A microphysiological model of prostate cancer metastasis into vascularized and innervated bone
About This Grant
SUMMARY Prostate cancer exhibits evident predilection for bone metastasis, occurring in over 80% of advanced cases and causing serious skeletal complications. While organ-on-a-chip platforms have advanced metastasis research, existing microphysiologic bone metastasis models fail to recapitulate critical microenvironmental features, particularly functional vascular networks, innervation and controlled nanoscale mineralization around cells, all which govern metastatic colonization. Building on the seed (tumor cells) and soil (metastatic microenvironment) paradigm of cancer metastasis, we developed an innovative bone metastasis-on-a-chip platform incorporating a mineralized, osteocyte-embedded bone matrix supporting active osteoclast/osteoblast remodeling, perfusable pericyte-supported vasculature to study extravasation dynamics, and integrated neural networks to promote tumor-nerve crosstalk. Our preliminary data reveal that circulating tumor cells (CTCs) experience mechanical nuclear deformation during bone vascular transit, a distinctive phenomenon of metastasis that is absent in other vascular models, suggesting that bone-specific vascular forces may prime metastatic adaptation. Simultaneously, we discovered that neural components actively upregulate pro-metastatic molecular profiles in tumor cells while undergoing tumor-induced remodeling. Here, in Aim 1, we will leverage this platform to interpret how bone-specific vascular mechanics, including pericyte-stabilized endothelial interactions and cellular deformation, orchestrate CTC extravasation and subsequent osteolytic destruction, combining high-resolution live imaging with single- cell analyses of deformation-induced genomic/epigenetic changes. In Aim 2, we will elucidate neural contributions to metastatic niche formation, testing how bidirectional tumor-nerve signaling accelerates bone colonization and bone resorption/destruction. This work addresses two understudied yet pivotal aspects of the metastatic cascade: the deformation and genomic instability of CTC fate during vascular transit, and the neural contribution to of the "vicious cycle" of prostate cancer metastasis into bone. By integrating vascular, neural, and osseous components into a single physiologically relevant, all human platform, we will establish the first model capable of emulating the tripartite interplay driving prostate cancer's bone tropism. The resulting insights and tools will not only reveal new therapeutic targets for bone metastasis but also provide a high-fidelity platform for studying microenvironmental regulation of metastasis across cancer types.
Grant Summary
A microphysiological model of prostate cancer metastasis into vascularized and innervated bone is a NCI - National Cancer Institute grant providing up to $521K for university, nonprofit, healthcare org. Applications are due 2031-02-28 (open). Check eligibility and apply with FindGrants.
Not quite the right fit?
Search 9,000+ open grants, or get matches ranked for your organization — free.
Focus Areas
Eligibility
How to Apply
Up to $521K
2031-02-28
- 1Confirm your organization is eligible for A microphysiological model of prostate cancer metastasis into vascularized and innervated bone from NCI - National Cancer Institute, checking organization type, location, and any population or project requirements.
- 2Gather the required documents and information, including your organization details, project plan, and budget figures.
- 3Draft your application narrative and budget addressing the funder's priorities and review criteria. FindGrants can draft each section for you to review and edit.
- 4Review every section against the requirements checklist, then export a submission-ready application pack and submit it to NCI - National Cancer Institute before the deadline.
Don't want to draft it yourself?
We'll draft the complete application against NCI - National Cancer Institute's requirements, run a quality review, and email you a submission-ready PDF plus an editable Word doc within 5 business days. Most orders deliver in 24-48 hours. Flat $399, any grant size.
AI Requirement Analysis
Detailed requirements not yet analyzed
Have the NOFO? Paste it below for AI-powered requirement analysis.
A microphysiological model of prostate cancer metastasis into vascularized and innervated bone: Frequently Asked Questions
Who is eligible for the A microphysiological model of prostate cancer metastasis into vascularized and innervated bone?
A microphysiological model of prostate cancer metastasis into vascularized and innervated bone is offered by NCI - National Cancer Institute and is generally open to university, nonprofit, healthcare org. It is open to organizations nationwide unless the funder specifies otherwise. Review the specific eligibility terms before applying, since funders set their own requirements around organization type, location, and the population or project being served.
How much funding does the A microphysiological model of prostate cancer metastasis into vascularized and innervated bone provide?
A microphysiological model of prostate cancer metastasis into vascularized and innervated bone provides up to $521K per award from NCI - National Cancer Institute. Actual award sizes depend on the scope of your project, available program funds, and the number of applicants, so build a budget that reflects realistic, allowable costs rather than the maximum figure.
When is the A microphysiological model of prostate cancer metastasis into vascularized and innervated bone deadline?
Applications for A microphysiological model of prostate cancer metastasis into vascularized and innervated bone are due 2031-02-28 (open). Because deadlines can change, verify the date with the funder, NCI - National Cancer Institute, and give yourself enough time to prepare a complete, competitive application before the close date.
How do you apply for the A microphysiological model of prostate cancer metastasis into vascularized and innervated bone?
To apply for A microphysiological model of prostate cancer metastasis into vascularized and innervated bone, confirm your eligibility, gather the required documents, and prepare a narrative and budget that address the funder's priorities. FindGrants guides you step by step and can draft each section, then exports a submission-ready application pack for this grant from NCI - National Cancer Institute.