Your search keyword '"Laura M. Ensign"' showing total 74 results

1. Investigating inhibitors of 1-deoxy-d-xylulose 5-phosphate synthase in a mouse model of UTI

Author

Eric C. Chen, Rachel L. Shapiro, Arindom Pal, David Bartee, Kevin DeLong, Davell M. Carter, Erika Serrano-Diaz, Rana Rais, Laura M. Ensign, and Caren L. Freel Meyers

Subjects

1-deoxy-d-xylulose 5-phosphate synthase, DXPS, antibiotic, central metabolism, MEP, acetylphosphonate, Microbiology, QR1-502

Abstract

ABSTRACTThe rising rate of antimicrobial resistance continues to threaten global public health. Further hastening antimicrobial resistance is the lack of new antibiotics against new targets. The bacterial enzyme, 1-deoxy-d-xylulose 5-phosphate synthase (DXPS), is thought to play important roles in central metabolism, including processes required for pathogen adaptation to fluctuating host environments. Thus, impairing DXPS function represents a possible new antibacterial strategy. We previously investigated a DXPS-dependent metabolic adaptation as a potential target in uropathogenic Escherichia coli (UPEC) associated with urinary tract infection (UTI), using the DXPS-selective inhibitor butyl acetylphosphonate (BAP). However, investigations of DXPS inhibitors in vivo have not been conducted. The goal of the present study is to advance DXPS inhibitors as in vivo probes and assess the potential of inhibiting DXPS as a strategy to prevent UTI in vivo. We show that BAP was well-tolerated at high doses in mice and displayed a favorable pharmacokinetic profile for studies in a mouse model of UTI. Further, an alkyl acetylphosphonate prodrug (homopropargyl acetylphosphonate, pro-hpAP) was significantly more potent against UPEC in urine culture and exhibited good exposure in the urinary tract after systemic dosing. Prophylactic treatment with either BAP or pro-hpAP led to a partial protective effect against UTI, with the prodrug displaying improved efficacy compared to BAP. Overall, our results highlight the potential for DXPS inhibitors as in vivo probes and establish preliminary evidence that inhibiting DXPS impairs UPEC colonization in a mouse model of UTI.IMPORTANCENew antibiotics against new targets are needed to prevent an antimicrobial resistance crisis. Unfortunately, antibiotic discovery has slowed, and many newly FDA-approved antibiotics do not inhibit new targets. Alkyl acetylphosphonates (alkyl APs), which inhibit the enzyme 1-deoxy-d-xylulose 5-phosphate synthase (DXPS), represent a new possible class of compounds as there are no FDA-approved DXPS inhibitors. To our knowledge, this is the first study demonstrating the in vivo safety, pharmacokinetics, and efficacy of alkyl APs in a urinary tract infection mouse model.

Published

2024

2. Machine learning-driven multifunctional peptide engineering for sustained ocular drug delivery

Author

Henry T. Hsueh, Renee Ti Chou, Usha Rai, Wathsala Liyanage, Yoo Chun Kim, Matthew B. Appell, Jahnavi Pejavar, Kirby T. Leo, Charlotte Davison, Patricia Kolodziejski, Ann Mozzer, HyeYoung Kwon, Maanasa Sista, Nicole M. Anders, Avelina Hemingway, Sri Vishnu Kiran Rompicharla, Malia Edwards, Ian Pitha, Justin Hanes, Michael P. Cummings, and Laura M. Ensign

Subjects

Science

Abstract

Abstract Sustained drug delivery strategies have many potential benefits for treating a range of diseases, particularly chronic diseases that require treatment for years. For many chronic ocular diseases, patient adherence to eye drop dosing regimens and the need for frequent intraocular injections are significant barriers to effective disease management. Here, we utilize peptide engineering to impart melanin binding properties to peptide-drug conjugates to act as a sustained-release depot in the eye. We develop a super learning-based methodology to engineer multifunctional peptides that efficiently enter cells, bind to melanin, and have low cytotoxicity. When the lead multifunctional peptide (HR97) is conjugated to brimonidine, an intraocular pressure lowering drug that is prescribed for three times per day topical dosing, intraocular pressure reduction is observed for up to 18 days after a single intracameral injection in rabbits. Further, the cumulative intraocular pressure lowering effect increases ~17-fold compared to free brimonidine injection. Engineered multifunctional peptide-drug conjugates are a promising approach for providing sustained therapeutic delivery in the eye and beyond.

Published

2023

3. Cervicovaginal mucus barrier properties during pregnancy are impacted by the vaginal microbiome

Author

Hannah C. Zierden, Kevin DeLong, Fareeha Zulfiqar, Jairo Ortiz Ortiz, Victoria Laney, Sabrine Bensouda, Nicole Hernández, Thuy M. Hoang, Samuel K. Lai, Justin Hanes, Anne E. Burke, and Laura M. Ensign

Subjects

vaginal microbiome, drug delivery, mucus, pregnancy, preterm birth (PTB), Microbiology, QR1-502

Abstract

IntroductionMucus in the female reproductive tract acts as a barrier that traps and eliminates pathogens and foreign particles via steric and adhesive interactions. During pregnancy, mucus protects the uterine environment from ascension of pathogens and bacteria from the vagina into the uterus, a potential contributor to intrauterine inflammation and preterm birth. As recent work has demonstrated the benefit of vaginal drug delivery in treating women’s health indications, we sought to define the barrier properties of human cervicovaginal mucus (CVM) during pregnancy to inform the design of vaginally delivered therapeutics during pregnancy.MethodsCVM samples were self-collected by pregnant participants over the course of pregnancy, and barrier properties were quantified using multiple particle tracking. 16S rRNA gene sequencing was performed to analyze the composition of the vaginal microbiome.ResultsParticipant demographics differed between term delivery and preterm delivery cohorts, with Black or African American participants being significantly more likely to delivery prematurely. We observed that vaginal microbiota is most predictive of CVM barrier properties and of timing of parturition. Lactobacillus crispatus dominated CVM samples showed increased barrier properties compared to polymicrobial CVM samples.DiscussionThis work informs our understanding of how infections occur during pregnancy, and directs the engineering of targeted drug treatments for indications during pregnancy.

Published

2023

4. Hypo-osmolar rectal douche tenofovir formulation prevents simian/human immunodeficiency virus acquisition in macaques

Author

Peng Xiao, Sanjeev Gumber, Mark A. Marzinke, Thuy Hoang, Rohan Myers, Abhijit A. Date, Justin Hanes, Laura M. Ensign, Lin Wang, Lisa C. Rohan, Richard Cone, Edward J. Fuchs, Craig W. Hendrix, and Francois Villinger

Subjects

AIDS/HIV, Virology, Medicine

Abstract

In spite of the rollout of oral pre-exposure prophylaxis (PrEP), the rate of new HIV infections remains a major health crisis. In the United States, new infections occur predominantly in men having sex with men (MSM) in rural settings where access to PrEP can be limited. As an alternative congruent with MSM sexual behavior, we have optimized and tested tenofovir (TFV) and analog-based iso-osmolar and hypo-osmolar (HOsm) rectal douches for efficacy against rectal simian/human immunodeficiency virus (SHIV) infection of macaques. Single TFV HOsm high-dose douches achieved peak plasma TFV levels similar to daily oral PrEP, while other formulations yielded lower concentrations. Rectal tissue TFV-diphosphate (TFV-DP) concentrations at the portal of virus entry, however, were markedly higher after HOsm douching than daily oral PrEP. Repeated douches led to significantly higher plasma TFV and higher TFV-DP concentrations in rectal tissue at 24 hours compared with single douches, without detectable mucosal or systemic toxicity. Using stringent repeated intrarectal SHIV exposures, single HOsm high-dose douches delivered greater protection from virus acquisition for more than 24 hours compared with oral PrEP. Our results demonstrate a rapid delivery of protective TFV doses to the rectal portal of virus entry as a potential low-cost and safe PrEP alternative.

Published

2022

5. A patient-like swine model of gastrointestinal fibrotic strictures for advancing therapeutics

Author

Ling Li, Mohamad I. Itani, Kevan J. Salimian, Yue Li, Olaya Brewer Gutierrez, Haijie Hu, George Fayad, Jean A. Donet, Min Kyung Joo, Laura M. Ensign, Vivek Kumbhari, and Florin M. Selaru

Subjects

Medicine, Science

Abstract

Abstract Gastrointestinal (GI) strictures are difficult to treat in a variety of disease processes. Currently, there are no Food and Drug Administration (FDA) approved drugs for fibrosis in the GI tract. One of the limitations to developing anti-fibrotic drugs has been the lack of a reproducible, relatively inexpensive, large animal model of fibrosis-driven luminal stricture. This study aimed to evaluate the feasibility of creating a model of luminal GI tract strictures. Argon plasma coagulation (APC) was applied circumferentially in porcine esophagi in vivo. Follow-up endoscopy (EGD) was performed at day 14 after the APC procedure. We noted high grade, benign esophageal strictures (n = 8). All 8 strictures resembled luminal GI fibrotic strictures in humans. These strictures were characterized, and then successfully dilated. A repeat EGD was performed at day 28 after the APC procedure and found evidence of recurrent, high grade, fibrotic, strictures at all 8 locations in all pigs. Pigs were sacrificed and gross and histologic analyses performed. Histologic examination showed extensive fibrosis, with significant collagen deposition in the lamina propria and submucosa, as well as extensive inflammatory infiltrates within the strictures. In conclusion, we report a porcine model of luminal GI fibrotic stricture that has the potential to assist with developing novel anti-fibrotic therapies as well as endoscopic techniques to address recurring fibrotic strictures in humans.

Published

2021

6. An ion‐paired moxifloxacin nanosuspension eye drop provides improved prevention and treatment of ocular infection

Author

Aditya Josyula, Revaz Omiadze, Kunal Parikh, Pranjali Kanvinde, Matthew B. Appell, Pratikkumar Patel, Hiwa Saeed, Yogesh Sutar, Nicole Anders, Ping He, Peter J. McDonnell, Justin Hanes, Abhijit A. Date, and Laura M. Ensign

Subjects

antibiotic, conjunctivitis, eye drop, keratitis, mucoinert, mucus‐penetrating particles, Chemical engineering, TP155-156, Biotechnology, TP248.13-248.65, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract There are numerous barriers to achieving effective intraocular drug administration, including the mucus layer protecting the ocular surface. For this reason, antibiotic eye drops must be used multiple times per day to prevent and treat ocular infections. Frequent eye drop use is inconvenient for patients, and lack of adherence to prescribed dosing regimens limits treatment efficacy and contributes to antibiotic resistance. Here, we describe an ion‐pairing approach used to create an insoluble moxifloxacin–pamoate (MOX–PAM) complex for formulation into mucus‐penetrating nanosuspension eye drops (MOX–PAM NS). The MOX–PAM NS provided a significant increase in ocular drug absorption, as measured by the area under the curve in cornea tissue and aqueous humor, compared to Vigamox in healthy rats. Prophylactic and treatment efficacy were evaluated in a rat model of ocular Staphylococcus aureus infection. A single drop of MOX–PAM NS was more effective than Vigamox, and completely prevented infection. Once a day dosing with MOX–PAM NS was similar, if not more effective, than three times a day dosing with Vigamox for treating S. aureus infection. The MOX–PAM NS provided increased intraocular antibiotic absorption and improved prevention and treatment of ocular keratitis, and the formulation approach is highly translational and clinically relevant.

Published

2021

7. Protein synthesis inhibitor omacetaxine is effective against hepatocellular carcinoma

Author

Ling Li, Gilad Halpert, Michael G. Lerner, Haijie Hu, Peter Dimitrion, Matthew J. Weiss, Jin He, Benjamin Philosophe, Richard Burkhart, William R. Burns, Russell N. Wesson, Andrew MacGregor Cameron, Christopher L. Wolfgang, Christos Georgiades, Satomi Kawamoto, Nilofer S. Azad, Mark Yarchoan, Stephen J. Meltzer, Kiyoko Oshima, Laura M. Ensign, Joel S. Bader, and Florin M. Selaru

Subjects

Hepatology, Oncology, Medicine

Abstract

Hepatocellular carcinoma (HCC) is the sixth most common and the fourth most deadly cancer worldwide. The development cost of new therapeutics is a major limitation in patient outcomes. Importantly, there is a paucity of preclinical HCC models in which to test new small molecules. Herein, we implemented potentially novel patient-derived organoid (PDO) and patient-derived xenografts (PDX) strategies for high-throughput drug screening. Omacetaxine, an FDA-approved drug for chronic myelogenous leukemia (CML), was found to be a top effective small molecule in HCC PDOs. Next, omacetaxine was tested against a larger cohort of 40 human HCC PDOs. Serial dilution experiments demonstrated that omacetaxine is effective at low (nanomolar) concentrations. Mechanistic studies established that omacetaxine inhibits global protein synthesis, with a disproportionate effect on short–half-life proteins. High-throughput expression screening identified molecular targets for omacetaxine, including key oncogenes, such as PLK1. In conclusion, by using an innovative strategy, we report — for the first time to our knowledge — the effectiveness of omacetaxine in HCC. In addition, we elucidate key mechanisms of omacetaxine action. Finally, we provide a proof-of-principle basis for future studies applying drug screening PDOs sequenced with candidate validation in PDX models. Clinical trials could be considered to evaluate omacetaxine in patients with HCC.

