Mice with a targeted deletion of the tetranectin gene exhibit a spinal deformity.

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Mice with a targeted deletion of the tetranectin gene exhibit a spinal deformity. / Iba, K; Durkin, M E; Johnsen, L; Hunziker, E; Damgaard-Pedersen, K; Zhang, H; Engvall, E; Albrechtsen, R; Wewer, U M.

I: Molecular and Cellular Biology, Bind 21, Nr. 22, 2001, s. 7817-25.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Iba, K, Durkin, ME, Johnsen, L, Hunziker, E, Damgaard-Pedersen, K, Zhang, H, Engvall, E, Albrechtsen, R & Wewer, UM 2001, 'Mice with a targeted deletion of the tetranectin gene exhibit a spinal deformity.', Molecular and Cellular Biology, bind 21, nr. 22, s. 7817-25. https://doi.org/10.1128/MCB.21.22.7817-7825.2001

APA

Iba, K., Durkin, M. E., Johnsen, L., Hunziker, E., Damgaard-Pedersen, K., Zhang, H., Engvall, E., Albrechtsen, R., & Wewer, U. M. (2001). Mice with a targeted deletion of the tetranectin gene exhibit a spinal deformity. Molecular and Cellular Biology, 21(22), 7817-25. https://doi.org/10.1128/MCB.21.22.7817-7825.2001

Vancouver

Iba K, Durkin ME, Johnsen L, Hunziker E, Damgaard-Pedersen K, Zhang H o.a. Mice with a targeted deletion of the tetranectin gene exhibit a spinal deformity. Molecular and Cellular Biology. 2001;21(22):7817-25. https://doi.org/10.1128/MCB.21.22.7817-7825.2001

Author

Iba, K ; Durkin, M E ; Johnsen, L ; Hunziker, E ; Damgaard-Pedersen, K ; Zhang, H ; Engvall, E ; Albrechtsen, R ; Wewer, U M. / Mice with a targeted deletion of the tetranectin gene exhibit a spinal deformity. I: Molecular and Cellular Biology. 2001 ; Bind 21, Nr. 22. s. 7817-25.

Bibtex

@article{cccfce105c7611dd8d9f000ea68e967b,

title = "Mice with a targeted deletion of the tetranectin gene exhibit a spinal deformity.",

abstract = "Tetranectin is a plasminogen-binding, homotrimeric protein belonging to the C-type lectin family of proteins. Tetranectin has been suggested to play a role in tissue remodeling, due to its ability to stimulate plasminogen activation and its expression in developing tissues such as developing bone and muscle. To test the functional role of tetranectin directly, we have generated mice with a targeted disruption of the gene. We report that the tetranectin-deficient mice exhibit kyphosis, a type of spinal deformity characterized by an increased curvature of the thoracic spine. The kyphotic angles were measured on radiographs. In 6-month-old normal mice (n = 27), the thoracic angle was 73 degrees +/- 2 degrees, while in tetranectin-deficient 6-month-old mice (n = 35), it was 93 degrees +/- 2 degrees (P < 0.0001). In approximately one-third of the mutant mice, X-ray analysis revealed structural changes in the morphology of the vertebrae. Histological analysis of the spines of these mice revealed an apparently asymmetric development of the growth plate and of the intervertebral disks of the vertebrae. In the most advanced cases, the growth plates appeared disorganized and irregular, with the disk material protruding through the growth plate. Tetranectin-null mice had a normal peak bone mass density and were not more susceptible to ovariectomy-induced osteoporosis than were their littermates as determined by dual-emission X-ray absorptiometry scanning. These results demonstrate that tetranectin plays a role in tissue growth and remodeling. The tetranectin-deficient mouse is the first mouse model that resembles common human kyphotic disorders, which affect up to 8% of the population.",

author = "K Iba and Durkin, {M E} and L Johnsen and E Hunziker and K Damgaard-Pedersen and H Zhang and E Engvall and R Albrechtsen and Wewer, {U M}",

note = "Keywords: Animals; Blood Proteins; Bone Density; Disease Susceptibility; Female; Gene Deletion; Gene Targeting; Kyphosis; Lectins; Lectins, C-Type; Mice; Mice, Inbred C57BL; Mice, Knockout; Osteoporosis; Ovariectomy; Thoracic Vertebrae",

year = "2001",

doi = "10.1128/MCB.21.22.7817-7825.2001",

language = "English",

volume = "21",

pages = "7817--25",

journal = "Molecular and Cellular Biology",

issn = "0270-7306",

publisher = "American Society for Microbiology",

number = "22",

}

RIS

TY - JOUR

T1 - Mice with a targeted deletion of the tetranectin gene exhibit a spinal deformity.

