric Antigen genetics

Abstract

Natural killer (NK) cells are innate lymphocytes recognized for their important role against tumor cells. NK cells expressing chimeric antigen receptors (CARs) have enhanced effector function against various type of cancer and are attractive contenders for the next generation of cancer immunotherapies. However, a number of factors have hindered the application of NK cells for cellular therapy, including their poor in vitro growth kinetics and relatively low starting percentages within the mononuclear cell fraction of peripheral blood or cord blood (CB). To overcome these limitations, we genetically-engineered human leukocyte antigen (HLA)-A - and HLA-B - K562 cells to enforce the expression of CD48, 4-1BBL, and membrane-bound IL-21 (mbIL21), creating a universal antigen presenting cell (uAPC) capable of stimulating their cognate receptors on NK cells. We have shown that uAPC can drive the expansion of both non-transduced (NT) and CAR-transduced CB derived NK cells by >900-fold in 2 weeks of co-culture with excellent purity (>99.9%) and without indications of senescence/exhaustion. We confirmed that uAPC-expanded research- and clinical-grade NT and CAR-transduced NK cells have higher metabolic fitness and display enhanced effector function against tumor targets compared to the corresponding cell fractions cultured without uAPCs. This novel approach allowed the expansion of highly pure GMP-grade CAR NK cells at optimal cell numbers to be used for adoptive CAR NK cell-based cancer immunotherapy., Competing Interests: KR, ES, RC, EL, SAn, RB, MD, PB, and The University of Texas MD Anderson Cancer Center (MDACC) have an institutional financial conflict of interest with Takeda Pharmaceutical for the licensing of the technology related to CAR-NK cell research reported here. MD Anderson has implemented an Institutional Conflict of Interest Management and Monitoring Plan to manage and monitor the conflict of interest with respect to MDACC's conduct of any other ongoing or future research related to this relationship. KR, ES, RB, EL, SAn and The University of Texas MD Anderson Cancer Center has an institutional financial conflict of interest with Affimed GmbH. Because MD Anderson is committed to the protection of human subjects and the effective management of its financial conflicts of interest in relation to its research activities, MD Anderson is implementing an Institutional Conflict of Interest Management and Monitoring Plan to manage and monitor the conflict of interest with respect to MD Anderson's conduct of any other ongoing or future research related to this relationship. KR participates on Scientific Advisory Board for GemoAb, AvengeBio, Kiadis, GSK and Bayer. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Liu, Ang, Kerbauy, Basar, Kaur, Kaplan, Li, Tong, Daher, Ensley, Uprety, Nunez Cortes, Yang, Li, Shaim, Reyes Silva, Lin, Mohanty, Acharya, Shanley, Muniz-Feliciano, Banerjee, Chen, Champlin, Shpall and Rezvani.)

Published

2021

35. Targeting a cytokine checkpoint enhances the fitness of armored cord blood CAR-NK cells.

Author

Daher M, Basar R, Gokdemir E, Baran N, Uprety N, Nunez Cortes AK, Mendt M, Kerbauy LN, Banerjee PP, Shanley M, Imahashi N, Li L, Lim FLWI, Fathi M, Rezvan A, Mohanty V, Shen Y, Shaim H, Lu J, Ozcan G, Ensley E, Kaplan M, Nandivada V, Bdiwi M, Acharya S, Xi Y, Wan X, Mak D, Liu E, Jiang XR, Ang S, Muniz-Feliciano L, Li Y, Wang J, Kordasti S, Petrov N, Varadarajan N, Marin D, Brunetti L, Skinner RJ, Lyu S, Silva L, Turk R, Schubert MS, Rettig GR, McNeill MS, Kurgan G, Behlke MA, Li H, Fowlkes NW, Chen K, Konopleva M, Champlin RE, Shpall EJ, and Rezvani K