Published

2021

8. Ultra‐thin, high strength, antibiotic‐eluting sutures for prevention of ophthalmic infection

Author

Kunal S. Parikh, Revaz Omiadze, Aditya Josyula, Richard Shi, Nicole M. Anders, Ping He, Youseph Yazdi, Peter J. McDonnell, Laura M. Ensign, and Justin Hanes

Subjects

drug delivery, eye drop, levofloxacin, medical device, nanofiber, ophthalmology, Chemical engineering, TP155-156, Biotechnology, TP248.13-248.65, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Sutures are applied almost universally at the site of trauma or surgery, making them an ideal platform to modulate the local, postoperative biological response, and improve surgical outcomes. To date, the only globally marketed drug‐eluting sutures are coated with triclosan for antibacterial application in general surgery. Loading drug directly into the suture rather than coating the surface offers the potential to provide drug delivery functionality to microsurgical sutures and achieve sustained drug delivery without increasing suture thickness. However, conventional methods for drug incorporation directly into the suture adversely affect breaking strength. Thus, there are no market offerings for drug‐eluting sutures, drug‐coated, or otherwise, in ophthalmology, where very thin sutures are required. Sutures themselves help facilitate bacterial infection, and antibiotic eye drops are commonly prescribed to prevent infection after ocular surgeries. An antibiotic‐eluting suture may prevent bacterial colonization of sutures and preclude patient compliance issues with eye drops. We report twisting of hundreds of individual drug‐loaded, electrospun nanofibers into a single, ultra‐thin, multifilament suture capable of meeting both size and strength requirements for microsurgical ocular procedures. Nanofiber‐based polycaprolactone sutures demonstrated no loss in strength with loading of 8% levofloxacin, unlike monofilament sutures which lost more than 50% strength. Moreover, nanofiber‐based sutures retained strength with loading of a broad range of drugs, provided antibiotic delivery for 30 days in rat eyes, and prevented ocular infection in a rat model of bacterial keratitis.

Published

2021

9. Conceptual Design of a Universal Donor Screening Approach for Vaginal Microbiota Transplant

Author

Kevin DeLong, Sabrine Bensouda, Fareeha Zulfiqar, Hannah C. Zierden, Thuy M. Hoang, Alison G. Abraham, Jenell S. Coleman, Richard A. Cone, Patti E. Gravitt, Craig W. Hendrix, Edward J. Fuchs, Charlotte A. Gaydos, Ethel D. Weld, and Laura M. Ensign

Subjects

microbiota, fecal microbiota transplant (FMT), bacterial vaginosis (BV), Lactobacillus, urinary tract infection (UTI), cervicovaginal secretions (CVS), Microbiology, QR1-502

Abstract

The success of fecal microbiota transplant (FMT) in treating recurrent Clostridioides difficile infection has led to growing excitement about the potential of using transplanted human material as a therapy for a wide range of diseases and conditions related to microbial dysbiosis. We anticipate that the next frontier of microbiota transplantation will be vaginal microbiota transplant (VMT). The composition of the vaginal microbiota has broad impact on sexual and reproductive health. The vaginal microbiota in the “optimal” state are one of the simplest communities, dominated by one of only a few species of Lactobacillus. Diversity in the microbiota and the concomitant depletion of lactobacilli, a condition referred to as bacterial vaginosis (BV), is associated with a wide range of deleterious effects, including increased risk of acquiring sexually transmitted infections and increased likelihood of having a preterm birth. However, we have very few treatment options available, and none of them curative or restorative, for “resetting” the vaginal microbiota to a more protective state. In order to test the hypothesis that VMT may be a more effective treatment option, we must first determine how to screen donors to find those with minimal risk of pathogen transmission and “optimal” vaginal microbiota for transplant. Here, we describe a universal donor screening approach that was implemented in a small pilot study of 20 women. We further characterized key physicochemical properties of donor cervicovaginal secretions (CVS) and the corresponding composition of the vaginal microbiota to delineate criteria for inclusion/exclusion. We anticipate that the framework described here will help accelerate clinical studies of VMT.

Published

2019

10. Ion-Complex Microcrystal Formulation Provides Sustained Delivery of a Multimodal Kinase Inhibitor from the Subconjunctival Space for Protection of Retinal Ganglion Cells

Author

Henry T. Hsueh, Yoo-Chun Kim, Ian Pitha, Matthew D. Shin, Cynthia A. Berlinicke, Renee Ti Chou, Elizabeth Kimball, Julie Schaub, Sarah Quillen, Kirby T. Leo, Hyounkoo Han, Amy Xiao, Youngwook Kim, Matthew Appell, Usha Rai, HyeYoung Kwon, Patricia Kolodziejski, Laolu Ogunnaike, Nicole M. Anders, Avelina Hemingway, Joan L. Jefferys, Abhijit A. Date, Charles Eberhart, Thomas V. Johnson, Harry A. Quigley, Donald J. Zack, Justin Hanes, and Laura M. Ensign

Subjects

neuroprotection, tyrosine kinase inhibitor, ocular drug delivery, pamoic acid, sunitinib, glaucoma, Pharmacy and materia medica, RS1-441

Abstract

Glaucoma is the leading cause of irreversible blindness worldwide. Elevated intraocular pressure (IOP) is one of the major risk factors for glaucoma onset and progression, and available pharmaceutical interventions are exclusively targeted at IOP lowering. However, degeneration of retinal ganglion cells (RGCs) may continue to progress despite extensive lowering of IOP. A complementary strategy to IOP reduction is the use of neuroprotective agents that interrupt the process of cell death by mechanisms independent of IOP. Here, we describe an ion complexation approach for formulating microcrystals containing ~50% loading of a protein kinase inhibitor, sunitinib, to enhance survival of RGCs with subconjunctival injection. A single subconjunctival injection of sunitinib-pamoate complex (SPC) microcrystals provided 20 weeks of sustained retina drug levels, leading to neuroprotection in a rat model of optic nerve injury. Furthermore, subconjunctival injection of SPC microcrystals also led to therapeutic effects in a rat model of corneal neovascularization. Importantly, therapeutically relevant retina drug concentrations were achieved with subconjunctival injection of SPC microcrystals in pigs. For a chronic disease such as glaucoma, a formulation that provides sustained therapeutic effects to complement IOP lowering therapies could provide improved disease management and promote patient quality of life.

Published

2021

11. Reduced inspired oxygen decreases retinal superoxide radicals and promotes cone function and survival in a model of retinitis pigmentosa

Author

Yogita Kanan, Sean F. Hackett, Henry T. Hsueh, Mahmood Khan, Laura M. Ensign, and Peter A. Campochiaro

Subjects

Physiology (medical), Biochemistry

Published

2023

12. Nanofiber-coated, tacrolimus-eluting sutures inhibit post-operative neointimal hyperplasia in rats

Author

Kunal S, Parikh, Aditya, Josyula, Takahiro, Inoue, Takuma, Fukunishi, Huaitao, Zhang, Revaz, Omiadze, Richard, Shi, Youseph, Yazdi, Justin, Hanes, Laura M, Ensign, and Narutoshi, Hibino

Subjects

Pharmaceutical Science

Abstract

Post-operative complications of vascular anastomosis procedures remain a significant clinical challenge and health burden globally. Each year, millions of anastomosis procedures connect arteries and/or veins in vascular bypass, vascular access, organ transplant, and reconstructive surgeries, generally via suturing. Dysfunction of these anastomoses, primarily due to neointimal hyperplasia and the resulting narrowing of the vessel lumen, results in failure rates of up to 50% and billions of dollars in costs to the healthcare system. Non-absorbable sutures are the gold standard for vessel anastomosis; however, damage from the surgical procedure and closure itself causes an inflammatory cascade that leads to neointimal hyperplasia at the anastomosis site. Here, we demonstrate the development of a novel, scalable manufacturing system for fabrication of high strength sutures with nanofiber-based coatings composed of generally regarded as safe (GRAS) polymers and either sirolimus, tacrolimus, everolimus, or pimecrolimus. These sutures provided sufficient tensile strength for maintenance of the vascular anastomosis and sustained drug delivery at the site of the anastomosis. Tacrolimus-eluting sutures provided a significant reduction in neointimal hyperplasia in rats over a period of 14 days with similar vessel endothelialization in comparison to conventional nylon sutures. In contrast, systemically delivered tacrolimus caused significant weight loss and mortality due to toxicity. Thus, drug-eluting sutures provide a promising platform to improve the outcomes of vascular interventions without modifying the clinical workflow and without the risks associated with systemic drug delivery.

Published

2023

13. Six-month effective treatment of corneal graft rejection

Author

Tuo Meng, Jinhua Zheng, Min Chen, Yang Zhao, Hadi Sudarjat, Aji Alex M.R., Vineet Kulkarni, Yumin Oh, Shiyu Xia, Zheng Ding, Hyounkoo Han, Nicole Anders, Michelle A. Rudek, Woon Chow, Walter Stark, Laura M. Ensign, Justin Hanes, and Qingguo Xu

Subjects

Multidisciplinary

Abstract

Topical corticosteroid eye drop is the mainstay for preventing and treating corneal graft rejection. While the frequent topical corticosteroid use is associated with risk of intraocular pressure (IOP) elevation and poor patient compliance that leads to graft failure and the requirement for a repeated, high-risk corneal transplantation. Here, we developed dexamethasone sodium phosphate (DSP)–loaded dicarboxyl-terminated poly(lactic acid) nanoparticle (PLA DSP-NP) formulations with relatively high drug loading (8 to 10 weight %) and 6 months of sustained intraocular DSP delivery in rats with a single dosing. PLA DSP-NP successfully reversed early signs of corneal rejection, leading to rat corneal graft survival for at least 6 months. Efficacious PLA DSP-NP doses did not affect IOP and showed no signs of ocular toxicity in rats for up to 6 months. Subconjunctival injection of DSP-NP is a promising approach for safely preventing and treating corneal graft rejection with the potential for improved patient adherence.

Published

2023

14. Next generation strategies for preventing preterm birth

Author

Hannah C. Zierden, Rachel L. Shapiro, Kevin DeLong, Laura M. Ensign, and Davell M. Carter

Subjects

medicine.medical_specialty, medicine.drug_class, Pharmaceutical Science, macromolecular substances, 02 engineering and technology, environment and public health, Article, Confirmatory trial, 03 medical and health sciences, Drug Development, Pregnancy, Risk Factors, 17 alpha-Hydroxyprogesterone Caproate, medicine, Animals, Humans, Intensive care medicine, Drug Approval, 030304 developmental biology, 0303 health sciences, integumentary system, Premature labor, business.industry, Infant, Newborn, 021001 nanoscience & nanotechnology, medicine.disease, Increased risk, Premature Birth, Gestation, Female, Progestins, 0210 nano-technology, Injection given, business, Progestin

Abstract

Preterm birth (PTB) is defined as delivery before 37 weeks of gestation. Globally, 15 million infants are born prematurely, putting these children at an increased risk of mortality and lifelong health challenges. Currently in the U.S., there is only one FDA approved therapy for the prevention of preterm birth. Makena is an intramuscular progestin injection given to women who have experienced a premature delivery in the past. Recently, however, Makena failed a confirmatory trial, resulting the Center for Drug Evaluation and Research’s (CDER) recommendation for the FDA to withdrawal Makena’s approval. This recommendation would leave clinicians with no therapeutic options for preventing PTB. Here, we outline recent interdisciplinary efforts involving physicians, pharmacologists, biologists, chemists, and engineers to understand risk factors associated with PTB, to define mechanisms that contribute to PTB, and to develop next generation therapies for preventing PTB. These advances have the potential to better identify women at risk for PTB, prevent the onset of premature labor, and, ultimately, save infant lives.

Published

2021

15. A hypotonic gel-forming eye drop provides enhanced intraocular delivery of a kinase inhibitor with melanin-binding properties for sustained protection of retinal ganglion cells

Author

Charles G. Eberhart, Cynthia A. Berlinicke, Patricia Kolodziejski, Henry T. Hsueh, Nicole M. Anders, Kirby T. Leo, Matthew B. Appell, Renee Ti Chou, Hyounkoo Han, Hye Young Kwon, Ian Pitha, Avelina Hemingway, Yoo Chun Kim, Usha Rai, Justin Hanes, Matthew D. Shin, Laura M. Ensign, and Donald J. Zack

Subjects

Retinal Ganglion Cells, Intraocular pressure, medicine.medical_specialty, genetic structures, medicine.medical_treatment, Pharmaceutical Science, Glaucoma, 02 engineering and technology, 030226 pharmacology & pharmacy, Retinal ganglion, Article, 03 medical and health sciences, 0302 clinical medicine, Ophthalmology, Sunitinib, medicine, Animals, Humans, Protein Kinase Inhibitors, Intraocular Pressure, Melanins, Retina, Retinal pigment epithelium, business.industry, Eye drop, 021001 nanoscience & nanotechnology, medicine.disease, eye diseases, Disease Models, Animal, medicine.anatomical_structure, Quality of Life, Optic nerve, sense organs, Choroid, Ophthalmic Solutions, 0210 nano-technology, business

Abstract

While eye drops are the most common ocular dosage form, eye drops for treating diseases of the posterior segment (retina, choroid, optic nerve) have yet to be developed. In glaucoma, eye drops are used extensively for delivering intraocular pressure (IOP) lowering medications to the anterior segment. However, degeneration of retinal ganglion cells (RGCs) in the retina may progress despite significant IOP lowering, suggesting that a complementary neuroprotective therapy would improve glaucoma management. Here, we describe a hypotonic, thermosensitive gel-forming eye drop for effective delivery of sunitinib, a protein kinase inhibitor with activity against the neuroprotective targets dual leucine zipper kinase (DLK) and leucine zipper kinase (LZK), to enhance survival of RGCs after optic nerve injury. Further, binding of sunitinib to melanin in the pigmented cells in the choroid and retinal pigment epithelium (RPE) led to prolonged intraocular residence time, including therapeutically relevant concentrations in the non-pigmented retinal tissue where the RGCs reside. The combination of enhanced intraocular absorption provided by the gel-forming eye drop vehicle and the intrinsic melanin binding properties of sunitinib led to significant protection of RGCs with only once weekly eye drop dosing. For a chronic disease such as glaucoma, an effective once weekly eye drop for neuroprotection could result in greater patient adherence, and thus, greater disease management and improved patient quality of life.

