Vernon Rice Memorial Holiday Turkey Program
Sep 29 – Nov 7 all-day
Vernon Rice Memorial Holiday Turkey Program

The INBT is pleased to participate for the fifth year with the Johns Hopkins community in the Vernon Rice Memorial Holiday Turkey Program, which supports the Baltimore community. For every $45 raised, a basket with a fresh turkey and vegetables from a local farm will be provided to a family in need. In the past five years, the INBT has provided 61 meals to families in need.

Learn more about Vernon Rice, the program, and how to donate.

Donations for the Thanksgiving holiday are due November 7, 2022. If you donate, email Gina at so we can continue tracking how many meals we supported.



Mucus Gels and Innate Lung Defense Seminar with Gregg Duncan @ Hodson Hall 210
Nov 11 @ 3:00 pm – 4:00 pm

All are welcome to a seminar with guest speaker Gregg Duncan and his presentation on, “Mucus Gels and Innate Lung Defense.” This is a hybrid event. Guests are welcome to come in-person in Hodson Hall 210 on the Johns Hopkins Homewood campus or by Zoom.

Zoom link and passcode: 530803

Mucus is a biological gel within the lung designed to behave like an “escalator” with the ability to capture potentially harmful inhaled materials (e.g. pathogens, particulates) and carry these materials via mucociliary clearance up to the throat to be swallowed and sterilized. A breakdown in lung mucus barrier function can lead to increased infections by respiratory viruses, such as influenza, rhinovirus, and coronaviruses, as they are not effectively removed from the airway. For these seasonal and emerging human viral pathogens, it is important to understand the mechanisms through which viral particles avoid adhesion to the mucus barrier and transport to the underlying epithelium to cause infection. To examine this, we measured influenza A virus and nanoparticle diffusion in mucus from human donors using high-speed fluorescent video microscopy and multiple particle tracking. Through these measurements, we can directly determine binding affinity and mode of adhesion for influenza A and other respiratory viruses in 3D human mucus matrices. MUC5B and MUC5AC are large, gel-forming mucins that assemble to form airway mucus gels. However due to the lack of appropriate models, it is not yet fully understood how MUC5B and MUC5AC individually or synergistically contribute to the biological function of mucus. To understand their unique roles in respiratory health, I will also discuss our studies on the rheological properties and transport function of mucus in human airway tissue cultures genetically engineered to secrete either MUC5B or MUC5AC. These bioengineered models provide key insights on how MUC5B and MUC5AC work in concert to enable host mucosal barrier function providing a highly valuable means to understand their roles in health and disease.

Speaker Bio: Gregg Duncan earned his Ph.D. in chemical engineering under the guidance of Michael Bevan at Johns Hopkins University. He then completed his postdoctoral training at Johns Hopkins School of Medicine in the Center for Nanomedicine directed by Justin Hanes. Dr. Duncan is currently an Assistant Professor in the Fischell Department of Bioengineering at the University of Maryland. Dr. Duncan leads the Respiratory Nano Bioengineering (RnB) lab, which aims to understand airway micro-physiology in health and disease to engineer new therapeutic strategies for obstructive lung diseases such as asthma, chronic obstructive pulmonary disease, and cystic fibrosis. Dr. Duncan is the recipient of several honors and awards including the Burroughs Wellcome Fund Career Award at the Scientific Interface, BMES Rita Schaffer Young Investigator Award, the CMBE Young Innovator Award, and the NSF CAREER Award

Advancing Biological Imaging and Sensing Using Quantum Technologies @ Maryland Hall 103
Nov 21 @ 2:00 pm – 3:00 pm

Advancing Biological Imaging and Sensing Using Quantum Technologies with Warwick Bowen.

Quantum technologies can exponentially accelerate computer simulations and detect signals that would be invisible to other technologies. This provides the potential for wide impact across the biosciences: better modelling of biochemical processes, and better imaging of biological systems. In this talk I will provide an overview of this potential, and how it could create a new field of quantum biotechnology. As an illustrative example, I will then introduce work in my laboratory that uses quantum correlated light to enhance bioimaging. In that work, we demonstrate for the first time that quantum correlations can be used to evade photochemical intrusion on the biological specimen, and therefore to observe biological structures that would be otherwise inaccessible. We achieve this in a coherent Raman microscope, providing chemically-specific information about the cell. Our results represents the first demonstration of absolute quantum advantage in biological microscopy, and we hope will open the door to a bright future for quantum bioimaging.

Professor Bowen’s research focuses on the implications of quantum science on precision measurement, and applications of quantum measurement in areas ranging from quantum condensed matter physics to the biosciences. He is the Director of the just announced Australian Research Council Centre of Excellence in Quantum Biotechnology. He is also a Fellow of the Australian Institute of Physics, Director of the University of Queensland Precision Technologies Translation Hub, and a Theme Leader of the Australian Centre for Engineered Quantum Systems. Prof Bowen’s research is supported by the Australian Research Council, the US Air Force Office of Scientific Research, Lockheed Martin, the US Army Research Office and the Australian Defence Science and Technology Group.