Subjects

Aerobiosis, Animals, Antigens, CD19 immunology, Burkitt Lymphoma pathology, Burkitt Lymphoma therapy, CRISPR-Cas Systems, Cell Line, Tumor, Gene Knockout Techniques, Glycolysis, Humans, Immune Checkpoint Inhibitors pharmacology, Interleukin-15 metabolism, Killer Cells, Natural immunology, Killer Cells, Natural metabolism, Killer Cells, Natural transplantation, Mechanistic Target of Rapamycin Complex 1 physiology, Mice, Neoplasm Proteins genetics, Neoplasm Proteins physiology, Proto-Oncogene Proteins c-akt physiology, Receptors, Chimeric Antigen, Signal Transduction physiology, Suppressor of Cytokine Signaling Proteins genetics, Suppressor of Cytokine Signaling Proteins physiology, Xenograft Model Antitumor Assays, Fetal Blood cytology, Immunotherapy, Adoptive, Interleukin-15 genetics, Killer Cells, Natural drug effects, Neoplasm Proteins antagonists & inhibitors, Suppressor of Cytokine Signaling Proteins antagonists & inhibitors

Abstract

Immune checkpoint therapy has resulted in remarkable improvements in the outcome for certain cancers. To broaden the clinical impact of checkpoint targeting, we devised a strategy that couples targeting of the cytokine-inducible Src homology 2-containing (CIS) protein, a key negative regulator of interleukin 15 (IL-15) signaling, with fourth-generation "armored" chimeric antigen receptor (CAR) engineering of cord blood-derived natural killer (NK) cells. This combined strategy boosted NK cell effector function through enhancing the Akt/mTORC1 axis and c-MYC signaling, resulting in increased aerobic glycolysis. When tested in a lymphoma mouse model, this combined approach improved NK cell antitumor activity more than either alteration alone, eradicating lymphoma xenografts without signs of any measurable toxicity. We conclude that targeting a cytokine checkpoint further enhances the antitumor activity of IL-15-secreting armored CAR-NK cells by promoting their metabolic fitness and antitumor activity. This combined approach represents a promising milestone in the development of the next generation of NK cells for cancer immunotherapy., (© 2021 by The American Society of Hematology.)

Published

2021

36. Single-shot digital phase-shifting Moiré patterns for 3D topography.

Author

Guo H, Zhou H, and Banerjee PP

Abstract

A simple and robust technique of Moiré topography with single-image capture and incorporating digital filtering along with a four-step digitally implemented phase-shifting method is introduced for three-dimensional (3D) surface mapping. Feature details in the order of tens to hundreds of microns can be achieved using interferometrically generated structured light to illuminate the object surface. Compared to the traditional optical phase-shifting method, a digital phase-shifting method based on Fourier processing is implemented with computer-generated sinusoidal patterns derived from the recorded deformed fringes. This enables a single capture of the image that can be used to reconstruct the 3D topography of the surface. Single-shot imaging is simple to implement experimentally and avoids errors in introducing the correct phase shifts. The feasibility of this technique is verified experimentally, and applications to metallic surfaces are demonstrated.

Published

2021

37. Performance analysis of phase retrieval using transport of intensity with digital holography [Invited].

Author

Zhou H, Stoykova E, Hussain M, and Banerjee PP

Abstract

The performance of direct and unwrapped phase retrieval, which combines digital holography with the transport of intensity, is examined in detail in this paper. In this technique, digital holography is used to numerically reconstruct the intensities at different planes around the image plane, and phase retrieval is achieved by the transport of intensity. Digital holography with transport of intensity is examined for inline and off-axis geometries. The effect of twin images in the inline case is evaluated. Phase-shifting digital holography with transport of intensity is introduced. The performance of digital holography with transport of intensity is compared with traditional off-axis single- and dual-wavelength techniques, which employ standard phase unwrapping algorithms. Simulations and experiments are performed to determine and compare the accuracy of phase retrieval through a mean-squared-error figure of merit as well as the computational speeds of the various methods.

Published

2021

38. 2 × 2 anisotropic transfer matrix approach for optical propagation in uniaxial transmission filter structures.