Published

2021

16. Injectable, Drug-Eluting Nanocrystals Prevent Fibrosis and Stricture Formation In Vivo

Author

Ling Li, Rachel L. Shapiro, Min Kyung Joo, Aditya Josyula, Henry T. Hsueh, Olaya Brewer Gutierrez, Gilad Halpert, Venkata Akshintala, Haiming Chen, Samuel Curtis, Marina Better, Charlotte Davison, Haijie Hu, Jose Antonio Navarro Almario, Steven N. Steinway, Kelton Hunt, Rico E. Del Sesto, Jessica Izzi, Kevan J. Salimian, Laura M. Ensign, and Florin M. Selaru

Subjects

Hepatology, Gastroenterology

Published

2023

17. In vitro and ex vivo models for evaluating vaginal drug delivery systems

Author

Rachel L. Shapiro, Kevin DeLong, Fareeha Zulfiqar, Davell Carter, Marina Better, and Laura M. Ensign

Subjects

Administration, Intravaginal, Mucus, Drug Delivery Systems, Vagina, Pharmaceutical Science, Humans, Nanoparticles, Female

Abstract

Vaginal drug delivery systems are often preferred for treating a variety of diseases and conditions of the female reproductive tract (FRT), as delivery can be more targeted with less systemic side effects. However, there are many anatomical and biological barriers to effective treatment via the vaginal route. Further, biocompatibility with the local tissue and microbial microenvironment is desired. A variety of in vitro and ex vivo models are described herein for evaluating the physicochemical properties and toxicity profile of vaginal drug delivery systems. Deciding whether to utilize organoids in vitro or fresh human cervicovaginal mucus ex vivo requires careful consideration of the intended use and the formulation characteristics. Optimally, in vitro and ex vivo experimentation will inform or predict in vivo performance, and examples are given that describe utilization of a range of methods from in vitro to in vivo. Lastly, we highlight more advanced model systems for other mucosa as inspiration for the future in model development for the FRT.

Published

2022

18. Characterization of an Adapted Murine Model of Intrauterine Inflammation–Induced Preterm Birth

Author

Nicole M. Anders, Mala Mahendroo, Peter Dimitrion, Jairo Ortiz, Irina Burd, Brigitte M. Ronnett, Morgan Scardina, Sabrine Bensouda, Thuy Hoang, Victoria Laney, Laura M. Ensign, Justin Hanes, and Hannah C. Zierden

Subjects

Lipopolysaccharides, 0301 basic medicine, Lipopolysaccharide, Article, Pathology and Forensic Medicine, Andrology, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Pregnancy, Gene expression, Animals, Potency, Medicine, Cervix, Evans Blue, Inflammation, Fetus, 030219 obstetrics & reproductive medicine, business.industry, Uterus, Uterine horns, biochemical phenomena, metabolism, and nutrition, medicine.disease, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, chemistry, Prenatal Exposure Delayed Effects, Myometrium, Premature Birth, Female, business

Abstract

Preterm birth (PTB) affects nearly 15 million infants each year. Of these PTBs, >25% are a result of inflammation or infection. Animal models have improved our understanding of the mechanisms leading to PTB. Prior work has described induction of intrauterine inflammation in mice with a single injection of lipopolysaccharide (LPS). Herein, we have improved the reproducibility and potency of LPS in the model using two injections distal to the cervix. An in vivo imaging system revealed more uniform distribution of Evans Blue Dye using a double distal injection (DDI) approach compared with a single proximal injection (SPI). Endotoxin concentrations in vaginal lavage fluid from SPI dams were significantly higher than from DDI dams. At equivalent LPS doses, DDI consistently induced more PTB than SPI, and DDI showed a linear dose-response, whereas SPI did not. Gene expression in myometrial tissue revealed increased levels of inflammatory markers in dams that received LPS DDI compared with LPS SPI. The SPI group showed more significant overexpression in cervical remodeling genes, likely due to the leakage of LPS from the uterine horns through the cervix. The more reliable PTB induction and uniform uterine exposure provided by this new model will be useful for further studying fetal outcomes and potential therapeutics for the prevention of inflammation-induced PTB.

Published

2020

19. Protein synthesis inhibitor omacetaxine is effective against hepatocellular carcinoma

Author

Christos S. Georgiades, Satomi Kawamoto, Peter Dimitrion, Laura M. Ensign, Mark Yarchoan, Russell Wesson, Ling Li, William R. Burns, Nilofer S. Azad, Michael G. Lerner, Christopher L. Wolfgang, Haijie Hu, Kiyoko Oshima, Joel S. Bader, Jin He, Richard A. Burkhart, Gilad Halpert, Andrew M. Cameron, Stephen J. Meltzer, Florin M. Selaru, Benjamin Philosophe, and Matthew J. Weiss

Subjects

Adult, Male, 0301 basic medicine, Drug, Carcinoma, Hepatocellular, media_common.quotation_subject, PLK1, Mice, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Animals, Humans, Medicine, Cells, Cultured, Aged, Cell Proliferation, media_common, Protein Synthesis Inhibitors, Protein synthesis inhibitor, Hepatology, business.industry, Liver Neoplasms, Cancer, General Medicine, Middle Aged, medicine.disease, Antineoplastic Agents, Phytogenic, Organoids, Clinical trial, 030104 developmental biology, Oncology, Liver, 030220 oncology & carcinogenesis, Hepatocellular carcinoma, Cancer research, Female, Drug therapy, Homoharringtonine, business, Liver cancer, Research Article, Chronic myelogenous leukemia

Abstract

Hepatocellular carcinoma (HCC) is the sixth most common and the fourth most deadly cancer worldwide. The development cost of new therapeutics is a major limitation in patient outcomes. Importantly, there is a paucity of preclinical HCC models in which to test new small molecules. Herein, we implemented potentially novel patient-derived organoid (PDO) and patient-derived xenografts (PDX) strategies for high-throughput drug screening. Omacetaxine, an FDA-approved drug for chronic myelogenous leukemia (CML), was found to be a top effective small molecule in HCC PDOs. Next, omacetaxine was tested against a larger cohort of 40 human HCC PDOs. Serial dilution experiments demonstrated that omacetaxine is effective at low (nanomolar) concentrations. Mechanistic studies established that omacetaxine inhibits global protein synthesis, with a disproportionate effect on short-half-life proteins. High-throughput expression screening identified molecular targets for omacetaxine, including key oncogenes, such as PLK1. In conclusion, by using an innovative strategy, we report - for the first time to our knowledge - the effectiveness of omacetaxine in HCC. In addition, we elucidate key mechanisms of omacetaxine action. Finally, we provide a proof-of-principle basis for future studies applying drug screening PDOs sequenced with candidate validation in PDX models. Clinical trials could be considered to evaluate omacetaxine in patients with HCC.

Published

2021

20. Controlled release of dexamethasone sodium phosphate with biodegradable nanoparticles for preventing experimental corneal neovascularization

Author

Zheng Ding, Yumin Oh, Walter J. Stark, Nicholas W. Lamb, Shiyu Xia, Yating Tang, Vineet Kulkarni, Justin Hanes, Tuo Meng, Baiwei Chen, Maria J. Suarez, Laura M. Ensign, Charles G. Eberhart, Bing Wang, and Qingguo Xu

Subjects

medicine.medical_specialty, genetic structures, medicine.drug_class, medicine.medical_treatment, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), Bioengineering, 02 engineering and technology, Article, Dexamethasone, Polyethylene Glycols, Neovascularization, 03 medical and health sciences, Dexamethasone Sodium Phosphate, stomatognathic system, Ophthalmology, PEG ratio, medicine, Animals, Corneal Neovascularization, General Materials Science, Glucocorticoids, Saline, 030304 developmental biology, 0303 health sciences, business.industry, Eye drop, 021001 nanoscience & nanotechnology, medicine.disease, Controlled release, eye diseases, Rats, Zinc, Delayed-Action Preparations, Corneal neovascularization, Nanoparticles, Molecular Medicine, Corticosteroid, sense organs, medicine.symptom, 0210 nano-technology, business

Abstract

Corneal neovascularization (CNV) leads to the loss of corneal transparency and vision impairment, and can ultimately cause blindness. Topical corticosteroids are the first line treatment for suppressing CNV, but poor ocular bioavailability and rapid clearance of eye drops makes frequent administration necessary. Patient compliance with frequent eye drop application regimens is poor. We developed biodegradable nanoparticles (NP) loaded with dexamethasone sodium phosphate (DSP) using zinc ion bridging, DSP-Zn-NP, with dense coatings of poly(ethylene glycol) (PEG). DSP-Zn-NP were safe and capable of providing sustained delivery of DSP to the front of the eye following subconjunctival (SCT) administration in rats. We reported that a single SCT administration of DSP-Zn-NP prevented suture-induced CNV in rats for two weeks. In contrast, the eyes receiving SCT administration of either saline or DSP solution developed extensive CNV in less than 1 week. SCT administration of DSP-Zn-NP could be an effective strategy in preventing and treating CNV.

Published

2019

21. Controlled release of corticosteroid with biodegradable nanoparticles for treating experimental autoimmune uveitis

Author

Elia J. Duh, Qingguo Xu, Jin Yang, Tuo Meng, Yumin Oh, Yoo Chun Kim, Shiyu Xia, Matthew J. Hartsock, Jennifer E. Thorne, Charles G. Eberhart, Justin Hanes, Laura M. Ensign, Zheng Ding, Walter J. Stark, and Lixia Luo

Subjects

medicine.medical_specialty, medicine.drug_class, Pharmaceutical Science, Administration, Ophthalmic, 02 engineering and technology, Eye, Dexamethasone, Article, Autoimmune Diseases, Uveitis, 03 medical and health sciences, Endophthalmitis, Dexamethasone Sodium Phosphate, Polylactic Acid-Polyglycolic Acid Copolymer, stomatognathic system, Adrenal Cortex Hormones, Ophthalmology, Animals, Medicine, 030304 developmental biology, 0303 health sciences, business.industry, Panuveitis, 021001 nanoscience & nanotechnology, medicine.disease, Zinc, Rats, Inbred Lew, Delayed-Action Preparations, Vitreous chamber, Vitreous hemorrhage, Cytokines, Nanoparticles, Corticosteroid, Female, Microglia, Rabbits, 0210 nano-technology, business, medicine.drug

Abstract

Noninfectious uveitis is a potentially blinding ocular condition that often requires treatment with corticosteroids to prevent inflammation-related ocular complications. Severe forms of uveitis such as panuveitis that affects the whole eye often require a combination of topical and either regional or systemic corticosteroid. Regional corticosteroids are currently delivered inside the eye by intravitreal injection (e.g. Ozurdex®, an intravitreal dexamethasone implant). Intravitreal injection is associated with rare but potentially serious side effects, including endophthalmitis, retinal and vitreous hemorrhage, and retinal detachment. Subconjunctival (SCT) injection is a less invasive option that is a common route used for post-surgical drug administration and treatment of infection and severe inflammation. However, it is the water soluble form of dexamethasone, dexamethasone sodium phosphate (DSP), that has been demonstrated to achieve high intraocular penetration with subconjunctival injection. It is difficult to load highly water soluble drugs, such as DSP, and achieve sustained drug release using conventional encapsulation methods. We found that use of carboxyl-terminated poly(lactic-co-glycolic acid) (PLGA) allowed encapsulation of DSP into biodegradable nanoparticles (NP) with relatively high drug content (6% w/w) if divalent zinc ions were used as an ionic “bridge” between the PLGA and DSP. DSP-Zn-NP had an average diameter of 210 nm, narrow particle size distribution (polydispersity index ~0.1), and near neutral surface charge (−9 mV). DSP-Zn-NP administered by SCT injection provided detectable DSP levels in both the anterior chamber and vitreous chamber of the eye for at least 3 weeks. In a rat model of experimental autoimmune uveitis (EAU), inflammation was significantly reduced in both the front and back of the eye in animals that received a single SCT injection of DSP-Zn-NP as compared to animals that received either aqueous DSP solution or phosphate buffered saline (PBS). DSP-Zn-NP efficacy was evidenced by a reduced clinical disease score, decreased expression of various inflammatory cytokines, and preserved retinal structure and function. Furthermore, SCT DSP-Zn-NP significantly reduced microglia cell density in the retina, a hallmark of EAU in rats. DSP-Zn-NP hold promise as a new strategy to treat noninfectious uveitis and potentially other ocular inflammatory disorders.