AU - Iba, K

AU - Durkin, M E

AU - Johnsen, L

AU - Hunziker, E

AU - Damgaard-Pedersen, K

AU - Zhang, H

AU - Engvall, E

AU - Albrechtsen, R

AU - Wewer, U M

N1 - Keywords: Animals; Blood Proteins; Bone Density; Disease Susceptibility; Female; Gene Deletion; Gene Targeting; Kyphosis; Lectins; Lectins, C-Type; Mice; Mice, Inbred C57BL; Mice, Knockout; Osteoporosis; Ovariectomy; Thoracic Vertebrae

PY - 2001

Y1 - 2001

N2 - Tetranectin is a plasminogen-binding, homotrimeric protein belonging to the C-type lectin family of proteins. Tetranectin has been suggested to play a role in tissue remodeling, due to its ability to stimulate plasminogen activation and its expression in developing tissues such as developing bone and muscle. To test the functional role of tetranectin directly, we have generated mice with a targeted disruption of the gene. We report that the tetranectin-deficient mice exhibit kyphosis, a type of spinal deformity characterized by an increased curvature of the thoracic spine. The kyphotic angles were measured on radiographs. In 6-month-old normal mice (n = 27), the thoracic angle was 73 degrees +/- 2 degrees, while in tetranectin-deficient 6-month-old mice (n = 35), it was 93 degrees +/- 2 degrees (P < 0.0001). In approximately one-third of the mutant mice, X-ray analysis revealed structural changes in the morphology of the vertebrae. Histological analysis of the spines of these mice revealed an apparently asymmetric development of the growth plate and of the intervertebral disks of the vertebrae. In the most advanced cases, the growth plates appeared disorganized and irregular, with the disk material protruding through the growth plate. Tetranectin-null mice had a normal peak bone mass density and were not more susceptible to ovariectomy-induced osteoporosis than were their littermates as determined by dual-emission X-ray absorptiometry scanning. These results demonstrate that tetranectin plays a role in tissue growth and remodeling. The tetranectin-deficient mouse is the first mouse model that resembles common human kyphotic disorders, which affect up to 8% of the population.

AB - Tetranectin is a plasminogen-binding, homotrimeric protein belonging to the C-type lectin family of proteins. Tetranectin has been suggested to play a role in tissue remodeling, due to its ability to stimulate plasminogen activation and its expression in developing tissues such as developing bone and muscle. To test the functional role of tetranectin directly, we have generated mice with a targeted disruption of the gene. We report that the tetranectin-deficient mice exhibit kyphosis, a type of spinal deformity characterized by an increased curvature of the thoracic spine. The kyphotic angles were measured on radiographs. In 6-month-old normal mice (n = 27), the thoracic angle was 73 degrees +/- 2 degrees, while in tetranectin-deficient 6-month-old mice (n = 35), it was 93 degrees +/- 2 degrees (P < 0.0001). In approximately one-third of the mutant mice, X-ray analysis revealed structural changes in the morphology of the vertebrae. Histological analysis of the spines of these mice revealed an apparently asymmetric development of the growth plate and of the intervertebral disks of the vertebrae. In the most advanced cases, the growth plates appeared disorganized and irregular, with the disk material protruding through the growth plate. Tetranectin-null mice had a normal peak bone mass density and were not more susceptible to ovariectomy-induced osteoporosis than were their littermates as determined by dual-emission X-ray absorptiometry scanning. These results demonstrate that tetranectin plays a role in tissue growth and remodeling. The tetranectin-deficient mouse is the first mouse model that resembles common human kyphotic disorders, which affect up to 8% of the population.

U2 - 10.1128/MCB.21.22.7817-7825.2001

DO - 10.1128/MCB.21.22.7817-7825.2001

M3 - Journal article

C2 - 11604516

VL - 21

SP - 7817

EP - 7825

JO - Molecular and Cellular Biology

JF - Molecular and Cellular Biology

SN - 0270-7306

IS - 22

ER -

ID: 5236372