Author

Al-Ghezi H, Gnawali R, Banerjee PP, Sun L, Slagle J, and Evans D

Abstract

Multi-layered metamaterial structures show promise in a wide variety of optical applications such as superlenses, electromagnetic cloaking, tunable filters, sensors, and spatial light modulators. Optical transmission analysis of multilayer metallo-dielectric stacks with overall thickness less than the wavelength of light can be modeled using effective medium theory and the Berreman matrix method. For multilayer anisotropic stacks of arbitrary thickness, a rigorous 4 × 4 transfer matrix embodiment is typically used. In this work, a 2 × 2 anisotropic transfer matrix method is developed to analyze optical propagation through multilayer uniaxial stacks of arbitrary thicknesses. Optical transmission of a multilayer silver-zinc oxide stack deposited on a quartz substrate is modeled with this 2 × 2 anisotropic transfer matrix method and reconciled with experimental observations. Results indicate that this numerical approach is applicable to in situ assessment of the complex refractive indices of constituent metal and dielectric layers. Additionally, the anisotropic 2 × 2 transfer matrix method enables the possibility of modeling the transmission of the same metallo-dielectric structure deposited on an electro-optic, uniaxial substrate. Simulation results predict that adjusting the bias field across the substrate results in an electrically tunable transmission filter.

Published

2020

39. Human NK cell deficiency as a result of biallelic mutations in MCM10.

Author

Mace EM, Paust S, Conte MI, Baxley RM, Schmit MM, Patil SL, Guilz NC, Mukherjee M, Pezzi AE, Chmielowiec J, Tatineni S, Chinn IK, Akdemir ZC, Jhangiani SN, Muzny DM, Stray-Pedersen A, Bradley RE, Moody M, Connor PP, Heaps AG, Steward C, Banerjee PP, Gibbs RA, Borowiak M, Lupski JR, Jolles S, Bielinsky AK, and Orange JS

Subjects

Alleles, Cell Cycle Checkpoints genetics, Cell Cycle Checkpoints immunology, Cell Differentiation genetics, Cell Differentiation immunology, Cell Line, Codon, Nonsense, DNA Damage genetics, DNA Damage immunology, Fatal Outcome, Female, Gene Knockdown Techniques, Heterozygote, Humans, Induced Pluripotent Stem Cells immunology, Induced Pluripotent Stem Cells metabolism, Induced Pluripotent Stem Cells pathology, Infant, Killer Cells, Natural metabolism, Killer Cells, Natural pathology, Male, Minichromosome Maintenance Proteins metabolism, Models, Immunological, Mutation, Missense, Pedigree, Primary Immunodeficiency Diseases pathology, Killer Cells, Natural immunology, Minichromosome Maintenance Proteins genetics, Mutation, Primary Immunodeficiency Diseases genetics, Primary Immunodeficiency Diseases immunology

Abstract

Human natural killer cell deficiency (NKD) arises from inborn errors of immunity that lead to impaired NK cell development, function, or both. Through the understanding of the biological perturbations in individuals with NKD, requirements for the generation of terminally mature functional innate effector cells can be elucidated. Here, we report a cause of NKD resulting from compound heterozygous mutations in minichromosomal maintenance complex member 10 (MCM10) that impaired NK cell maturation in a child with fatal susceptibility to CMV. MCM10 has not been previously associated with monogenic disease and plays a critical role in the activation and function of the eukaryotic DNA replisome. Through evaluation of patient primary fibroblasts, modeling patient mutations in fibroblast cell lines, and MCM10 knockdown in human NK cell lines, we have shown that loss of MCM10 function leads to impaired cell cycle progression and induction of DNA damage-response pathways. By modeling MCM10 deficiency in primary NK cell precursors, including patient-derived induced pluripotent stem cells, we further demonstrated that MCM10 is required for NK cell terminal maturation and acquisition of immunological system function. Together, these data define MCM10 as an NKD gene and provide biological insight into the requirement for the DNA replisome in human NK cell maturation and function.

Published

2020

40. Large-scale GMP-compliant CRISPR-Cas9-mediated deletion of the glucocorticoid receptor in multivirus-specific T cells.