Published

2019

22. Ion-Complex Microcrystal Formulation Provides Sustained Delivery of a Multimodal Kinase Inhibitor from the Subconjunctival Space for Protection of Retinal Ganglion Cells

Author

Matthew B. Appell, Ian Pitha, Renee Ti Chou, Abhijit A. Date, Laura M. Ensign, Charles G. Eberhart, Matthew D. Shin, Cynthia A. Berlinicke, Nicole M. Anders, Usha Rai, Hyounkoo Han, Joan L. Jefferys, Henry T. Hsueh, Avelina Hemingway, Elizabeth C. Kimball, Sarah Quillen, Thomas V. Johnson, Justin Hanes, Amy Xiao, Harry A. Quigley, Donald J. Zack, Yoo Chun Kim, Kirby T. Leo, Laolu Ogunnaike, Patricia Kolodziejski, Julie Schaub, Youngwook Kim, and Hye Young Kwon

Subjects

medicine.medical_specialty, genetic structures, medicine.drug_class, sunitinib, Pharmaceutical Science, Glaucoma, 02 engineering and technology, pamoic acid, 030226 pharmacology & pharmacy, Retinal ganglion, Neuroprotection, ocular drug delivery, Tyrosine-kinase inhibitor, Article, 03 medical and health sciences, 0302 clinical medicine, tyrosine kinase inhibitor, Pharmacy and materia medica, Ophthalmology, medicine, Retina, business.industry, Sunitinib, Therapeutic effect, 021001 nanoscience & nanotechnology, medicine.disease, eye diseases, RS1-441, medicine.anatomical_structure, glaucoma, Corneal neovascularization, neuroprotection, sense organs, 0210 nano-technology, business, medicine.drug

Abstract

Glaucoma is the leading cause of irreversible blindness worldwide. Elevated intraocular pressure (IOP) is one of the major risk factors for glaucoma onset and progression, and available pharmaceutical interventions are exclusively targeted at IOP lowering. However, degeneration of retinal ganglion cells (RGCs) may continue to progress despite extensive lowering of IOP. A complementary strategy to IOP reduction is the use of neuroprotective agents that interrupt the process of cell death by mechanisms independent of IOP. Here, we describe an ion complexation approach for formulating microcrystals containing ~50% loading of a protein kinase inhibitor, sunitinib, to enhance survival of RGCs with subconjunctival injection. A single subconjunctival injection of sunitinib-pamoate complex (SPC) microcrystals provided 20 weeks of sustained retina drug levels, leading to neuroprotection in a rat model of optic nerve injury. Furthermore, subconjunctival injection of SPC microcrystals also led to therapeutic effects in a rat model of corneal neovascularization. Importantly, therapeutically relevant retina drug concentrations were achieved with subconjunctival injection of SPC microcrystals in pigs. For a chronic disease such as glaucoma, a formulation that provides sustained therapeutic effects to complement IOP lowering therapies could provide improved disease management and promote patient quality of life.

Published

2021

23. Engineering biomaterials to prevent post-operative infection and fibrosis

Author

Laura M. Ensign, Ian Pitha, Aditya Josyula, and Kunal S. Parikh

Subjects

medicine.medical_specialty, Wound Healing, Medical device, Post operative infection, business.industry, Pharmaceutical Science, Biomaterial, Biocompatible Materials, 02 engineering and technology, 021001 nanoscience & nanotechnology, medicine.disease, 030226 pharmacology & pharmacy, Fibrosis, Article, 03 medical and health sciences, 0302 clinical medicine, Drug Delivery Systems, Drug delivery, Quality of Life, Medicine, Humans, 0210 nano-technology, business, Intensive care medicine

Abstract

Implantable biomaterials are essential surgical devices, extending and improving the quality of life of millions of people globally. Advances in materials science, manufacturing, and in our understanding of the biological response to medical device implantation over several decades have resulted in improved safety and functionality of biomaterials. However, post-operative infection and immune responses remain significant challenges that interfere with biomaterial functionality and host healing processes. The objectives of this review is to provide an overview of the biology of post-operative infection and the physiological response to implanted biomaterials and to discuss emerging strategies utilizing local drug delivery and surface modification to improve the long-term safety and efficacy of biomaterials.

Published

2021

24. Erratum for the Research Article: ' Enhanced drug delivery to the reproductive tract using nanomedicine reveals therapeutic options for prevention of preterm birth ' by H. C. Zierden, J. I. Ortiz, K. DeLong, J. Yu, G. Li, P. Dimitrion, S. Bensouda, V. Laney, A. Bailey, N. M. Anders, M. Scardina, M. Mahendroo, S. Mesiano, I. Burd, G. Wagner, J. Hanes, L. M. Ensign

Author

Morgan Scardina, Günter P. Wagner, A. Bailey, Irina Burd, Victoria Laney, Sam Mesiano, Kevin DeLong, Hannah C. Zierden, Peter Dimitrion, Laura M. Ensign, G. Li, Justin Hanes, Jairo Ortiz, Nicole M. Anders, Mala Mahendroo, Sabrine Bensouda, and J. Yu

Subjects

business.industry, Reproductive tract, Drug delivery, Translational medicine, Nanomedicine, Medicine, General Medicine, Bioinformatics, business

Published

2021

25. Ultra‐thin, high strength, antibiotic‐eluting sutures for prevention of ophthalmic infection

Author

Revaz Omiadze, Youseph Yazdi, Peter J. McDonnell, Justin Hanes, Laura M. Ensign, Richard Shi, Nicole M. Anders, Aditya Josyula, Ping He, and Kunal S. Parikh

Subjects

Research Report, medicine.medical_specialty, medicine.drug_class, medicine.medical_treatment, Antibiotics, Rat model, Biomedical Engineering, Pharmaceutical Science, RM1-950, Chemical engineering, Bacterial colonization, Suture (anatomy), Electrospun nanofibers, medicine, nanofiber, levofloxacin, eye drop, medical device, suture, business.industry, Research Reports, Eye drop, Surgery, ophthalmology, Antibiotic delivery, drug delivery, Drug delivery, TP155-156, Therapeutics. Pharmacology, business, TP248.13-248.65, Biotechnology

Abstract

Sutures are applied almost universally at the site of trauma or surgery, making them an ideal platform to modulate the local, postoperative biological response, and improve surgical outcomes. To date, the only globally marketed drug‐eluting sutures are coated with triclosan for antibacterial application in general surgery. Loading drug directly into the suture rather than coating the surface offers the potential to provide drug delivery functionality to microsurgical sutures and achieve sustained drug delivery without increasing suture thickness. However, conventional methods for drug incorporation directly into the suture adversely affect breaking strength. Thus, there are no market offerings for drug‐eluting sutures, drug‐coated, or otherwise, in ophthalmology, where very thin sutures are required. Sutures themselves help facilitate bacterial infection, and antibiotic eye drops are commonly prescribed to prevent infection after ocular surgeries. An antibiotic‐eluting suture may prevent bacterial colonization of sutures and preclude patient compliance issues with eye drops. We report twisting of hundreds of individual drug‐loaded, electrospun nanofibers into a single, ultra‐thin, multifilament suture capable of meeting both size and strength requirements for microsurgical ocular procedures. Nanofiber‐based polycaprolactone sutures demonstrated no loss in strength with loading of 8% levofloxacin, unlike monofilament sutures which lost more than 50% strength. Moreover, nanofiber‐based sutures retained strength with loading of a broad range of drugs, provided antibiotic delivery for 30 days in rat eyes, and prevented ocular infection in a rat model of bacterial keratitis.

Published

2020

26. A patient-like swine model of gastrointestinal fibrotic strictures for advancing therapeutics

Author

Jean A. Donet, Olaya I. Brewer Gutierrez, Min Kyung Joo, Florin M. Selaru, Kevan J. Salimian, Mohamad I. Itani, Vivek Kumbhari, Laura M. Ensign, Yue Li, Ling Li, Haijie Hu, and George Fayad

Subjects

medicine.medical_specialty, Gastrointestinal Diseases, Swine, Science, Argon plasma coagulation, Constriction, Pathologic, Gastroenterology, Article, Food and drug administration, 03 medical and health sciences, 0302 clinical medicine, Fibrosis, In vivo, Internal medicine, Submucosa, medicine, Animals, Humans, Oesophagogastroscopy, Lamina propria, Multidisciplinary, Mucous Membrane, medicine.diagnostic_test, business.industry, Endoscopy, medicine.disease, Disease Models, Animal, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Medicine, 030211 gastroenterology & hepatology, business, Large animal

Abstract

Gastrointestinal (GI) strictures are difficult to treat in a variety of disease processes. Currently, there are no Food and Drug Administration (FDA) approved drugs for fibrosis in the GI tract. One of the limitations to developing anti-fibrotic drugs has been the lack of a reproducible, relatively inexpensive, large animal model of fibrosis-driven luminal stricture. This study aimed to evaluate the feasibility of creating a model of luminal GI tract strictures. Argon plasma coagulation (APC) was applied circumferentially in porcine esophagi in vivo. Follow-up endoscopy (EGD) was performed at day 14 after the APC procedure. We noted high grade, benign esophageal strictures (n = 8). All 8 strictures resembled luminal GI fibrotic strictures in humans. These strictures were characterized, and then successfully dilated. A repeat EGD was performed at day 28 after the APC procedure and found evidence of recurrent, high grade, fibrotic, strictures at all 8 locations in all pigs. Pigs were sacrificed and gross and histologic analyses performed. Histologic examination showed extensive fibrosis, with significant collagen deposition in the lamina propria and submucosa, as well as extensive inflammatory infiltrates within the strictures. In conclusion, we report a porcine model of luminal GI fibrotic stricture that has the potential to assist with developing novel anti-fibrotic therapies as well as endoscopic techniques to address recurring fibrotic strictures in humans.

Published

2020

27. Preclinical evaluation of a hypotonic docetaxel nanosuspension formulation for intravesical treatment of non-muscle-invasive bladder cancer

Author

Abhijit A, Date, Max, Kates, Takahiro, Yoshida, Taarika, Babu, Umara, Afzal, Pranjali, Kanvinde, Alexander, Baras, Nicole, Anders, Ping, He, Michelle, Rudek, Justin, Hanes, Trinity J, Bivalacqua, and Laura M, Ensign

Subjects

Administration, Intravesical, Urinary Bladder Neoplasms, Animals, Nanoparticles, Docetaxel, Immunotherapy, Rats

Abstract

Intravesical chemotherapy is a key approach for treating refractory non-muscle-invasive bladder cancer (NMIBC). However, the effectiveness of intravesical chemotherapy is limited by bladder tissue penetration and retention. Here, we describe the development of a docetaxel nanosuspension that, when paired with a low osmolality (hypotonic) vehicle, demonstrates increased uptake by the bladder urothelium with minimal systemic exposure. We compare the bladder residence time and efficacy in an immune-competent rat model of NMIBC to the clinical comparator, solubilized docetaxel (generic Taxotere) diluted for intravesical administration. We found that only the intravesical docetaxel nanosuspension significantly decreased cell proliferation compared to untreated tumor tissues. The results presented here suggest that the combination of nanoparticle-based chemotherapy and a hypotonic vehicle can provide more efficacious local drug delivery to bladder tissue for improved treatment of refractory NMIBC.

Published

2020

28. Nano-structured glaucoma drainage implant safely and significantly reduces intraocular pressure in rabbits via post-operative outflow modulation

Author

Kunal S. Parikh, Aditya Josyula, Ju Young Ahn, Ian Pitha, Revaz Omiadze, Justin Hanes, Youlim Ha, and Laura M. Ensign

Subjects

Materials for devices, Biocompatible polymers, Intraocular pressure, medicine.medical_specialty, genetic structures, medicine.medical_treatment, lcsh:Medicine, Glaucoma, Trabeculectomy, 02 engineering and technology, Article, 03 medical and health sciences, Engineering, 0302 clinical medicine, Nanoscience and technology, Ophthalmology, medicine, Animals, Post operative, Glaucoma Drainage Implants, lcsh:Science, Intraocular Pressure, Glaucoma drainage implant, Nanoscale materials, Multidisciplinary, business.industry, lcsh:R, Health care, 021001 nanoscience & nanotechnology, medicine.disease, Materials science, eye diseases, Nanostructures, 030221 ophthalmology & optometry, lcsh:Q, Outflow, Rabbits, sense organs, 0210 nano-technology, business, Biomedical engineering, Shunt (electrical)

Abstract

Glaucoma is a leading cause of irreversible vision loss predicted to affect more than 100 million people by 2040. Intraocular pressure (IOP) reduction prevents development of glaucoma and vision loss from glaucoma. Glaucoma surgeries reduce IOP by facilitating aqueous humor outflow through a vent fashioned from the wall of the eye (trabeculectomy) or a glaucoma drainage implant (GDI), but surgeries lose efficacy overtime, and the five-year failure rates for trabeculectomy and tube shunts are 25–45%. The majority of surgical failures occur due to fibrosis around the vent. Alternatively, surgical procedures can shunt aqueous humor too well, leading to hypotony. Electrospinning is an appealing manufacturing platform for GDIs, as it allows for incorporation of biocompatible polymers into nano- or micro-fibers that can be configured into devices of myriad combinations of dimensions and conformations. Here, small-lumen, nano-structured glaucoma shunts were manufactured with or without a degradable inner core designed to modulate aqueous humor outflow to provide immediate IOP reduction, prevent post-operative hypotony, and potentially offer significant, long-term IOP reduction. Nano-structured shunts were durable, leak-proof, and demonstrated biocompatibility and patency in rabbit eyes. Importantly, both designs prevented hypotony and significantly reduced IOP for 27 days in normotensive rabbits, demonstrating potential for clinical utility.

