Perturbed bone composition and integrity with disorganized osteoblast function in zinc receptor/Gpr39-deficient mice

Milena Jovanovic; Felix N Schmidt; Gali  Guterman-Ram; Hanifeh  Khayyeri; Sahar  Hiram-Bab; Ayelet  Orenbuch; Svetlana  Katchkovsky; Anastasia  Aflalo; Hanna  Isaksson; Björn Busse; Katharina Jähn; Noam  Levaot

doi:10.1096/fj.201700661RR

Perturbed bone composition and integrity with disorganized osteoblast function in zinc receptor/Gpr39-deficient mice

Standard

Perturbed bone composition and integrity with disorganized osteoblast function in zinc receptor/Gpr39-deficient mice. / Jovanovic, Milena; Schmidt, Felix N; Guterman-Ram, Gali ; Khayyeri, Hanifeh ; Hiram-Bab, Sahar ; Orenbuch, Ayelet ; Katchkovsky, Svetlana ; Aflalo, Anastasia ; Isaksson, Hanna; Busse, Björn ; Jähn, Katharina; Levaot, Noam.

In: FASEB J, Vol. 32, No. 5, 05.2018, p. 2507-2518.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Jovanovic, M, Schmidt, FN, Guterman-Ram, G, Khayyeri, H, Hiram-Bab, S, Orenbuch, A, Katchkovsky, S, Aflalo, A, Isaksson, H, Busse, B , Jähn, K & Levaot, N 2018, 'Perturbed bone composition and integrity with disorganized osteoblast function in zinc receptor/Gpr39-deficient mice', FASEB J, vol. 32, no. 5, pp. 2507-2518. https://doi.org/10.1096/fj.201700661RR

APA

Jovanovic, M., Schmidt, F. N., Guterman-Ram, G., Khayyeri, H., Hiram-Bab, S., Orenbuch, A., Katchkovsky, S., Aflalo, A., Isaksson, H., Busse, B., Jähn, K., & Levaot, N. (2018). Perturbed bone composition and integrity with disorganized osteoblast function in zinc receptor/Gpr39-deficient mice. FASEB J, 32(5), 2507-2518. https://doi.org/10.1096/fj.201700661RR

Vancouver

Jovanovic M, Schmidt FN, Guterman-Ram G, Khayyeri H, Hiram-Bab S, Orenbuch A et al. Perturbed bone composition and integrity with disorganized osteoblast function in zinc receptor/Gpr39-deficient mice. FASEB J. 2018 May;32(5):2507-2518. https://doi.org/10.1096/fj.201700661RR

Bibtex

@article{371b7a9166e04ad69570e4ea2e236588,

title = "Perturbed bone composition and integrity with disorganized osteoblast function in zinc receptor/Gpr39-deficient mice",

abstract = "Changes in bone matrix composition are frequently found with bone diseases and may be associated with increased fracture risk. Bone is rich in the trace element zinc. Zinc was established to play a significant role in the growth, development, and maintenance of healthy bones; however, the mechanisms underlying zinc effects on the integrity of the skeleton are poorly understood. Here, we show that the zinc receptor (ZnR)/Gpr39 is required for normal bone matrix deposition by osteoblasts. Initial analysis showed that Gpr39-deficient ( Gpr39-/-) mice had weaker bones as a result of altered bone composition. Fourier transform infrared spectroscopy analysis showed high mineral-to-matrix ratios in the bones of Gpr39-/- mice. Histologic analysis showed abnormally high numbers of active osteoblasts but normal osteoclast numbers on the surfaces of bones from Gpr39-/- mice. Furthermore, Gpr39-/- osteoblasts had disorganized matrix deposition in vitro with cultures exhibiting abnormally low collagen and high mineral contents, findings that demonstrate a cell-intrinsic role for ZnR/Gpr39 in these cells. We show that both collagen synthesis and deposition by Gpr39-/- osteoblasts are perturbed. Finally, the expression of the zinc transporter Zip13 and a disintegrin and metalloproteinase with thrombospondin motifs family of zinc-dependent metalloproteases that regulate collagen processing was downregulated in Gpr39-/- osteoblasts. Altogether, our results suggest that zinc sensing by ZnR/Gpr39 affects the expression levels of zinc-dependent enzymes in osteoblasts and regulates collagen processing and deposition.-Jovanovic, M., Schmidt, F. N., Guterman-Ram, G., Khayyeri, H., Hiram-Bab, S., Orenbuch, A., Katchkovsky, S., Aflalo, A., Isaksson, H., Busse, B., J{\"a}hn, K., Levaot, N. Perturbed bone composition and integrity with disorganized osteoblast function in zinc receptor/Gpr39-deficient mice.",

author = "Milena Jovanovic and Schmidt, {Felix N} and Gali Guterman-Ram and Hanifeh Khayyeri and Sahar Hiram-Bab and Ayelet Orenbuch and Svetlana Katchkovsky and Anastasia Aflalo and Hanna Isaksson and Bj{\"o}rn Busse and Katharina J{\"a}hn and Noam Levaot",

year = "2018",

month = may,

doi = "10.1096/fj.201700661RR",

language = "English",

volume = "32",

pages = "2507--2518",

journal = "FASEB J",

issn = "0892-6638",

publisher = "FASEB",

number = "5",

}

RIS

TY - JOUR

T1 - Perturbed bone composition and integrity with disorganized osteoblast function in zinc receptor/Gpr39-deficient mice