Author

Basar R, Daher M, Uprety N, Gokdemir E, Alsuliman A, Ensley E, Ozcan G, Mendt M, Hernandez Sanabria M, Kerbauy LN, Nunez Cortes AK, Li L, Banerjee PP, Muniz-Feliciano L, Acharya S, Fowlkes NW, Lu J, Li S, Mielke S, Kaplan M, Nandivada V, Bdaiwi M, Kontoyiannis AD, Li Y, Liu E, Ang S, Marin D, Brunetti L, Gundry MC, Turk R, Schubert MS, Rettig GR, McNeill MS, Kurgan G, Behlke MA, Champlin R, Shpall EJ, and Rezvani K

Subjects

Gene Editing, Humans, Receptors, Glucocorticoid genetics, T-Lymphocytes, CRISPR-Cas Systems, Clustered Regularly Interspaced Short Palindromic Repeats

Abstract

Virus-specific T cells have proven highly effective for the treatment of severe and drug-refractory infections after hematopoietic stem cell transplant (HSCT). However, the efficacy of these cells is hindered by the use of glucocorticoids, often given to patients for the management of complications such as graft-versus-host disease. To address this limitation, we have developed a novel strategy for the rapid generation of good manufacturing practice (GMP)-grade glucocorticoid-resistant multivirus-specific T cells (VSTs) using clustered regularly interspaced short palindromic repeats (CRISPR)-CRISPR-associated protein 9 (Cas9) gene-editing technology. We have shown that deleting the nuclear receptor subfamily 3 group C member 1 (NR3C1; the gene encoding for the glucocorticoid receptor) renders VSTs resistant to the lymphocytotoxic effect of glucocorticoids. NR3C1-knockout (KO) VSTs kill their targets and proliferate successfully in the presence of high doses of dexamethasone both in vitro and in vivo. Moreover, we developed a protocol for the rapid generation of GMP-grade NR3C1 KO VSTs with high on-target activity and minimal off-target editing. These genetically engineered VSTs promise to be a novel approach for the treatment of patients with life-threatening viral infections post-HSCT on glucocorticoid therapy., (© 2020 by The American Society of Hematology.)

Published

2020

41. A novel immature natural killer cell subpopulation predicts relapse after cord blood transplantation.

Author

Li L, Chen H, Marin D, Xi Y, Miao Q, Lv J, Banerjee PP, Shaim H, Daher M, Basar R, Imahashi N, Jimenez J, Hu B, Mehta RS, Kerbauy LN, Kaplan M, Mendt M, Ozcan G, Gokdemir E, Hernandez Sanabria M, Li Y, Chen K, Wang J, Muniz-Feliciano L, Zhao WL, Champlin RE, Shpall EJ, and Rezvani K

Subjects

Humans, Recurrence, Cord Blood Stem Cell Transplantation methods, Killer Cells, Natural immunology

Abstract

Natural killer (NK) cells are highly heterogeneous, with vast phenotypic and functional diversity at the single-cell level. They are involved in the innate immune response against malignant and virus-infected cells. To understand the effect of NK diversity during immune recovery on the antitumor response after cord blood transplantation (CBT), we used high-dimensional mass cytometry and the metrics of NK cell diversity to study the NK cell repertoire in serial samples from 43 CBT recipients. A higher-diversity index based on single-cell combinatorial phenotypes was significantly associated with a lower risk for relapse after CBT (P = .005). Cytomegalovirus reactivation was a major factor in the development of a more diverse NK repertoire after CBT. Notably, we identified a group of patients whose CB-derived NK cells after transplantation possessed an immature phenotype (CB-NKim), characterized by poor effector function and a low diversity index. Frequencies of CB-NKim of 11.8% or higher during the early post-CBT recovery phase were highly predictive for relapse (area under the curve [AUC], 0.979), a finding that was validated in a second independent cohort of patients (n = 25; AUC, 0.977). Moreover, we showed that the maturation, diversity, and acquisition of effector function by CB-NKim early after CBT were driven by interleukin 15. Our data indicate that the diversity of the NK cell repertoire after CBT contributes importantly to the risk for subsequent relapse. We suggest that the use of diversity metrics and high-dimensional mass cytometry may be useful tools in predicting clinical outcomes and informing the design of therapeutic strategies to prevent relapse after CBT., (© 2019 by The American Society of Hematology.)

