The new multi-organ chip has the size of a glass microscope slide and allows the culture of up to four human engineered tissues, whose location and number can be tailored to the question being asked. These tissues are connected by vascular flow, but the presence of a selectively permeable endothelial barrier maintains their tissue-specific niche. Credit: Kacey Ronaldson-Bouchard/Columbia Engineering
Major advance from Columbia Engineering team demonstrates the first multi-organ chip made of engineered human tissues linked by vascular flow for improved modeling of systemic diseases like cancer.
Engineered tissues have become an essential component for modeling diseases and testing the efficacy and safety of drugs in a human context. A key hurdle for researchers has been figuring how to model body functions and systemic diseases with multiple engineered tissues that can physiologically communicate just like they do in the body. However, it is essential to provide each engineered tissue with its own environment so that the specific tissue phenotypes can be maintained for weeks to months, as required for biological and biomedical studies. Making the challenge even more complex is the necessity of linking the tissue modules together to facilitate their physiological communication, which is required for modeling conditions that involve more than one organ system, without sacrificing the individual engineered tissue environments.
Up to now, no one has been able to meet both conditions. Today, a team of researchers from Columbia Engineering and Columbia University Irving Medical Center reports that they have developed a model of human physiology in the form of a multi-organ chip consisting of engineered human heart, bone, liver, and skin that are linked by vascular flow with circulating immune cells, to allow recapitulation of interdependent organ functions. The researchers have essentially created a plug-and-play multi-organ chip, which is the size of a microscope slide, that can be customized to the patient. Because disease progression and responses to treatment vary greatly from one person to another, such a chip will eventually enable personalized optimization of therapy for each patient. The study is the cover story of the April 2022 issue of the journal Nature Biomedical Engineering.
In our study, we cultured liver, heart, bone, and skin, connected by vascular flow for four weeks. These tissues can be generated from a single human induced pluripotent stem cell, generating a patient-specific chip, a great model for individualized studies of human disease and drug testing. Credit: Keith Yeager/Columbia Engineering
This is a huge achievement for usweve spent ten years running hundreds of experiments, exploring innumerable great ideas, and building many prototypes, and now at last weve developed this platform that successfully captures the biology of organ interactions in the body, said the project leader Gordana Vunjak-Novakovic, University Professor and the Mikati Foundation Professor of Biomedical Engineering, Medical Sciences, and Dental Medicine.
Taking inspiration from how the human body works, the team has built a human tissue-chip system in which they linked matured heart, liver, bone, and skin tissue modules by recirculating vascular flow, allowing for interdependent organs to communicate just as they do in the human body. The researchers chose these tissues because they have distinctly different embryonic origins, structural and functional properties, and are adversely affected by cancer treatment drugs, presenting a rigorous test of the proposed approach.
The tissues cultured in the multi-organ chip (skin, heart, bone, liver, and endothelial barrier from left to right) maintained their tissue-specific structure and function after being linked by vascular flow. Credit: Kacey Ronaldson-Bouchard/Columbia Engineering
Providing communication between tissues while preserving their individual phenotypes has been a major challenge, said Kacey Ronaldson-Bouchard, the studys lead author and an associate research scientist in Vunjak-Novakovics Laboratory for Stem Cells and Tissue Engineering. Because we focus on using patient-derived tissue models we must individually mature each tissue so that it functions in a way that mimics responses you would see in the patient, and we dont want to sacrifice this advanced functionality when connecting multiple tissues. In the body, each organ maintains its own environment, while interacting with other organs by vascular flow carrying circulating cells and bioactive factors. So we chose to connect the tissues by vascular circulation, while preserving each individual tissue niche that is necessary to maintain its biological fidelity, mimicking the way that our organs are connected within the body.
The group created tissue modules, each within its optimized environment and separated them from the common vascular flow by a selectively permeable endothelial barrier. The individual tissue environments were able to communicate across the endothelial barriers and via vascular circulation. The researchers also introduced into the vascular circulation the monocytes giving rise to macrophages, because of their important roles in directing tissue responses to injury, disease, and therapeutic outcomes.