Probing and Attacking the Cancer Surfacome @ Virtual
Dec 1 @ 12:00 pm – 1:00 pm

Probing and Attacking the Cancer Surfacome with Jim Wells, PhD

The cell surface proteome(surfaceome)is a major hub for cellular communication and a primary source of drug targets, especially for biologics. My lab is interested in developing proteomic means to probe how the surfaceome changes in health and disease, especially cancer. Such changes involve alteration in protein expression and post-translational modifications such as proteolysis. I’ll describe new engineered tools we have built to probe the surfaceome changes that occur when oncogenes are expressed in isogenic cell lines to identify targets of interest. We then target proteins either upregulated, proteolyzed or both with recombinant antibodies derived by phage display to be used as validation tools and potential therapeutic leads

Jim received his BA from University of California at Berkeley, PhD from Washington State University (with Ralph Yount), and post-doc at Stanford (with George Stark), prior to joining Genentech, then Sunesis Pharmaceuticals, and finally UCSF. Wells’ group pioneered the engineering of proteins, antibodies, and small molecules that target catalytic, allosteric, and protein-protein interaction sites; and technologies including protein phage display, alanine-scanning, engineered proteases, bioconjugations, N-terminomics, disulfide “tethering”, and more recently an industrialized recombinant antibody production pipeline for the proteome. His team was integral to several protein products including Somavert for acromegaly, Avastin for cancer, Lifitegrast for dry eye disease, and engineered proteases sold by Pfizer, Genentech, Shire and Genencor, respectively. He is an elected member of the US National Academy of Science, American Association of Arts and Science, and the National Academy of Inventors.

This is a virtual event on Zoom. Click here to get the link.

Advances in Immunoengineering: Fundamentals and Cutting Edge Advances (2023) @ Virtual
Jan 3 @ 4:00 pm – Jan 19 @ 5:30 pm
Advances in Immunoengineering: Fundamentals and Cutting Edge Advances (2023) @ Virtual

The Advances in Immunoengineering: Fundamentals and Cutting Edge Advances workshop is hosted by Johns Hopkins Translational Immunoengineering. The workshop meets twice a week for three weeks and participants are eligible for CME credit. The workshop is also offered as a two-credit course to Johns Hopkins students

The immunoengineering field is transforming cancer, autoimmunity, regeneration, and transplantation treatments by combining the diverse and complex fields of engineering and immunology. There is a significant need to train engineers in immunology and immunologists in quantitative engineering techniques. Moreover, there is a need to bridge basic immunological discoveries with advances in clinical application. This workshop will review immune system fundamentals and components, engineering strategies to modulate the immune system, and clinical applications.

After attending this workshop, the learner will demonstrate the ability to:
– Review the fundamentals and recent discoveries in the function of the immune system.
– Identify engineering strategies to manipulate the immune system.
– Describe the clinical applications of immunoengineering.

The full schedule, speakers, topics, and registration information are available on JH-TIE’s website.

Johns Hopkins Engineers Week
Feb 19 – Feb 25 all-day

Engineers Week is a national, annual celebration of the vital contributions that engineers make to our world. The schedule of events can be found on their website. 

Nano-Bio Symposium: Cell Programming @ Johns Hopkins Homewood Campus
Apr 21 @ 8:00 am – 5:00 pm

All are welcome to attend our 16th Nano-Bio Symposium on Cell Programming.

From Robert Hooke’s hazy observations to today’s single cell sequences and super-resolution images, cells have been a central focus of biological investigation. In 2023, the INBT’s Nano-Bio Symposium will explore breakthroughs in our ability to understand and program cells. Pioneering speakers will catalog the growing diversity of cell fate and cell state in multicellular organisms. Attendees will learn about powerful approaches to engineer cells using genetic, transcriptomic, and metabolic tools. And we will see how these methods are being translated into the clinic, ushering in a new era of powerful cellular therapies. By bringing together engineers, cell biologists, and translational scientists, the symposium will map the frontiers of this fundamental unit of biological organization.

This is event will feature lectures and a poster competition with a reception. Registration will be required.

More information coming soon.

Johns Hopkins Engineering Design Day
May 2 all-day

The Whiting School’s annual Engineering Design Day showcases our students’ creativity, problem-solving skills, and desire to make their mark on the world as they translate knowledge gained in classrooms and labs into innovations that solve real-world problems.

Enjoy more than 200 student presentations, posters, and demos representing every academic department at the Whiting School, and speak with students about their work.

A draft schedule will be provided soon. For more information, visit the Design Day website, where you also can see examples of last year’s projects. Registration is now open and required.