Published

2019

42. Digital correlation of computer-generated holograms for 3D face recognition.

Author

Zhou H, Sui X, Cao L, and Banerjee PP

Subjects

Algorithms, Biometry methods, Face anatomy & histology, Holography, Humans, Pattern Recognition, Automated, Facial Recognition physiology, Image Enhancement methods, Image Interpretation, Computer-Assisted methods, Imaging, Three-Dimensional methods

Abstract

Three-dimensional (3D) face recognition has been a crucial task in human biometric verification and identification. A digital correlation method of a computer-generated hologram (CGH) for 3D face recognition is proposed, which encodes 3D data into a 2D hologram for recognition. The 3D face models are preprocessed and compressed to into groups of feature points. The CGH templates corresponding to the 3D feature points are generated by point- and layer-oriented algorithms based on three different numerical algorithms to encode depth values into 2D holograms. A 2D digital correlation is performed between the CGH templates. It is demonstrated that the generated CGHs templates could be effectively classified based on the correlation performance metrics of discrimination ratio, peak-to-correlation plane energy, and peak-to-noise ratio. With the essence of the CGH algorithm being the conversion of 3D data to a 2D hologram, the proposed encoding and decoding method has great advantages in reducing computational efforts and potential applications in 3D face recognition, storage, and display.

Published

2019

43. 3D object recognition through processing of 2D holograms.

Author

Bordbar B, Zhou H, and Banerjee PP

Abstract

Correlation of two-dimensional digitally recorded holograms is introduced as a novel approach for object recognition without the need for quantitative assessment of the retrieved complex field, based on the fact that a hologram contains the three-dimensional information of the object. Actual objects with different three-dimensional features such as depth and surface roughness are assessed through processing of the correlation of their two-dimensional holograms. Correlation peak values are extracted as a metric to evaluate correlation of three-dimensional objects. The effect of hologram windowing size on correlation of three-dimensional objects is investigated, and improvements in computation time and dynamic range are assessed. Critical figures of merit used for assessment of correlation of images are applied to the correlation of holograms for object recognition.

Published

2019

44. KIR2DL4-HLAG interaction at human NK cell-oligodendrocyte interfaces regulates IFN-γ-mediated effects.

Author

Banerjee PP, Pang L, Soldan SS, Miah SM, Eisenberg A, Maru S, Waldman A, Smith EA, Rosenberg-Hasson Y, Hirschberg D, Smith A, Ablashi DV, Campbell KS, and Orange JS

Subjects

Cell Line, Cytotoxicity, Immunologic immunology, HLA-G Antigens immunology, Humans, Multiple Sclerosis immunology, Myelin-Associated Glycoprotein immunology, Receptors, Natural Killer Cell immunology, Interferon-gamma immunology, Killer Cells, Natural immunology, Oligodendroglia immunology, Receptors, KIR2DL4 immunology

Abstract

Interactions between germline-encoded natural killer (NK) cell receptors and their respective ligands on tumorigenic or virus-infected cells determine NK cell cytotoxic activity and/or cytokine secretion. NK cell cytokine responses can be augmented in and can potentially contribute to multiple sclerosis (MS), an inflammatory disease of the central nervous system focused upon the oligodendrocytes (OLs). To investigate mechanisms by which NK cells may contribute to MS pathogenesis, we developed an in vitro human model of OL-NK cell interaction. We found that activated, but not resting human NK cells form conjugates with, and mediate cytotoxicity against, human oligodendrocytes. NK cells, when in conjugate with OLs, rapidly synthesize and polarize IFN-γ toward the OLs. IFN-γ  is capable of reducing myelin oligodendrocyte and myelin associated glycoproteins (MOG and MAG) content. This activity is independent of MHC class-I mediated inhibition via KIR2DL1, but dependent upon the interaction between NK cell-expressed KIR2DL4 and its oligodendrocyte-expressed ligand, HLA-G. NK cells from patients with MS express higher levels of IFN-γ following conjugation to OLs, more actively promote in vitro reduction of MOG and MAG and have higher frequencies of the KIR2DL4 positive population. These data collectively suggest a mechanism by which NK cells can promote pathogenic effects upon OLs., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

45. Publisher Correction: Human DEF6 deficiency underlies an immunodeficiency syndrome with systemic autoimmunity and aberrant CTLA-4 homeostasis.