All tissues were derived from the same line of human induced pluripotent stem cells (iPSC), obtained from a small sample of blood, in order to demonstrate the ability for individualized, patient-specific studies. And, to prove the model can be used for long-term studies, the team maintained the tissues, which had already been grown and matured for four to six weeks, for an additional four weeks, after they were linked by vascular perfusion.
The researchers also wanted to demonstrate how the model could be used for studies of an important systemic condition in a human context and chose to examine the adverse effects of anticancer drugs. They investigated the effects of doxorubicin a broadly used anticancer drug on heart, liver, bone, skin, and vasculature. They showed that the measured effects recapitulated those reported from clinical studies of cancer therapy using the same drug.
The team developed in parallel a novel computational model of the multi-organ chip for mathematical simulations of drugs absorption, distribution, metabolism, and secretion. This model correctly predicted doxorubicins metabolism into doxorubicinol and its diffusion into the chip. The combination of the multi-organ chip with computational methodology in future studies of pharmacokinetics and pharmacodynamics of other drugs provides an improved basis for preclinical to clinical extrapolation, with improvements in the drug development pipeline.
While doing that, we were also able to identify some early molecular markers of cardiotoxicity, the main side-effect that limits the broad use of the drug. Most notably, the multi-organ chip predicted precisely the cardiotoxicity and cardiomyopathy that often require clinicians to decrease therapeutic dosages of doxorubicin or even to stop the therapy, said Vunjak-Novakovic.
The development of the multi-organ chip began from a platform with the heart, liver, and vasculature, nicknamed the HeLiVa platform. As is always the case with Vunjak-Novakovics biomedical research, collaborations were critical for completing the work. These include the collective talent of her laboratory, Andrea Califano and his systems biology team (Columbia University), Christopher S. Chen (Boston University) and Karen K. Hirschi (University of Virginia) with their expertise in vascular biology and engineering, Angela M. Christiano and her skin research team (Columbia University), Rajesh K. Soni of the Proteomics Core at Columbia University, and the computational modeling support of the team at CFD Research Corporation.
The research team is currently using variations of this chip to study, all in individualized patient-specific contexts: breast cancer metastasis; prostate cancer metastasis; leukemia; effects of radiation on human tissues; the effects of SARS-CoV-2 on heart, lung, and vasculature; the effects of ischemia on the heart and brain; and the safety and effectiveness of drugs. The group is also developing a user-friendly standardized chip for both academic and clinical laboratories, to help utilize its full potential for advancing biological and medical studies.
Vunjak-Novakovic added, After ten years of research on organs-on-chips, we still find it amazing that we can model a patients physiology by connecting millimeter sized tissues the beating heart muscle, the metabolizing liver, and the functioning skin and bone that are grown from the patients cells. We are excited about the potential of this approach. Its uniquely designed for studies of systemic conditions associated with injury or disease, and will enable us to maintain the biological properties of engineered human tissues along with their communication. One patient at a time, from inflammation to cancer!
Reference: A multi-organ chip with matured tissue niches linked by vascular flow by Kacey Ronaldson-Bouchard, Diogo Teles, Keith Yeager, Daniel Naveed Tavakol, Yimu Zhao, Alan Chramiec, Somnath Tagore, Max Summers, Sophia Stylianos, Manuel Tamargo, Busub Marcus Lee, Susan P. Halligan, Erbil Hasan Abaci, Zongyou Guo, Joanna Jackw, Alberto Pappalardo, Jerry Shih, Rajesh K. Soni, Shivam Sonar, Carrie German, Angela M. Christiano, Andrea Califano, Karen K. Hirschi, Christopher S. Chen, Andrzej Przekwas and Gordana Vunjak-Novakovic, 27 April 2022, Nature Biomedical Engineering. DOI: 10.1038/s41551-022-00882-6
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