Published

2020

29. Enhanced drug delivery to the reproductive tract using nanomedicine reveals therapeutic options for prevention of preterm birth

Author

Jairo Ortiz, Justin Hanes, Anna Bailey, Peter Dimitrion, Sabrine Bensouda, Hannah C. Zierden, Morgan Scardina, Gaoshan Li, Victoria Laney, Sam Mesiano, Nicole M. Anders, Mala Mahendroo, Kevin DeLong, Günter P. Wagner, Irina Burd, Laura M. Ensign, and Jingqi Yu

Subjects

Progesterone receptor B, Vaginal delivery, business.industry, Offspring, Inflammation, General Medicine, Pharmacology, In vitro, Article, Clinical trial, Nanomedicine, Pharmaceutical Preparations, Pregnancy, Drug delivery, 17 alpha-Hydroxyprogesterone Caproate, Medicine, Animals, Premature Birth, Female, Histone deacetylase, medicine.symptom, Progestins, business, Progesterone

Abstract

Inflammation contributes to nearly 4 million global premature births annually. Here, we used a mouse model of intrauterine inflammation to test clinically used formulations, as well as engineered nanoformulations, for the prevention of preterm birth (PTB). We observed that neither systemic 17a-hydroxyprogesterone caproate (Makena) nor vaginal progesterone gel (Crinone) was sufficient to prevent inflammation-induced PTB, consistent with recent clinical trial failures. However, we found that vaginal delivery of mucoinert nanosuspensions of histone deacetylase (HDAC) inhibitors, in some cases with the addition of progesterone, prevented PTB and resulted in delivery of live pups exhibiting neurotypical development. In human myometrial cells in vitro, the P4/HDAC inhibitor combination both inhibited cell contractility and promoted the anti-inflammatory action of P4 by increasing progesterone receptor B stability. Here, we demonstrate the use of vaginally delivered drugs to prevent intrauterine inflammation-induced PTB resulting in the birth of live offspring in a preclinical animal model.

Published

2020

30. Gelling hypotonic polymer solution for extended topical drug delivery to the eye

Author

Matthew D. Shin, Hyounkoo Han, Ian Pitha, Byung Jin Kim, Justin Hanes, Amy Xiao, Peter J. McDonnell, Sean F. Hackett, Henry T. Hsueh, Raquel Lima e Silva, Laura M. Ensign, Youngwook Kim, Yoo Chun Kim, Ping He, Laolu Ogunnaike, Albert S. Jun, Abhijit A. Date, Charles G. Eberhart, Nicole M. Anders, Avelina Hemingway, Peter A. Campochiaro, and Donald J. Zack

Subjects

0301 basic medicine, Drug, Male, genetic structures, Contact time, Polymers, Swine, media_common.quotation_subject, Administration, Topical, Biomedical Engineering, Medicine (miscellaneous), Bioengineering, Eye, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Drug Delivery Systems, Animals, media_common, Topical drug, Chemistry, eye diseases, Computer Science Applications, Posterior segment of eyeball, Mice, Inbred C57BL, Blurring vision, 030104 developmental biology, Hypotonic Solutions, Polymer solution, Drug delivery, Tonicity, Nanoparticles, Female, sense organs, Rabbits, Ophthalmic Solutions, Gels, 030217 neurology & neurosurgery, Biotechnology, Biomedical engineering

Abstract

Eye-drop formulations should hold as high a concentration of soluble drug in contact with ocular epithelium for as long as possible. However, eye tears and frequent blinking limit drug retention on the ocular surface, and gelling drops typically form clumps that blur vision. Here, we describe a gelling hypotonic solution containing a low concentration of a thermosensitive triblock copolymer for extended ocular drug delivery. On topical application, the hypotonic formulation forms a highly uniform and clear thin layer that conforms to the ocular surface and resists clearance from blinking, increasing the intraocular absorption of hydrophilic and hydrophobic drugs and extending the drug-ocular-epithelium contact time with respect to conventional thermosensitive gelling formulations and commercial eye drops. We also show that the conformal gel layer allows for therapeutically relevant drug delivery to the posterior segment of the eyeball in pigs. Our findings highlight the importance of formulations that conform to the ocular surface before viscosity enhancement for increased and prolonged ocular surface contact and drug absorption.

Published

2020

31. The cervicovaginal mucus barrier to HIV-1 is diminished in bacterial vaginosis

Author

Nomfuneko A. Mafunda, Samuel K. Lai, Thomas R. Moench, Thuy Hoang, Hannah C. Zierden, Seth M. Bloom, Douglas S. Kwon, Kevin DeLong, Jenell S. Coleman, Laura M. Ensign, Justin Hanes, Richard A. Cone, and Emily Toler

Subjects

RNA viruses, Physiology, Antibiotics, HIV Infections, Cervix Uteri, Pathology and Laboratory Medicine, Virions, Immunodeficiency Viruses, Lactobacillus, Medicine and Health Sciences, Biology (General), Barrier function, 0303 health sciences, biology, Coinfection, Microbiota, 030302 biochemistry & molecular biology, Genomics, Vaginosis, Bacterial, Middle Aged, Body Fluids, 3. Good health, Chemistry, Infectious Diseases, Medical Microbiology, Viral Pathogens, Viruses, Physical Sciences, Vagina, HIV clinical manifestations, Female, Pathogens, Anatomy, Bacterial vaginosis, medicine.symptom, Research Article, Adult, medicine.drug_class, QH301-705.5, Urology, Immunology, Sexually Transmitted Diseases, Microbial Genomics, Viral Structure, Microbiology, Asymptomatic, Young Adult, 03 medical and health sciences, Bacterial Vaginosis, Virology, Retroviruses, Genetics, medicine, Humans, Lactic Acid, Microbiome, Microbial Pathogens, Molecular Biology, 030304 developmental biology, Bacteria, Genitourinary Infections, business.industry, Lentivirus, Gut Bacteria, Organisms, Chemical Compounds, Biology and Life Sciences, HIV, RC581-607, medicine.disease, biology.organism_classification, Mucus, Diagnostic medicine, HIV-1, Parasitology, Nugent score, Immunologic diseases. Allergy, business, Acids

Abstract

Bacterial vaginosis (BV), a condition in which the vaginal microbiota consists of community of obligate and facultative anaerobes rather than dominated by a single species of Lactobacillus, affects ~30% of women in the US. Women with BV are at 60% increased risk for HIV acquisition and are 3-times more likely to transmit HIV to an uninfected partner. As cervicovaginal mucus (CVM) is the first line of defense against mucosal pathogens and the home of the resident vaginal microbiota, we hypothesized the barrier function of CVM to HIV may be diminished in BV. Here, we characterized CVM properties including pH, lactic acid content, and Nugent score to correlate with the microbiota community composition, which was confirmed by 16S rDNA sequencing on a subset of samples. We then quantified the mobility of fluorescently-labeled HIV virions and nanoparticles to characterize the structural and adhesive barrier properties of CVM. Our analyses included women with Nugent scores categorized as intermediate (4–6) and BV (7–10), women that were either symptomatic or asymptomatic, and a small group of women before and after antibiotic treatment for symptomatic BV. Overall, we found that HIV virions had significantly increased mobility in CVM from women with BV compared to CVM from women with Lactobacillus crispatus-dominant microbiota, regardless of whether symptoms were present. We confirmed using nanoparticles and scanning electron microscopy that the impaired barrier function was due to reduced adhesive barrier properties without an obvious degradation of the physical CVM pore structure. We further confirmed a similar increase in HIV mobility in CVM from women with Lactobacillus iners-dominant microbiota, the species most associated with transitions to BV and that persists after antibiotic treatment for BV. Our findings advance the understanding of the protective role of mucus and highlight the interplay between vaginal microbiota and the innate barrier function mucus., Author summary Bacterial vaginosis (BV), a condition characterized by the depletion of lactobacillus bacteria in the vagina, is the most common vaginal condition in reproductive age women. BV has been associated with many adverse reproductive and sexual health outcomes, including increased risk of HIV infection. Cervicovaginal mucus is the home to vaginal bacteria and acts as a first line of defense to protect the underlying tissues and cells from infection. Here, we studied the barrier properties of mucus from women with BV compared to women with vaginal bacteria dominated by lactobacilli. We found that mucus from women with BV and women with Lactobacillus iners were permissive to HIV-1, which may allow the virus to more easily reach target cells. These findings are in agreement with the observed increased risk for HIV acquisition seen in women with BV and L. iners bacteria. Furthermore, we found that the barrier against HIV is diminished in women with BV regardless of whether they have symptoms. Our findings highlight the important, yet unexplored interactions between the mucus barrier and the vaginal microbiota and the implications for human health.

Published

2020

32. Pseudomonas aeruginosa pyocyanin production reduced by quorum-sensing inhibiting nanocarriers

Author

Hoang D. Lu, Gregg A. Duncan, Elizabeth Pearson, Laura M. Ensign, Robert K. Prud'homme, Jung Soo Suk, Kurt D. Ristroph, and Justin Hanes

Subjects

0301 basic medicine, Cystic Fibrosis, Polymers, Pharmaceutical Science, Virulence, 02 engineering and technology, medicine.disease_cause, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, Pyocyanin, Antibiotic resistance, medicine, Humans, Drug Carriers, Chemistry, Pseudomonas aeruginosa, Quorum Sensing, 021001 nanoscience & nanotechnology, Antimicrobial, Mucus, Quorum sensing, 030104 developmental biology, Drug delivery, Pyocyanine, Nanoparticles, Nanocarriers, 0210 nano-technology

Abstract

Pseudomonas aeruginosa is an opportunistic gram-negative pathogen that causes a wide range of infections; it is becoming increasingly difficult to treat due to antibiotic resistance. Quorum-sensing (QS) based therapeutics, which function by disabling pathogen virulence without killing pathogens, are a promising class of drugs that may be used to treat bacterial infections without eliciting resistance development. The use of QS drugs to treat pulmonary P. aeruginosa infections, however, has been greatly limited due to the inability to deliver QS drugs at sufficiently high concentrations past physiological barriers such as pulmonary mucus. Here we apply a block copolymer-directed self-assembly process, Flash NanoPrecipitation, to develop a series of QS-active formulations that are fully water dispersible, stable, and mucus-penetrating. These formulations inhibit P. aeruginosa virulence without inhibiting cell growth. Particle size (70 nm–400 nm) and release rate (1 h–14 days) can be tuned by altering constructs’ physical properties and formulation excipients. We also demonstrate, to the best of our knowledge, the first instance of a QS nanocarrier platform technology that can penetrate through human cystic fibrosis pulmonary mucus. This work highlights the need to incorporate nanoformulation strategies into the development of next-generation antimicrobial therapeutics.

Published

2018

33. Induction of the integrated stress response in the rat cornea

Author

Albert S. Jun, Laura M. Ensign, James W Foster, Y.C. Kim, and C. Peterson

Subjects

Agonist, Keratoconus, Intraocular pressure, Pathology, medicine.medical_specialty, medicine.drug_class, medicine.medical_treatment, Corneal Keratocytes, Article, Collagen Type I, Cornea, Rats, Sprague-Dawley, Pathogenesis, Cellular and Molecular Neuroscience, In vivo, medicine, Animals, Integrated stress response, Corneal transplantation, Extracellular Matrix Proteins, business.industry, Thiourea, medicine.disease, Activating Transcription Factor 4, eye diseases, Sensory Systems, Rats, Collagen Type I, alpha 1 Chain, Disease Models, Animal, Ophthalmology, medicine.anatomical_structure, Cinnamates, Female, business

Abstract

Keratoconus (KC), a progressive, degenerative corneal disease, represents the second leading indication for corneal transplantation globally. We have previously demonstrated that components of the Integrated Stress Response (ISR) are upregulated in human keratoconic donor tissue, and treatment of normal tissue with ISR agonists attenuates collagen production. With no consistently accepted animal models available for translational KC research, we sought to establish an in vivo model based on ISR activation to elucidate its role in the development of the KC phenotype. Four-week-old female SD rats were treated with topical SAL003 formulated as a nanosuspension or vehicle every 48 h for four doses. Animals were subject to monitoring for ocular inflammation and discomfort before being euthanized at 1, 14, or 28 days after treatment was withdrawn. Schirmer's tear test, intraocular pressure, and body weight measurements were obtained at baseline and prior to euthanasia. Globes were subject to routine histopathology, immunohistochemistry for ATF4, and qPCR for Col1a1 expression. ANOVAs and Student's t tests were used to assess statistical significance (α = 0.05). SAL003 treatment did not produce any adverse ocular or systemic phenotype but did result in decreased keratocyte density. Col1a1 transcripts were reduced, corresponding to nuclear ATF4 expression within the axial cornea. In vivo topical treatment with a gel-formulated ISR agonist recapitulates key features of the activated ISR including nuclear ATF4 expression and decreased extracellular matrix (ECM) production. Exogenous ISR agonists may present one approach to establishing a rodent model for keratoconus, a charge essential for future evaluations of pathogenesis and therapeutic interventions.