Author

Serwas NK, Hoeger B, Ardy RC, Stulz SV, Sui Z, Memaran N, Meeths M, Krolo A, Petronczki ÖY, Pfajfer L, Hou TZ, Halliday N, Santos-Valente E, Kalinichenko A, Kennedy A, Mace EM, Mukherjee M, Tesi B, Schrempf A, Pickl WF, Loizou JI, Kain R, Bidmon-Fliegenschnee B, Schickel JN, Glauzy S, Huemer J, Garncarz W, Salzer E, Pierides I, Bilic I, Thiel J, Priftakis P, Banerjee PP, Förster-Waldl E, Medgyesi D, Huber WD, Orange JS, Meffre E, Sansom DM, Bryceson YT, Altman A, and Boztug K

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2019

46. The Sustained Induction of c-MYC Drives Nab-Paclitaxel Resistance in Primary Pancreatic Ductal Carcinoma Cells.

Author

Parasido E, Avetian GS, Naeem A, Graham G, Pishvaian M, Glasgow E, Mudambi S, Lee Y, Ihemelandu C, Choudhry M, Peran I, Banerjee PP, Avantaggiati ML, Bryant K, Baldelli E, Pierobon M, Liotta L, Petricoin E, Fricke ST, Sebastian A, Cozzitorto J, Loots GG, Kumar D, Byers S, Londin E, DiFeo A, Narla G, Winter J, Brody JR, Rodriguez O, and Albanese C

Subjects

Aged, Aged, 80 and over, Albumins therapeutic use, Animals, Carcinoma, Pancreatic Ductal drug therapy, Female, Gene Expression Regulation, Neoplastic, Humans, Male, Mice, Neoplasm Transplantation, Paclitaxel therapeutic use, Pancreatic Neoplasms drug therapy, Primary Cell Culture, Tumor Cells, Cultured, Zebrafish, Pancreatic Neoplasms, Albumins pharmacology, Carcinoma, Pancreatic Ductal genetics, Drug Resistance, Neoplasm, Paclitaxel pharmacology, Pancreatic Neoplasms genetics, Proto-Oncogene Proteins c-myc genetics, Up-Regulation

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is a highly aggressive disease with limited and, very often, ineffective medical and surgical therapeutic options. The treatment of patients with advanced unresectable PDAC is restricted to systemic chemotherapy, a therapeutic intervention to which most eventually develop resistance. Recently, nab-paclitaxel (n-PTX) has been added to the arsenal of first-line therapies, and the combination of gemcitabine and n-PTX has modestly prolonged median overall survival. However, patients almost invariably succumb to the disease, and little is known about the mechanisms underlying n-PTX resistance. Using the conditionally reprogrammed (CR) cell approach, we established and verified continuously growing cell cultures from treatment-naïve patients with PDAC. To study the mechanisms of primary drug resistance, nab-paclitaxel-resistant (n-PTX-R) cells were generated from primary cultures and drug resistance was verified in vivo , both in zebrafish and in athymic nude mouse xenograft models. Molecular analyses identified the sustained induction of c-MYC in the n-PTX-R cells. Depletion of c-MYC restored n-PTX sensitivity, as did treatment with either the MEK inhibitor, trametinib, or a small-molecule activator of protein phosphatase 2a. IMPLICATIONS: The strategies we have devised, including the patient-derived primary cells and the unique, drug-resistant isogenic cells, are rapid and easily applied in vitro and in vivo platforms to better understand the mechanisms of drug resistance and for defining effective therapeutic options on a patient by patient basis., (©2019 American Association for Cancer Research.)

Published

2019

47. Regulation of the unfolded protein response through ATF4 and FAM129A in prostate cancer.

Author

Pällmann N, Livgård M, Tesikova M, Zeynep Nenseth H, Akkus E, Sikkeland J, Jin Y, Koc D, Kuzu OF, Pradhan M, Danielsen HE, Kahraman N, Mokhlis HM, Ozpolat B, Banerjee PP, Uren A, Fazli L, Rennie PS, Jin Y, and Saatcioglu F

Subjects

Animals, Cell Proliferation genetics, Endoplasmic Reticulum Stress genetics, Gene Expression Regulation, Neoplastic, HEK293 Cells, Humans, Male, Mice, Prostatic Neoplasms genetics, Prostatic Neoplasms pathology, Signal Transduction genetics, Tumor Cells, Cultured, Activating Transcription Factor 4 physiology, Biomarkers, Tumor physiology, Neoplasm Proteins physiology, Prostatic Neoplasms metabolism, Unfolded Protein Response genetics

