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Skeletal Phenotype of Transgenic Mice Expressing the Beta1 Integrin Cytoplasmic Tail In OsteoblastsTo define the physiologic role of beta1 integrin in bone formation and mechanical loading, transgenic mice were generated by expressing the cytoplasmic tall and transmembrane domain of Beta1 integrin under the control of the osteocalcin promoter. In cultured cells, this truncated fragment of Beta1 can act as a dominant negative. Previously, the matrix of calvariae was shown to be abnormal in transgenic (TG) compared to wildtype (WT) mice. In this study, we analyzed appendicular bone in TG and WT, male and female mice at 14, 35, 63, 90 and 365 days old (n=8-12/gp). To assess beta1 integrin function in mechanical loading, a pilot study using hindlimb unloading by tail suspension was performed. 35d old TG and WT females were hindlimb unloaded for 4 wks (n=3-5). Body mass, bone mineral content, histomorphometric (distal femur) and biomechanical parameters were analyzed. Statistical significance (P less than.05) was defined by ANOVA using the Tukey-Kramer post-hoc test. We confirmed transgene expression by immunoprecipitating then immunoblotting bone lysates using an antibody against the beta1 tail. Body masses of TG mice at 63, 90 and 365d old were greater (16-25%) than WT. Some TG female mice at 365d appeared obese; mean abdominal fat mass was 415% greater in TG than WT mice. Tibiae were longer (5-7%) in TG than WT mice at 63 and 90d. Tibial mineral mass of 35d males was 7% lower in TG than WT mice, but at 63d was 21% higher. The % osteoblast surface in 35d TG mice was 20% higher than WT, and at 63d was 17% lower, while % osteoclast surface did not differ. In 365d mice, cancellous bone volume (125%) and endocortical mineral apposition rate (40%) were greater in TG than WT males but not females. In WT mice, hindlimb unloading caused a reduction in mineral mass of tibiae (-20%) and lumbar vertebrae (-22%) relative to normally loaded controls. Surprisingly, hindlimb unloading also caused a relative reduction (-13%) in humerus mass. The effects of hindlimb unloading on tibia and humerus mass were less obvious in TG than in WT mice. Since hindlimb unloading caused skeletal changes in both loaded and unloaded bones, systemic changes may contribute to bone responses observed using this animal model. In conclusion, transgene expression resulted in marked metabolic changes during growth and in the aged female. Our results demonstrate that expression of the Beta1 integrin cytoplasmic tail in vivo causes gender- and age-specific changes in select morphometric parameters, bone length, and bone mass.
Document ID
20020069114
Acquisition Source
Ames Research Center
Document Type
Preprint (Draft being sent to journal)
Authors
Globus, R. K.
(NASA Ames Research Center Moffett Field, CA United States)
vanderMeulen, M. C. H.
(Cornell Univ. Ithaca, NY United States)
Damsky, D.
(California Univ. San Francisco, CA United States)
Kim, J.-B.
(California Univ. San Francisco, CA United States)
Amblard, D.
(NASA Ames Research Center Moffett Field, CA United States)
Amblard, D.
(NASA Ames Research Center Moffett Field, CA United States)
Nishimura, Y.
(NASA Ames Research Center Moffett Field, CA United States)
Almeida, E.
(NASA Ames Research Center Moffett Field, CA United States)
Iwaniec, U. T.
(Florida State Univ. Gainesville, FL United States)
Wronski, T. J.
(Florida State Univ. Gainesville, FL United States)
Dalton, Bonnie
Date Acquired
August 20, 2013
Publication Date
September 2, 2002
Subject Category
Life Sciences (General)
Meeting Information
Meeting: American Society for Bone and Mineral Research
Location: San Antonio, TX
Country: United States
Start Date: September 20, 2002
End Date: September 24, 2002
Funding Number(s)
CONTRACT_GRANT: 99-HEDS-02/03-062
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.

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