Published

2021

34. Local enema treatment to inhibit FOLH1 /GCPII as a novel therapy for inflammatory bowel disease

Author

Abhijit A. Date, Pranjali Kanvinde, Sarah C. Zimmermann, Barbara S. Slusher, Alexandra J. Gadiano, Ajit G. Thomas, Taarika Babu, Laura M. Ensign, Rana Rais, Jairo Ortiz, and Gilad Halpert

Subjects

Glutamate Carboxypeptidase II, Male, 0301 basic medicine, Drug, medicine.medical_specialty, Colon, media_common.quotation_subject, medicine.medical_treatment, Pharmaceutical Science, Enema, Absorption (skin), digestive system, Gastroenterology, Inflammatory bowel disease, Article, 03 medical and health sciences, Organophosphorus Compounds, 0302 clinical medicine, Internal medicine, medicine, Animals, Intestinal Mucosa, Colitis, media_common, Mice, Inbred BALB C, biology, business.industry, Inflammatory Bowel Diseases, medicine.disease, digestive system diseases, Enzyme assay, 030104 developmental biology, Trinitrobenzenesulfonic Acid, biology.protein, Tonicity, business, 030217 neurology & neurosurgery, Ex vivo

Abstract

Here we evaluate the potential for local administration of a small molecule FOLH1/GCPII inhibitor 2-phosphonomethyl pentanedioic acid (2-PMPA) as a novel treatment for inflammatory bowel disease (IBD). We found that FOLH1/GCPII enzyme activity was increased in the colorectal tissues of mice with TNBS-induced colitis, and confirmed that 2-PMPA inhibited FOLH1/GCPII enzyme activity ex vivo. In order to maximize local enema delivery of 2-PMPA, we studied the effect of vehicle tonicity on the absorption of 2-PMPA in the colon. Local administration of 2-PMPA in a hypotonic enema vehicle resulted in increased colorectal tissue absorption at 30 min compared to 2-PMPA administered in an isotonic enema vehicle. Furthermore, local delivery of 2-PMPA in hypotonic enema vehicle resulted in prolonged drug concentrations for at least 24 h with minimal systemic exposure. Finally, daily treatment with the hypotonic 2-PMPA enema ameliorated macroscopic and microscopic symptoms of IBD in the TNBS-induced colitis mouse model, indicating the potential of FOLH1/GCPII inhibitors for the local treatment of IBD.

Published

2017

35. Development of a mucoinert progesterone nanosuspension for safer and more effective prevention of preterm birth

Author

Ping He, Jairo Ortiz, Hannah C. Zierden, Abhijit A. Date, Justin Hanes, James H. Segars, Laura M. Ensign, Thuy Hoang, Nicole M. Anders, Mala Mahendroo, and Sanjeev Gumber

Subjects

Uterus, Pharmaceutical Science, Physiology, Nanogels, 02 engineering and technology, medicine.disease_cause, Article, 03 medical and health sciences, Mice, Pharmacokinetics, Pregnancy, medicine, Animals, Humans, Tissue Distribution, Dosing, Progesterone, 030304 developmental biology, 0303 health sciences, business.industry, Vaginal Absorption, 021001 nanoscience & nanotechnology, Effective dose (pharmacology), Administration, Intravaginal, medicine.anatomical_structure, Animals, Newborn, Drug delivery, Toxicity, Vaginal Creams, Foams, and Jellies, Premature Birth, Female, Irritation, Pharmaceutical Vehicles, Progestins, 0210 nano-technology, business

Abstract

Preterm birth (PTB) is a significant global problem, but few therapeutic options exist. Vaginal progesterone supplementation has been demonstrated to reduce PTB rates in women with a sonographic short cervix, yet there has been little investigation into the most effective dose or delivery form. Further, vaginal products like progesterone gel often contain excipients that cause local toxicity, irritation, and leakage. Here, we describe the development and characterization of a mucoinert vaginal progesterone nanosuspension formulation for improved drug delivery to the female reproductive tract. We compare the pharmacokinetics and pharmacodynamics to the clinical comparator progesterone gel in pregnant mice and demonstrate increased vaginal absorption and biodistribution via the uterine first-pass effect. Importantly, the unique plasma progesterone double peak observed in humans, reflecting recirculation from the uterus, was also observed in pregnant mice with vaginal dosing. We adapted a mouse model of progesterone withdrawal that was previously believed to be incompatible with testing the efficacy of exogenous progestins, and are first to demonstrate efficacy in preventing preterm birth with vaginal progesterone in this model. Further, improved vaginal progesterone delivery by the nanosuspension led to increased efficacy in PTB prevention. Additionally, we identified histological and transcriptional evidence of cervical and uterine toxicity with a single vaginal administration of the clinical gel that are absent after dosing with the mucoinert nanosuspension formulation. We demonstrate that a progesterone formulation that is designed for improved vaginal progesterone absorption and vaginal biocompatibility could be more effective for PTB prevention.

Published

2018

36. PEGylation as a strategy for improving nanoparticle-based drug and gene delivery

Author

Justin Hanes, Laura M. Ensign, Qingguo Xu, Jung Soo Suk, and Namho Kim

Subjects

Surface Properties, Pharmaceutical Science, Nanoparticle, Nanotechnology, 02 engineering and technology, Polyethylene glycol, Gene delivery, 010402 general chemistry, 01 natural sciences, Article, Polyethylene Glycols, chemistry.chemical_compound, Drug Delivery Systems, PEG ratio, Animals, Humans, Medicine, Liposome, business.industry, Gene Transfer Techniques, technology, industry, and agriculture, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Surface coating, chemistry, Systemic administration, PEGylation, Nanoparticles, 0210 nano-technology, business

Abstract

Coating the surface of nanoparticles with polyethylene glycol (PEG), or "PEGylation", is a commonly used approach for improving the efficiency of drug and gene delivery to target cells and tissues. Building from the success of PEGylating proteins to improve systemic circulation time and decrease immunogenicity, the impact of PEG coatings on the fate of systemically administered nanoparticle formulations has, and continues to be, widely studied. PEG coatings on nanoparticles shield the surface from aggregation, opsonization, and phagocytosis, prolonging systemic circulation time. Here, we briefly describe the history of the development of PEGylated nanoparticle formulations for systemic administration, including how factors such as PEG molecular weight, PEG surface density, nanoparticle core properties, and repeated administration impact circulation time. A less frequently discussed topic, we then describe how PEG coatings on nanoparticles have also been utilized for overcoming various biological barriers to efficient drug and gene delivery associated with other modes of administration, ranging from gastrointestinal to ocular. Finally, we describe both methods for PEGylating nanoparticles and methods for characterizing PEG surface density, a key factor in the effectiveness of the PEG surface coating for improving drug and gene delivery.

Published

2016

37. Sustained delivery of acriflavine from the suprachoroidal space provides long term suppression of choroidal neovascularization

Author

Tao Wang, Matthew D. Shin, Ping He, Mahmood Khan, Yoo Chun Kim, Raquel Lima e Silva, Hiroki Tsujinaka, Laura M. Ensign, Jie Fu, Justin Hanes, Sean F. Hackett, Zibran Hafiz, Nicole M. Anders, Jikui Shen, and Peter A. Campochiaro

Subjects

medicine.medical_specialty, Intraocular pressure, genetic structures, Biophysics, Bioengineering, 02 engineering and technology, Fundus (eye), digestive system, Article, Retina, Biomaterials, Pathogenesis, Mice, 03 medical and health sciences, chemistry.chemical_compound, Ophthalmology, medicine, Animals, Acriflavine, Receptor, 030304 developmental biology, 0303 health sciences, Retinal, 021001 nanoscience & nanotechnology, Choroidal Neovascularization, digestive system diseases, eye diseases, Rats, Choroidal neovascularization, chemistry, Mechanics of Materials, Ceramics and Composites, Rabbits, sense organs, medicine.symptom, 0210 nano-technology, Erg, Choroidal Effusions

Abstract

Hypoxia-inducible factor-1 (HIF-1) has been implicated in the pathogenesis of choroidal neovascularization (NV) and is an appealing target because it increases multiple pro-angiogenic proteins and their receptors. Acriflavine (ACF) binds HIF-1α and HIF-2α preventing binding to HIF-1β and inhibiting transcriptional activity of HIF-1 and HIF-2. Delivery of ACF to the eye by multiple routes strongly, but transiently, suppresses choroidal NV. We overcame design challenges and loaded highly water soluble ACF into poly(lactic-co-glycolic acid) (PLGA) microparticles (PLGA-ACF MPs) that release ACF in vitro for up to 60 days. Intravitreous injection of PLGA-ACF MPs in mice suppressed choroidal NV for at least 9 weeks and suprachoroidal injection of PLGA-ACF in rats suppressed choroidal NV for at least 18 weeks. Intravitreous, but not suprachoroidal injection, of PLGA-ACF MPs containing 38 μg of ACF in rabbits resulted in modest reduction of full-field electroretinogram (ERG) function. Over the span of 28 days after suprachoroidal injection of PLGA-ACF MP, rabbits had normal appearing retinas on fundus photographs, normal electroretinogram scotopic a- and b-wave amplitudes, no increase in intraocular pressure, and normal retinal histology. The active component of ACF, trypaflavine, had steady-state levels in the low nM range in RPE/choroid > retina for at least 16 weeks with a gradient from the side of the eye where the injection was done to the opposite side. These data suggest that suprachoroidal injection of PLGA-ACF MPs has the potential to provide a durable new treatment for retinal and choroidal vascular diseases.

Published

2020

38. 695 OMACETAXINE AS A POTENTIAL EFFECTIVE STRATEGY FOR HEPATOCELLULAR CARCINOMA

Author

Mark Yarchoan, Richard A. Burkhart, Florin M. Selaru, Benjamin Philosophe, Gilad Halpert, Matthew J. Weiss, Russell Wesson, Jin He, Peter Dimitrion, Haijie Hu, Satomi Kawamoto, William R. Burns, Andrew M. Cameron, Christos S. Georgiades, Kiyoko Oshima, Laura M. Ensign, Christopher L. Wolfgang, Nilo Azad, and Ling Li

Subjects

Hepatology, business.industry, Hepatocellular carcinoma, Gastroenterology, medicine, Cancer research, medicine.disease, business

Published

2020

39. Mucus-penetrating budesonide nanosuspension enema for local treatment of inflammatory bowel disease

Author

Taarika Babu, Janani Narayan, Justin Hanes, Peter Dimitrion, Abhijit A. Date, Olivia Musmanno, Hannah C. Zierden, Laura M. Ensign, Kalpana Betageri, Sanjeev Gumber, Xinglu Huang, Gilad Halpert, Helen Wiegand, Jairo Ortiz, and Pranjali Kanvinde

Subjects

0301 basic medicine, Budesonide, Male, medicine.medical_specialty, Colon, medicine.medical_treatment, Drug Compounding, Biophysics, Anti-Inflammatory Agents, Bioengineering, Enema, 02 engineering and technology, Poloxamer, Inflammatory bowel disease, Gastroenterology, Tissue penetration, Article, Biomaterials, 03 medical and health sciences, Mice, Drug Delivery Systems, Suspensions, Internal medicine, Medicine, Distribution (pharmacology), Animals, Colitis, business.industry, 021001 nanoscience & nanotechnology, medicine.disease, Inflammatory Bowel Diseases, Mucus, digestive system diseases, Mice, Inbred C57BL, 030104 developmental biology, Gastrointestinal disorder, Trinitrobenzenesulfonic Acid, Mechanics of Materials, Ceramics and Composites, Nanoparticles, Polystyrenes, 0210 nano-technology, business, medicine.drug

Abstract

Inflammatory bowel disease (IBD) is a chronic inflammatory gastrointestinal disorder that affects more than 1 million individuals in the USA. Local therapy with enema formulations, such as micronized budesonide (Entocort(®)), is a common strategy for treating patients with distally active IBD. However, we hypothesize that micronized particulates are too large to effectively penetrate colorectal mucus, limiting the extent of drug delivery to affected tissues prior to clearance. Here, we describe the development of a budesonide nanosuspension (NS) with the appropriate surface coating and size to enhance penetration of colorectal mucus and ulcerated colorectal tissues. We demonstrate that model fluorescent polystyrene (PS) particles ~200 nm in size with a muco-inert Pluronic F127 coating provide enhanced mucosal distribution and tissue penetration in mice with trinitrobenzenesulfonic acid (TNBS)-induced IBD compared to model 2 µm PS particles coated with polyvinylpyrollidone (PVP), the stabilizer used in the clinical micronized budesonide formulation. We then used a wet-milling process to develop a budesonide NS formulation with a muco-inert Pluronic F127 coating (particle size ~230 nm), as well as a budesonide microsuspension (MS) stabilized with PVP (particle size ~2 µm). Using an acute TNBS mouse model of IBD, we show that daily budesonide NS enema treatment resulted in a significant reduction in the macroscopic (decreased colon weight) and microscopic (histology score) symptoms of IBD compared to untreated controls or mice treated daily with the budesonide MS enema. Further, we show that the budesonide NS enema treated mice had a significantly reduced number of inflammatory macrophages and IL-β producing CD11b+ cells in colon tissue compared to untreated controls or mice treated with the budesonide MS enema. We conclude that the nano-size and muco-inert coating allowed for enhanced local delivery of budesonide, and thus, a more significant impact on local colorectal tissue inflammation.