Abstract

Cancer cells exploit many of the cellular adaptive responses to support their survival needs. One such critical pathway in eukaryotic cells is the unfolded protein response (UPR) that is important in normal physiology as well as disease states, including cancer. Since UPR can serve as a lever between survival and death, regulated control of its activity is critical for tumor formation and growth although the underlying mechanisms are poorly understood. Here we show that one of the main transcriptional effectors of UPR, activating transcription factor 4 (ATF4), is essential for prostate cancer (PCa) growth and survival. Using systemic unbiased gene expression and proteomic analyses, we identified a novel direct ATF4 target gene, family with sequence similarity 129 member A (FAM129A), which is critical in mediating ATF4 effects on prostate tumorigenesis. Interestingly, FAM129A regulated both PERK and eIF2α in a feedback loop that differentially channeled the UPR output. ATF4 and FAM129A protein expression is increased in patient PCa samples compared with benign prostate. Importantly, in vivo therapeutic silencing of ATF4-FAM129A axis profoundly inhibited tumor growth in a preclinical PCa model. These data support that one of the canonical UPR branches, through ATF4 and its target gene FAM129A, is required for PCa growth and thus may serve as a novel therapeutic target.

Published

2019

48. Human DEF6 deficiency underlies an immunodeficiency syndrome with systemic autoimmunity and aberrant CTLA-4 homeostasis.

Author

Serwas NK, Hoeger B, Ardy RC, Stulz SV, Sui Z, Memaran N, Meeths M, Krolo A, Yüce Petronczki Ö, Pfajfer L, Hou TZ, Halliday N, Santos-Valente E, Kalinichenko A, Kennedy A, Mace EM, Mukherjee M, Tesi B, Schrempf A, Pickl WF, Loizou JI, Kain R, Bidmon-Fliegenschnee B, Schickel JN, Glauzy S, Huemer J, Garncarz W, Salzer E, Pierides I, Bilic I, Thiel J, Priftakis P, Banerjee PP, Förster-Waldl E, Medgyesi D, Huber WD, Orange JS, Meffre E, Sansom DM, Bryceson YT, Altman A, and Boztug K

Subjects

B7-1 Antigen metabolism, DNA-Binding Proteins genetics, DNA-Binding Proteins immunology, Gene Knockout Techniques, Guanine Nucleotide Exchange Factors genetics, Guanine Nucleotide Exchange Factors immunology, Homeostasis, Humans, Jurkat Cells, T-Lymphocytes metabolism, T-Lymphocytes physiology, rab GTP-Binding Proteins genetics, rab GTP-Binding Proteins metabolism, CTLA-4 Antigen metabolism, DNA-Binding Proteins deficiency, Guanine Nucleotide Exchange Factors deficiency, Primary Immunodeficiency Diseases genetics

Abstract

Immune responses need to be controlled tightly to prevent autoimmune diseases, yet underlying molecular mechanisms remain partially understood. Here, we identify biallelic mutations in three patients from two unrelated families in differentially expressed in FDCP6 homolog (DEF6) as the molecular cause of an inborn error of immunity with systemic autoimmunity. Patient T cells exhibit impaired regulation of CTLA-4 surface trafficking associated with reduced functional CTLA-4 availability, which is replicated in DEF6-knockout Jurkat cells. Mechanistically, we identify the small GTPase RAB11 as an interactor of the guanine nucleotide exchange factor DEF6, and find disrupted binding of mutant DEF6 to RAB11 as well as reduced RAB11 + CTLA-4 + vesicles in DEF6-mutated cells. One of the patients has been treated with CTLA-4-Ig and achieved sustained remission. Collectively, we uncover DEF6 as player in immune homeostasis ensuring availability of the checkpoint protein CTLA-4 at T-cell surface, identifying a potential target for autoimmune and/or cancer therapy.

Published

2019

49. Aberrant expression of PDZ-binding kinase/T-LAK cell-originated protein kinase modulates the invasive ability of human pancreatic cancer cells via the stabilization of oncoprotein c-MYC.