AU - Jovanovic, Milena

AU - Schmidt, Felix N

AU - Guterman-Ram, Gali

AU - Khayyeri, Hanifeh

AU - Hiram-Bab, Sahar

AU - Orenbuch, Ayelet

AU - Katchkovsky, Svetlana

AU - Aflalo, Anastasia

AU - Isaksson, Hanna

AU - Busse, Björn

AU - Jähn, Katharina

AU - Levaot, Noam

PY - 2018/5

Y1 - 2018/5

N2 - Changes in bone matrix composition are frequently found with bone diseases and may be associated with increased fracture risk. Bone is rich in the trace element zinc. Zinc was established to play a significant role in the growth, development, and maintenance of healthy bones; however, the mechanisms underlying zinc effects on the integrity of the skeleton are poorly understood. Here, we show that the zinc receptor (ZnR)/Gpr39 is required for normal bone matrix deposition by osteoblasts. Initial analysis showed that Gpr39-deficient ( Gpr39-/-) mice had weaker bones as a result of altered bone composition. Fourier transform infrared spectroscopy analysis showed high mineral-to-matrix ratios in the bones of Gpr39-/- mice. Histologic analysis showed abnormally high numbers of active osteoblasts but normal osteoclast numbers on the surfaces of bones from Gpr39-/- mice. Furthermore, Gpr39-/- osteoblasts had disorganized matrix deposition in vitro with cultures exhibiting abnormally low collagen and high mineral contents, findings that demonstrate a cell-intrinsic role for ZnR/Gpr39 in these cells. We show that both collagen synthesis and deposition by Gpr39-/- osteoblasts are perturbed. Finally, the expression of the zinc transporter Zip13 and a disintegrin and metalloproteinase with thrombospondin motifs family of zinc-dependent metalloproteases that regulate collagen processing was downregulated in Gpr39-/- osteoblasts. Altogether, our results suggest that zinc sensing by ZnR/Gpr39 affects the expression levels of zinc-dependent enzymes in osteoblasts and regulates collagen processing and deposition.-Jovanovic, M., Schmidt, F. N., Guterman-Ram, G., Khayyeri, H., Hiram-Bab, S., Orenbuch, A., Katchkovsky, S., Aflalo, A., Isaksson, H., Busse, B., Jähn, K., Levaot, N. Perturbed bone composition and integrity with disorganized osteoblast function in zinc receptor/Gpr39-deficient mice.

AB - Changes in bone matrix composition are frequently found with bone diseases and may be associated with increased fracture risk. Bone is rich in the trace element zinc. Zinc was established to play a significant role in the growth, development, and maintenance of healthy bones; however, the mechanisms underlying zinc effects on the integrity of the skeleton are poorly understood. Here, we show that the zinc receptor (ZnR)/Gpr39 is required for normal bone matrix deposition by osteoblasts. Initial analysis showed that Gpr39-deficient ( Gpr39-/-) mice had weaker bones as a result of altered bone composition. Fourier transform infrared spectroscopy analysis showed high mineral-to-matrix ratios in the bones of Gpr39-/- mice. Histologic analysis showed abnormally high numbers of active osteoblasts but normal osteoclast numbers on the surfaces of bones from Gpr39-/- mice. Furthermore, Gpr39-/- osteoblasts had disorganized matrix deposition in vitro with cultures exhibiting abnormally low collagen and high mineral contents, findings that demonstrate a cell-intrinsic role for ZnR/Gpr39 in these cells. We show that both collagen synthesis and deposition by Gpr39-/- osteoblasts are perturbed. Finally, the expression of the zinc transporter Zip13 and a disintegrin and metalloproteinase with thrombospondin motifs family of zinc-dependent metalloproteases that regulate collagen processing was downregulated in Gpr39-/- osteoblasts. Altogether, our results suggest that zinc sensing by ZnR/Gpr39 affects the expression levels of zinc-dependent enzymes in osteoblasts and regulates collagen processing and deposition.-Jovanovic, M., Schmidt, F. N., Guterman-Ram, G., Khayyeri, H., Hiram-Bab, S., Orenbuch, A., Katchkovsky, S., Aflalo, A., Isaksson, H., Busse, B., Jähn, K., Levaot, N. Perturbed bone composition and integrity with disorganized osteoblast function in zinc receptor/Gpr39-deficient mice.

U2 - 10.1096/fj.201700661RR

DO - 10.1096/fj.201700661RR

M3 - SCORING: Journal article

C2 - 29295862

VL - 32

SP - 2507

EP - 2518

JO - FASEB J

JF - FASEB J

SN - 0892-6638

IS - 5

ER -