Published

2018

40. Development of rectal enema as microbicide (DREAM): Preclinical progressive selection of a tenofovir prodrug enema

Author

Edward J. Fuchs, Richard A. Cone, Craig W. Hendrix, Ting Wei Young, Justin Hanes, Sabrine Bensouda, Peng Xiao, Sanjeev Gumber, Lisa C. Rohan, Laura M. Ensign, Abhijit A. Date, Thuy Hoang, Mark A. Marzinke, Francois Villinger, and Jairo Ortiz Ortiz

Subjects

Oncology, Male, medicine.medical_specialty, Tenofovir, Anti-HIV Agents, medicine.medical_treatment, Organophosphonates, Pharmaceutical Science, Enema, HIV Infections, 02 engineering and technology, 030226 pharmacology & pharmacy, Tenofovir alafenamide, Article, Men who have sex with men, 03 medical and health sciences, Mice, Sexual and Gender Minorities, 0302 clinical medicine, Pharmacokinetics, Anti-Infective Agents, Administration, Rectal, Internal medicine, Microbicide, medicine, Animals, Prodrugs, Dosing, Homosexuality, Male, Alanine, business.industry, Adenine, Rectum, virus diseases, General Medicine, Prodrug, 021001 nanoscience & nanotechnology, Organophosphates, HIV-1, Pre-Exposure Prophylaxis, 0210 nano-technology, business, Biotechnology, medicine.drug

Abstract

HIV pre-exposure prophylaxis (PrEP) strategies have the potential to prevent millions of incident HIV infections each year. However, the efficacy of PrEP strategies has been plagued by issues of non-adherence, likely because of the difficulty in motivating otherwise healthy people to adhere to treatment regimens that require significant behavioral changes and daily discipline. An alternative approach to PrEP is to focus on strategies that fit in to normal, and even desirable, sexual behaviors, such as the use of cleansing enemas by men who have sex with men (MSM) prior to receptive anal intercourse (RAI). Here, we describe preclinical efforts toward optimizing a tenofovir (TFV)-based enema formulation for rectal PrEP. Using a murine model, we compared the plasma and tissue pharmacokinetics of TFV and various TFV prodrugs, including tenofovir disoproxil fumarate (TDF), tenofovir alafenamide (TAF), and hexadecyloxypropyl tenofovir (CMX157), after dosing as enema formulations with varying osmolality and ion content. We observed that the enema vehicle composition played a more important role than the TFV prodrug properties in achieving rapid and therapeutically relevant tenofovir diphosphate (TFV-DP) concentrations in mouse colorectal tissue. Our results support the next steps, which are further preclinical (non-human primate) and clinical development of a hypo-osmolar TFV enema product for rectal PrEP.

Published

2018

41. Particle tracking in drug and gene delivery research: State-of-the-art applications and methods

Author

Jung Soo Suk, Benjamin S. Schuster, Justin Hanes, Daniel B. Allan, and Laura M. Ensign

Subjects

Microscopy, business.industry, Computer science, Real-time computing, Gene Transfer Techniques, Rapid processing, Pharmaceutical Science, Nanotechnology, Genetic Therapy, Gene delivery, Tracking (particle physics), Article, Drug Delivery Systems, Nanomedicine, Software, Temporal resolution, Animals, Humans, Nanoparticles, Particle, State (computer science), business, Algorithms

Abstract

Particle tracking is a powerful microscopy technique to quantify the motion of individual particles at high spatial and temporal resolution in complex fluids and biological specimens. Particle tracking's applications and impact in drug and gene delivery research have greatly increased during the last decade. Thanks to advances in hardware and software, this technique is now more accessible than ever, and can be reliably automated to enable rapid processing of large data sets, thereby further enhancing the role that particle tracking will play in drug and gene delivery studies in the future. We begin this review by discussing particle tracking-based advances in characterizing extracellular and cellular barriers to therapeutic nanoparticles and in characterizing nanoparticle size and stability. To facilitate wider adoption of the technique, we then present a user-friendly review of state-of-the-art automated particle tracking algorithms and methods of analysis. We conclude by reviewing technological developments for next-generation particle tracking methods, and we survey future research directions in drug and gene delivery where particle tracking may be useful.

Published

2015

42. Enema ion compositions for enhancing colorectal drug delivery

Author

Sumon Chattopadhyay, Katharina Maisel, Justin Hanes, Craig W. Hendrix, Richard A. Cone, Thomas R. Moench, and Laura M. Ensign

Subjects

Drug, Colon, Sodium, medicine.medical_treatment, media_common.quotation_subject, Pharmaceutical Science, chemistry.chemical_element, Lumen (anatomy), Enema, Pharmacology, Article, Polyethylene Glycols, Epithelial Damage, Mice, Drug Delivery Systems, Administration, Rectal, medicine, Animals, Tenofovir, media_common, business.industry, Osmolar Concentration, Mucus, digestive system diseases, Anti-Retroviral Agents, Hypotonic Solutions, chemistry, Drug delivery, Potassium, Nanoparticles, Polystyrenes, Tonicity, Female, business

Abstract

Delivering drugs to the colorectum by enema has advantages for treating or preventing both local and systemic diseases. However, the properties of the enema itself are not typically exploited for improving drug delivery. Sodium ions are actively pumped out of the lumen of the colon, which is followed by osmotically-driven water absorption, so we hypothesized that this natural mechanism could be exploited to drive nanoparticles and drugs to the colorectal tissue surface. Here, we report that sodium-based, absorption-inducing (hypotonic) enemas rapidly transport hydrophilic drugs and non-mucoadhesive, mucus penetrating nanoparticles (MPP), deep into the colorectal folds to reach virtually the entire colorectal epithelial surface. In contrast, isotonic and secretion-inducing (hypertonic) vehicles led to non-uniform, poor surface coverage. Sodium-based enemas induced rapid fluid absorption even when moderately hyper-osmolal (~ 350 mOsm) compared to blood (~ 300 mOsm), which suggests that active sodium absorption plays a key role in osmosis-driven fluid uptake. We then used tenofovir, an antiretroviral drug in clinical trials for preventing HIV, to test the effects of enema composition on local and systemic drug delivery. We found that strongly hypotonic and hypertonic enemas caused rapid systemic drug uptake, whereas moderately hypotonic enemas with ion compositions similar to feces resulted in high local tissue levels with minimal systemic drug exposure. Similarly, moderately hypotonic enemas provided improved local drug retention in colorectal tissue, whereas hypertonic and isotonic enemas provided markedly reduced drug retention in colorectal tissue. Lastly, we found that moderately hypotonic enema formulations caused little to no detectable epithelial damage, while hypertonic solutions caused significant damage, including epithelial sloughing; the epithelial damage caused increased systemic drug absorption and penetration of MPP into colorectal tissue, a potential advantage in certain drug delivery applications. In summary, we illustrate that enema composition can be adjusted to maximize local versus systemic drug delivery, and that mildly hypotonic, sodium-based vehicles can provide uniform drug and MPP delivery in the colon that maximizes local drug concentrations.

Published

2015

43. Effect of surface chemistry on nanoparticle interaction with gastrointestinal mucus and distribution in the gastrointestinal tract following oral and rectal administration in the mouse

Author

Laura M. Ensign, Richard A. Cone, Katharina Maisel, Justin Hanes, and Mihika Reddy

Subjects

medicine.medical_specialty, Pathology, Surface Properties, Carboxylic Acids, Administration, Oral, Pharmaceutical Science, Lumen (anatomy), Gastroenterology, Article, Polyethylene Glycols, Mice, Administration, Rectal, Internal medicine, medicine, Mucoadhesion, Animals, Gastrointestinal tract, Chemistry, Dextran Sulfate, Adhesiveness, Mucus, Small intestine, Epithelium, Gastrointestinal Tract, medicine.anatomical_structure, Trinitrobenzenesulfonic Acid, Rectal administration, Drug delivery, Nanoparticles, Polystyrenes, Colitis, Ulcerative, Female

Abstract

It is believed that mucoadhesive surface properties on particles delivered to the gastrointestinal (GI) tract improve oral absorption or local targeting of various difficult-to-deliver drug classes. To test the effect of nanoparticle mucoadhesion on distribution of nanoparticles in the GI tract, we orally and rectally administered nano- and microparticles that we confirmed possessed surfaces that were either strongly mucoadhesive or non-mucoadhesive. We found that mucoadhesive particles (MAP) aggregated in mucus in the center of the GI lumen, far away from the absorptive epithelium, both in healthy mice and in a mouse model of ulcerative colitis (UC). In striking contrast, water absorption by the GI tract rapidly and uniformly transported non-mucoadhesive mucus-penetrating particles (MPP) to epithelial surfaces, including reaching the surfaces between villi in the small intestine. When using high gavage fluid volumes or injection into ligated intestinal loops, common methods for assessing oral drug and nanoparticle absorption, we found that both MAP and MPP became well-distributed throughout the intestine, indicating that the barrier properties of GI mucus were compromised. In the mouse colorectum, MPP penetrated into mucus in the deeply in-folded surfaces to evenly coat the entire epithelial surface. Moreover, in a mouse model of UC, MPP were transported preferentially into the disrupted, ulcerated tissue. Our results suggest that delivering drugs in non-mucoadhesive MPP is likely to provide enhanced particle distribution, and thus drug delivery, in the GI tract, including to ulcerated tissues.

Published

2015

44. Validation and implementation of liquid chromatographic-mass spectrometric (LC-MS) methods for the quantification of tenofovir prodrugs

Author

Mark A. Marzinke, Pamela Hummert, Thuy Hoang, Teresa L. Parsons, and Laura M. Ensign

Subjects

0301 basic medicine, Bioanalysis, Analyte, Anti-HIV Agents, 030106 microbiology, Clinical Biochemistry, Organophosphonates, Pharmaceutical Science, Tenofovir alafenamide, Article, Analytical Chemistry, 03 medical and health sciences, Pharmacokinetics, Liquid chromatography–mass spectrometry, Tandem Mass Spectrometry, Drug Discovery, Protein precipitation, Humans, Prodrugs, Solid phase extraction, Tenofovir, Spectroscopy, Chromatography, Alanine, Chemistry, Adenine, Prodrug, 030104 developmental biology, Chromatography, Liquid

Abstract

Background The nucleotide reverse transcriptase inhibitor tenofovir (TFV) is widely administered in a disoproxil prodrug form (tenofovir disoproxil fumarate, TDF) for HIV management and prevention. Recently, novel prodrugs tenofovir alafenamide fumarate (TAF) and hexadecyloxypropyl tenofovir (CMX157) have been pursued for HIV treatment while minimizing adverse effects associated with systemic TFV exposure. Dynamic and sensitive bioanalytical tools are required to characterize the pharmacokinetics of these prodrugs in systemic circulation. Two parallel methods have been developed, one to combinatorially quantify TAF and TFV, and a second method for CMX157 quantification, in plasma. Methods K2EDTA plasma was spiked with TAF and TFV, or CMX157. Following the addition of isotopically labeled internal standards and sample extraction via solid phase extraction (TAF and TFV) or protein precipitation (CMX157), samples were subjected to liquid chromatographic-tandem mass spectrometric (LC–MS/MS) analysis. For TAF and TFV, separation occurred using a Zorbax Eclipse Plus C18 Narrow Bore RR, 2.1 × 50 mm, 3.5 μm column and analytes were detected on an API5000 mass analyzer; CMX157 was separated using a Kinetex C8, 2.1 × 50 mm, 2.6 μm column and quantified using an API4500 mass spectrometer. Methods were validated according to FDA Bioanalytical Method Validation guidelines. Results Analytical methods: were optimized for the multiplexed monitoring of TAF and TFV, and CMX157 in plasma. The lower limits of quantification (LLOQs) for TAF, TFV, and CMX157 were 0.03, 1.0, and 0.25 ng/mL, respectively. Calibration curves were generated via weighted linear regression of standards. Intra- and inter-assay precision and accuracy studies demonstrated %CVs ≤ 14.4% and %DEVs ≤ ± 7.95%, respectively. Stability and matrix effects studies were also performed. All results were acceptable and in accordance with the recommended guidelines for bioanalytical methods. Assays were also applied to quantify in vivo concentrations of prodrugs and TFV in a preclinical study post-rectal administration. Conclusions Sensitive, specific, and dynamic LC–MS/MS assays have been developed and validated for the multiplexed quantification TAF and TFV, as well as an independent assay for CMX157 quantification, in plasma. The described methods meet sufficient throughput criteria to support large research trials.