Author

Hinzman CP, Aljehane L, Brown-Clay JD, Kallakury B, Sonahara F, Goel A, Trevino J, and Banerjee PP

Subjects

Cell Line, Tumor, Humans, Matrix Metalloproteinase 2 genetics, Matrix Metalloproteinase 9 genetics, Neoplasm Invasiveness genetics, Neoplasm Invasiveness pathology, Oncogene Proteins genetics, Promoter Regions, Genetic genetics, Up-Regulation genetics, Mitogen-Activated Protein Kinase Kinases genetics, Pancreatic Neoplasms genetics, Pancreatic Neoplasms pathology, Proto-Oncogene Proteins c-myc genetics

Abstract

High frequency of mortality in patients with pancreatic ductal adenocarcinoma (PDAC) is vastly associated with the invasive and metastatic nature of these cancer cells. Little is known about the factors involved in this invasive/metastatic process. The current challenge in the treatment of these patients is the lack of viable options besides gemcitabine. The aim of this study was to evaluate the role of PDZ-binding kinase (PBK)/T-LAK cell-originated protein kinase (TOPK) in invasive PDAC cells and to determine whether PBK/TOPK expression drives invasiveness in PDAC. Using gain-of-function and loss-of-function studies in established and patient-derived xenograft-PDAC cell lines, and examining patient-derived archival tissue samples, we demonstrate for the first time that PBK/TOPK is upregulated in pancreatic cancer and expression levels are closely associated with the invasive property of pancreatic cancer cells. Modulation of PBK/TOPK causally regulates the invasive ability of PDAC cells. We also demonstrate that two key players in metastatic invasion, matrix metalloproteinases-2 (MMP-2) and MMP-9 gelatinase activity and gene promoter activities, are regulated by PBK/TOPK. Moreover, we demonstrate for the first time that PBK/TOPK provides stability of an oncoprotein, c-MYC, which transcriptionally regulates MMP-2 and MMP-9 in these invasive PDAC cells. Our in vitro and in situ data corroborate that PBK/TOPK is closely associated with the invasive nature of PDAC and reveal a novel mechanism by which the metastatic behavior of human pancreatic cancer cells is regulated. These findings provide a rationale for targeting PBK/TOPK for the therapeutic intervention of invasive/metastatic pancreatic cancer in human.

Published

2018

50. Androgen action in prostate function and disease.

Author

Banerjee PP, Banerjee S, Brown TR, and Zirkin BR

Abstract

Benign prostatic hyperplasia (BPH) is an enlargement of the prostate gland that is frequently found in aging men. Androgens are essential for the development and differentiated function of the prostate, as well as for proliferation and survival of prostatic cells. In man, dog and rodent, there are age-related decreases in serum testosterone. Despite the lower serum testosterone levels, benign prostatic hyperplasia increases with age in men and dogs, while age-dependent prostatic hyperplasia develops in the dorsal and lateral lobes of the rat prostate. The possible mechanisms that lead to prostate hyperplasia have been extensively studied over many years. It is clear that androgens, estrogens and growth factors contribute to the condition, but the exact etiology remains unknown. Prostate cancer (CaP) represents a significant cause of death among males worldwide. As is the case of BPH, it is clear that androgens (testosterone and dihydrotestosterone) and their metabolites play important roles in the disease, but cause-effect relationships have not been established. Androgen deprivation therapy has been used for decades, primarily in the metastatic stage, to inhibit androgen-dependent prostate cancer cell growth. Androgen deprivation, which can be achieved by targeting hormone biosynthesis or androgen receptor activation, results in symptom amelioration. However, most patients will develop hormone refractory cancer or castration-resistant prostate cancer (CRPC). Prostatic epithelial cells demonstrate enormous plasticity in response to androgen ablation. This characteristic of prostatic epithelial cells may give rise to different populations of cells, some of which may not be dependent on androgen. Consequently, androgen receptor positive and negative cells might co-exist within CRPC. A clear understanding of this possible cellular heterogeneity and plasticity of prostate epithelial cells is necessary to develop an optimal strategy to treat or prevent CRPC.

Published

2018