Biomedical Studies and Cellular Imaging via Atomic Force Microscopy
National Institute Of Biomedical Imaging And Bioengineering, Bethesda
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Abstract
We have continued to develop biological atomic force microscopy (Bio-AFM) platforms, Quartz Crystal Microbalance-Dissipation (QCM-D), optical microscopy and spectroscopies. In collaboration with NIH intramural and extramural scientists, we are working toward broader and more insightful biomedical applications of multifunctional, multimodal, AFM imaging and single molecule force spectroscopy (SMFS) for cellular and macromolecular studies. On biomedical applications, we have continued a broad range of collaborations that include: (1) Our collaborations on multifunctional nanomedicine and theranostics with Dr. Xiaoyuan Chen (Laboratory of Molecular Imaging and Nanomedicine, NIBIB) and co-investigators. Focusing on understanding and fighting cancer and other major applications, we have contributed to ongoing studies such as developing precisely controllable release nanoparticles as cancer theranostics. We are applying Bio-AFM and QCM-D methodology to investigate nanoparticle theranostics, cancer cell lines, and other biomedical systems. (2) Expanded bio-AFM studies of microtubules interacting with approved or developing anti-cancer drugs and other agents with Dr. Dan Sackett (NICHD). This is an extension of our multi-year Bio-AFM studies of protein clathrin and assemblies in the key area of the receptor-mediated endocytosis and intracellular trafficking with collaborators also including Prof. Eileen Lafer and Prof. Rui Sousa (Univ. Texas Health Sciences Center, San Antonio) and Dr. Ralph Nossal (NICHD). Related to exocytosis and endocytosis, we are collaborating also with Dr. Ling-gang Wu (NINDS) and coworkers to better understand synaptic transmission and neuronal communications in brain. (3) Lasting commitment to developing a better clinical vaccine toward enhanced immunological response and eventual eradication of malaria. For over ten years and via Bio-AFM and related bioanalysis, we have investigated the macromolecular structure and nanomechanical properties of more malaria vaccine candidates and related samples with Dr. David Narum (NIAID, NIH) and other collaborators. Bio-AFM imaging and force spectroscopy characterization at single macromolecule and assembly level are helping to define new vaccine constructs along the developmental phases. (4) Finally other continuing and new collaborations critically important to disease mechanisms and bionanotechnology. For example, we are collaborating with Dr. Andrew Doyle (NIDCR), Dr. Kenneth Yamada (NIDCR), and Dr. Raimon Sunyer (Institute for Bioengineering of Catalonia, Spain) on nanomechanics and structural properties of reconstituted extra cellular matrix (ECM)-like collagen gels. And with Dr. Curtis Meuse (NIST) and coworkers, we have advanced our Bio-AFM and biophysical studies of amyloid-beta fibrils in the Alzheimer's disease, especially toward resolving assembly pathways in physiologically relevant fluid and surface environments.
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