Published

2017

45. Preclinical Evaluation of Intravesical Cisplatin Nanoparticles for Non-Muscle-Invasive Bladder Cancer

Author

Alexander S. Baras, Takahiro Yoshida, Hotaka Matsui, Justin Hanes, Abhijit A. Date, Umara Afzal, Trinity J. Bivalacqua, Pranjali Kanvinde, Nikolai A. Sopko, Taarika Babu, David J. McConkey, Laura M. Ensign, Max Kates, and Noah M. Hahn

Subjects

Oncology, inorganic chemicals, 0301 basic medicine, medicine.medical_specialty, Cancer Research, Urology, Antineoplastic Agents, Absorption (skin), Pharmacology, Article, Polyethylene Glycols, 03 medical and health sciences, Mice, Text mining, 0302 clinical medicine, In vivo, Internal medicine, Cell Line, Tumor, PEG ratio, Medicine, Animals, Humans, neoplasms, Carcinogen, Cisplatin, Bladder cancer, business.industry, Cancer, medicine.disease, female genital diseases and pregnancy complications, 030104 developmental biology, Administration, Intravesical, Urinary Bladder Neoplasms, 030220 oncology & carcinogenesis, Toxicity, Nanoparticles, Non muscle invasive, business, Peptides, medicine.drug

Abstract

Purpose: Prior clinical trials evaluating cisplatin for non–muscle-invasive bladder cancer (NMIBC) were stopped due to local and systemic toxicity. Currently, there is still a need for improved intravesical therapies, and nanoparticle-based CDDP may be efficacious without the toxicity of free cisplatin observed in the past. Experimental Design: Cisplatin nanoparticles (CDDP NPs) were developed using biocompatible poly(l-aspartic acid sodium salt; PAA), both with and without low and high grafting density of methoxy-polyethylene glycol (PEG). In vitro cytotoxicity studies confirmed activity of CDDP NPs and CDDP solution against a papillary bladder cancer cell line. Local toxicity was assessed by three weekly intravesical administrations of CDDP formulations. CDDP NPs and CDDP solution were evaluated for bladder absorption in murine models 1 and 4 hours after intravesical administration. In vivo efficacy was evaluated in an immunocompetent carcinogen model of NMIBC. Results: CDDP NPs showed decreased local toxicity, as assessed by bladder weight, compared with CDDP solution. Furthermore, >2 μg/mL of platinum was observed in mouse serum after intravesical administration of CDDP solution, whereas serum platinum was below the limit of quantification after intravesical administration of CDDP NPs. CDDP NPs provided significantly increased (P < 0.05) drug levels in murine bladders compared with CDDP solution for at least 4 hours after intravesical administration. In vivo, CDDP NPs reduced cancer cell proliferation compared with untreated controls, and was the only treatment group without evidence of invasive carcinoma. Conclusions: Cisplatin-loaded PAA NPs have the potential to improve intravesical treatment of NMIBC while reducing local and systemic side effects. Clin Cancer Res; 23(21); 6592–601. ©2017 AACR.

Published

2017

46. Nanoparticles that do not adhere to mucus provide uniform and long-lasting drug delivery to airways following inhalation

Author

Michael P. Boyle, Tao Yu, Sho Yu S. Wang, Benjamin S. Schuster, Andreas Henning, Xiaoqun Gong, Benjamin C. Tang, Jane Chisholm, Craig S. Schneider, Ethan Lee, Qingguo Xu, Justin Hanes, Jung Soo Suk, Pichet Adstamongkonkul, Laura M. Ensign, Brian W. Simons, and Nicholas J. Boylan

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Mucociliary clearance, Biomedical Engineering, Biodegradable Plastics, Respiratory Mucosa, 02 engineering and technology, Dexamethasone, Mice, 03 medical and health sciences, Drug Delivery Systems, In vivo, Administration, Inhalation, inhaled drug delivery, medicine, Mucoadhesion, Animals, Humans, mucociliary clearance, Research Articles, Mice, Inbred BALB C, mucus-penetrating particles, Multidisciplinary, Lung, biodegradable nanoparticles, Inhalation, Chemistry, lung inflammation, SciAdv r-articles, Pneumonia, respiratory system, 021001 nanoscience & nanotechnology, Mucus, 3. Good health, 030104 developmental biology, medicine.anatomical_structure, Drug delivery, Biophysics, Nanoparticles, Female, controlled release, 0210 nano-technology, Ex vivo, Research Article

Abstract

Debunking the mucoadhesion myth: Nonsticky particles for enhanced pulmonary drug delivery., Mucoadhesive particles (MAP) have been widely explored for pulmonary drug delivery because of their perceived benefits in improving particle residence in the lungs. However, retention of particles adhesively trapped in airway mucus may be limited by physiologic mucus clearance mechanisms. In contrast, particles that avoid mucoadhesion and have diameters smaller than mucus mesh spacings rapidly penetrate mucus layers [mucus-penetrating particles (MPP)], which we hypothesized would provide prolonged lung retention compared to MAP. We compared in vivo behaviors of variously sized, polystyrene-based MAP and MPP in the lungs following inhalation. MAP, regardless of particle size, were aggregated and poorly distributed throughout the airways, leading to rapid clearance from the lungs. Conversely, MPP as large as 300 nm exhibited uniform distribution and markedly enhanced retention compared to size-matched MAP. On the basis of these findings, we formulated biodegradable MPP (b-MPP) with an average diameter of

Published

2017

47. Pretreatment of Human Cervicovaginal Mucus with Pluronic F127 Enhances Nanoparticle Penetration without Compromising Mucus Barrier Properties to Herpes Simplex Virus

Author

Ming Yang, Richard A. Cone, Samuel K. Lai, Olcay Mert, Ying Ying Wang, Laura M. Ensign, and Justin Hanes

Subjects

Polymers and Plastics, Nonoxynol, Bioengineering, Poloxamer, 02 engineering and technology, Polyethylene glycol, Article, Biomaterials, Mice, Surface-Active Agents, 03 medical and health sciences, chemistry.chemical_compound, Pulmonary surfactant, PEG ratio, Materials Chemistry, Animals, Humans, Nanotechnology, Simplexvirus, 030304 developmental biology, Drug Carriers, 0303 health sciences, Spermicide, Penetration (firestop), 021001 nanoscience & nanotechnology, Mucus, 3. Good health, chemistry, Vagina, Drug delivery, Immunology, Cervix Mucus, Biophysics, Nanoparticles, Female, 0210 nano-technology, Drug carrier

Abstract

Mucosal drug delivery nanotechnologies are limited by the mucus barrier that protects nearly all epithelial surfaces not covered with skin. Most polymeric nanoparticles, including polystyrene nanoparticles (PS), strongly adhere to mucus, thereby limiting penetration and facilitating rapid clearance from the body. Here, we demonstrate that PS rapidly penetrate human cervicovaginal mucus (CVM), if the CVM has been pretreated with sufficient concentrations of Pluronic F127. Importantly, the diffusion rate of large polyethylene glycol (PEG)-coated, nonmucoadhesive nanoparticles (PS-PEG) did not change in F127-pretreated CVM, implying that F127 did not significantly alter the native pore structure of CVM. Additionally, herpes simplex virus type 1 (HSV-1) remains adherent in F127-pretreated CVM, indicating that the presence of F127 did not reduce adhesive interactions between CVM and the virions. In contrast to treatment with a surfactant that has been approved for vaginal use as a spermicide (nonoxynol-9 or N9), there was no increase in inflammatory cytokine release in the vaginal tract of mice after daily application of 1% F127 for 1 week. Pluronic F127 pretreatment holds potential as a method to safely improve the distribution, retention, and efficacy of nanoparticle formulations without compromising CVM barrier properties to pathogens.

Published

2014

48. Hyaluronan in cervical epithelia protects against infection-mediated preterm birth

Author

Justin Hanes, John P. Lydon, Mala Mahendroo, Yucel Akgul, Yu Yamaguchi, R. Ann Word, and Laura M. Ensign

Subjects

medicine.medical_specialty, Cervix Uteri, Biology, Epithelium, Extracellular matrix, Andrology, Mice, chemistry.chemical_compound, Pregnancy, Hyaluronic acid, medicine, Animals, Hyaluronic Acid, Pregnancy Complications, Infectious, Cervix, Mice, Knockout, Gynecology, Vaginosis, Bacterial, General Medicine, medicine.disease, medicine.anatomical_structure, chemistry, Premature birth, Vagina, Premature Birth, Female, Infiltration (medical), Research Article

Abstract

Increased synthesis of cervical hyaluronan (HA) from early to late pregnancy has long been proposed to play an essential role in disorganization of the collagen-rich extracellular matrix to allow for maximal compliance and dilation of the cervix during the birth process. Here, we show that HA is not essential for increased cervical distensibility during late pregnancy. Rather, cervicovaginal HA plays an unanticipated important role in epithelial barrier protection of the lower reproductive tract. Specifically, HA depletion in the cervix and vagina resulted in inappropriate differentiation of epithelial cells, increased epithelial and mucosal permeability, and strikingly increased preterm birth rates in a mouse model of ascending vaginal infection. Collectively, these findings revealed that although HA is not obligatory for cervical compliance, it is crucial for maintaining an epithelial and mucosal barrier to limit pathogen infiltration of the lower reproductive tract during pregnancy and thereby is protective against infection-mediated preterm birth.

Published

2014

49. Vaginal Delivery of Paclitaxel via Nanoparticles with Non-Mucoadhesive Surfaces Suppresses Cervical Tumor Growth

Author

Jie Fu, Tzyy Choou Wu, Laura M. Ensign, Guanshu Liu, Bolong Miao, Ying Ying Wang, Olcay Mert, Samuel K. Lai, Michael T. McMahon, Tao Yu, Ming Yang, Chien Fu Hung, Qi Zeng, Chih Yin Juang, Kannie W. Y. Chan, Brian W. Simons, Benjamin C. Tang, Justin Hanes, and Joseph Wood

Subjects

Materials science, Paclitaxel, Surface Properties, medicine.medical_treatment, Biomedical Engineering, Uterine Cervical Neoplasms, Pharmaceutical Science, Antineoplastic Agents, Article, Biomaterials, Mice, chemistry.chemical_compound, In vivo, medicine, Animals, Chemotherapy, Poloxamer, Survival Analysis, Controlled release, Mucus, PLGA, chemistry, Vagina, Drug delivery, Cancer research, Nanoparticles, Female, Biomedical engineering

Abstract

Local delivery of chemotherapeutics in the cervicovaginal tract using nanoparticles may reduce adverse side effects associated with systemic chemotherapy, while improving outcomes for early-stage cervical cancer. It is hypothesized here that drug-loaded nanoparticles that rapidly penetrate cervicovaginal mucus (CVM) lining the female reproductive tract will more effectively deliver their payload to underlying diseased tissues in a uniform and sustained manner compared with nanoparticles that do not efficiently penetrate CVM. Paclitaxel-loaded nanoparticles are developed, composed entirely of polymers used in FDA-approved products, which rapidly penetrate human CVM and provide sustained drug release with minimal burst effect. A mouse model is further employed with aggressive cervical tumors established in the cervicovaginal tract to compare paclitaxel-loaded poly(lactic-co-glycolic acid) (PLGA) nanoparticles (conventional particles, or CP) and similar particles coated with Pluronic F127 (mucus-penetrating particles, or MPP). CP are mucoadhesive and, thus, aggregated in mucus, while MPP achieve more uniform distribution and close proximity to cervical tumors. Paclitaxel-MPP suppress tumor growth more effectively and prolong median survival of mice compared with unencapsulated paclitaxel or paclitaxel-CP. Histopathological studies demonstrate minimal toxicity to the cervicovaginal epithelia, suggesting paclitaxel-MPP may be safe for intravaginal use. These results demonstrate the in vivo advantages of polymer-based MPP for treatment of tumors localized to a mucosal surface.

Published

2013

50. The Microstructure and Bulk Rheology of Human Cervicovaginal Mucus Are Remarkably Resistant to Changes in pH

Author

Weixi Zhong, Richard A. Cone, Samuel K. Lai, Laura M. Ensign, Justin Hanes, and Ying Ying Wang

Subjects

Polymers and Plastics, Phosphines, Nonoxynol, Nanoparticle, Bioengineering, Article, Viscoelasticity, Polyethylene Glycols, Biomaterials, Rheology, Elastic Modulus, Materials Chemistry, Humans, Particle Size, Egtazic Acid, Chelating Agents, Rheometry, Viscosity, Chemistry, Mucin, Hydrogen-Ion Concentration, Microstructure, Mucus, Biochemistry, Reducing Agents, Cervix Mucus, Biophysics, Female, Particle size, Porosity

Abstract

The protective barrier, lubricant, and clearance functions of mucus are intimately coupled to its microstructure and bulk rheology. Mucus gels consist of a network of mucin biopolymers along with lipids, salts, and other proteins and exhibit similar biochemical and physical properties across diverse mucosal surfaces. Nevertheless, mucus is exposed to a broad range of pH values throughout the human body. Protein functions are typically sensitive to small changes in pH, and prior investigations using reconstituted, purified mucin gels suggested mucus undergoes a transition from a low-viscosity liquid at neutral pH to a highly viscoelastic solid at low pH. We sought to determine whether those observations hold for fresh, minimally perturbed human mucus ex vivo by using different-sized muco-inert nanoparticles to probe microstructure and cone-and-plate rheometry to measure bulk rheology. We demonstrate that both the microstructure and bulk rheology of fresh, undiluted, and minimally perturbed cervicovaginal mucus exhibit relatively minor changes from pH 1-2 to 8-9, in marked contrast with the pH sensitivity of purified mucin gels. Our work also suggests additional components in mucus secretions, typically eliminated during mucin purification and reconstitution, may play an important role in maintaining the protective properties of mucus.

Published

2013