Genomes and Genes
Nonenzymatic glycation, bone quality, and microdamage in type 2 diabetic bone
Principal Investigator: Eve Donnelly
Abstract: DESCRIPTION (provided by applicant): The Candidate holds a PhD in mechanical engineering and completed an NIH F32 fellowship examining the effect bisphosphonate treatment on bone tissue properties in osteoporotic women with fragility fractures. Her long-term goal is to develop an independent research career as a translational orthopedic materials scientist focused on diseases characterized by compromised bone quality and increased fracture risk. The immediate goal of the proposed work is to provide critical training in collagen biochemistry and bone micro damage to enable characterization of the role of nonenzymatic glycation in bone fragility in patients with type 2 diabetes. A secondary goal is to generate an exciting new research direction to enable the Candidate to carve out an independent niche in collagen and bone quality that is distinct from that of her former PhD mentor at Cornell, where the Candidate has recently been hired as an assistant professor in a different department. Mentor and Advisory Committee: The primary Mentor is Dr. Deepak Vashishth of Rensselaer Polytechnic Institute (RPI), an international leader in characterizing the contribution of advanced glycation end products (AGEs) in collagen to bone tissue mechanical behavior. The Advisory Committee consists of Christopher Hernandez PhD, who will advise on quantification of micro damage in bone;David Putnam PhD, who will advise on career development;Joseph Lane MD, who will advise on orthopedics and metabolic bone disease;and Richard Bockman MD PhD, who will advise on endocrinology. Environment: The research/training environment at Cornell includes 1500 ft2 of dedicated lab space for the PI;multiple shared experimental facilities, including micro computed tomography (microCT) and Fourier transform infrared (FTIR) spectroscopy;numerous seminars and journal clubs;and career development courses for junior faculty members. At RPI Dr. Vashishth has 1400 ft2 of lab space in the Center for Biotechnology and Interdisciplinary studies, a complex with 31,250 ft2 of open lab space and 27,250 ft2 of core lab space, and includes equipment for CNC milling, mechanical testing, ultra performance liquid chromatography (UPLC), and core facilities for Biochemistry, Bioimaging, Cell &Molecular Biology, Microscopy, and Proteomics. Training Plan: The training plan includes research training in the Mentor's laboratory in techniques for analysis of collagen biochemistry using fluorescence and UPLC assays, as well as quantification of micro damage in bone tissue using mechanical testing and microCT. In addition, the training plan includes didactic training in the molecular biology of aging, leadership/management techniques for scientists, grant writing for multiple funding agencies, and responsible conduct of research;attendance at Biomedical Engineering seminars, Bone Journal Clubs, and Metabolic Bone Disease and Endocrinology Grand Rounds/Journal Clubs;and presentations at a minimum of 2 national conferences per year. Research: Individuals with type 2 diabetes mellitus (T2DM) paradoxically have increased fracture risk despite normal or greater bone mineral density relative to non-diabetics, suggesting that impaired glucose metabolism degrades bone quality. Formation of AGEs through nonenzymatic glycation of collagen associated with hyperglycemia has been proposed as a mechanism of impaired bone quality in diabetic bone, but the effect of AGEs on bone mechanical properties has not yet been investigated in bone tissue of patients with T2DM. The objective of this application is to relate alterations in collagen crosslinking, microdamage morphology, and structural properties that occur in the bone tissue of patients with T2DM relative to control patients. The central hypothesis is that increased bone tissue nonenzymatic glycation associated with T2DM contributes to bone fragility by reducing tissue toughness and shifting microdamage patterns from diffuse damage to crack-like morphologies, relative to non-diabetic tissue. Accordingly, Aim 1 is to relate glycemic control assessed by serum hemoglobin HbA1c (HbA1c), bone tissue nonenzymatic glycation, and structural properties in the cortical and cancellous bone of type 2 diabetic patients and non-diabetic patients. Using cancellous and cortical tissue from type 2 diabetic and non-diabetic patients, the following properties will be correlated: HbA1c, total AGEs assessed by fluorescence measurements, compositional properties assessed by FTIR spectroscopy, and structural properties assessed by mechanical testing. Aim 2 is to characterize the effect of local variations in nonenzymatic glycation on microdamage morphology in the cortical and cancellous bone tissue of T2DM patients compared to non-diabetic patients. Using cancellous and cortical tissue from T2DM and non-diabetic control patients, AGEs assessed locally in damaged bone will be correlated with microdamage morphology. The proposed studies are expected to identify changes in collagen properties and microdamage patterns in patients with T2DM and to yield important new insights into the pathogenesis of diabetic fractures, while, at the same time, they provide the means for establishing the Candidate's independence as a translational orthopedic materials scientist with new expertise in collagen biochemistry. Institutional Commitment to the Candidate: The Candidate holds a tenure-track faculty position at Cornell, which has provided a newly renovated laboratory, start-up package, and support for graduate students.
Funding Period: 2013-03-01 - 2018-02-28
more information: NIH RePORT
- Protein-glycan Interactions in the Vascular SystemLijun Xia; Fiscal Year: 2013..This information may suggest new approaches to treat heart attacks, strokes, and other cardiovascular disorders. ..
- JHU-UMD Diabetes Research CenterFredric E Wondisford; Fiscal Year: 2013..The Enrichment Program will facilitate the interaction within and between Johns Hopkins University and the University of Maryland. ..
- University of Pennsylvania Diabetes Research CenterMitchell A Lazar; Fiscal Year: 2013..abstract_text> ..
- EARLY EVENTS IN ALZHEIMER PATHOGENESISSUE TILTON GRIFFIN; Fiscal Year: 2013..The synergy between our aims, approaches, and measures will enable us to meet our goal of defining early cellular interactions toward development of rational interventions in AD. ..
- Molecular and Cellular Basis for Digestive DiseasesRichard M Peek; Fiscal Year: 2013..The Administrative Core also contains Biostatistics and Enrichment Programs and oversees the financial management and operation of the VDDRC. ..