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Surfactant protein D (SP-D) deficiency is attenuated in humanised mice expressing the Met(11)Thr short nucleotide polymorphism of SP-D: implications for surfactant metabolism in the lung

Surfactant protein D (SP-D) deficiency is attenuated in humanised mice expressing the Met(11)Thr short nucleotide polymorphism of SP-D: implications for surfactant metabolism in the lung
Surfactant protein D (SP-D) deficiency is attenuated in humanised mice expressing the Met(11)Thr short nucleotide polymorphism of SP-D: implications for surfactant metabolism in the lung
Surfactant protein D (SP-D) is part of the innate immune system involved in lung homeostasis. SP-D knockout mice show accumulations of foamy alveolar macrophages, alveolar lipoproteinosis and pulmonary emphysema. Three single nucleotide polymorphisms (SNPs) have been described in the coding sequence of the human SP-D gene SFTPD. Clinical studies showed that the SNP SFTPD with a nucleotide change from A to C resulting in a Met to Thr substitution at position 11 in the protein (Met(11)Thr), is relevant. This study set out to create a humanised mouse model of the Met(11)Thr SNP. Transgenic mice lines expressing either Met(11) or Thr(11) SP-D under the control of the ubiquitously expressed pROSA26 promoter in C57Bl/6 SP-D deficient mice (DKO) was created. Both Met(11) (142 ± 52 ng mL?1) and Thr(11) (228 ± 76 ng mL?1) mice lines expressed human SP-D at almost similar levels. According to the literature this was within the range of SP-D levels found in wildtype (WT) mice (253 ± 22 ng mL?1). Met(11) or Thr(11) SP-D in serum from transgenic mice bound maltose in a calcium-dependent manner, and binding was inhibited in the presence of EDTA or maltose. Bronchoalveolar lavage showed for both transgenic mice lines complementation of the DKO phenotype by restoring cell counts, phospholipid levels and protein content back to WT levels. Cytospins of BAL pellet cells showed a resemblance to WT but both mice lines showed some foamy alveolar macrophages. The stereological analysis showed for none of the mice lines a complete abrogation of emphysematous alterations. However, both Met(11) and Thr(11) mice lines were partially reverted back to a WT phenotype when compared with DKO mice, indicating important effects on surfactant metabolism in vivo.
oligomerisation, short nucleotide polymorphism, sp-d, stereology, transgenic mice
0021-8782
581-592
Knudsen, L.
7c56f8fb-38f0-47e8-b13f-aecea21ecfe5
Ochs, K.
c215529f-865e-4cb8-9255-c7a41908603b
Boxler, L.
333cf1aa-fe8f-4461-9ae0-ebbffa6a78d2
Tornoe, I.
87fd8122-f125-4bba-90bd-1de937dea070
Lykke-Sorensen, G.
0baade3a-4de6-4547-8d19-3010ab1c4e2b
Mackay, R.-M.
19cf1b92-c65d-4baa-a165-ab630bf77ec3
Clark, H.W.
70550b6d-3bd7-47c6-8c02-4f43f37d5213
Holmskov, U.
a5c73f03-fa11-4f50-baa1-1d66d6151b8f
Ochs, M.
963e24b8-c79d-410c-b494-047be3de1b1c
Madsen, J.
b5d8ae35-00ac-4d19-930e-d8ddec497359
Knudsen, L.
7c56f8fb-38f0-47e8-b13f-aecea21ecfe5
Ochs, K.
c215529f-865e-4cb8-9255-c7a41908603b
Boxler, L.
333cf1aa-fe8f-4461-9ae0-ebbffa6a78d2
Tornoe, I.
87fd8122-f125-4bba-90bd-1de937dea070
Lykke-Sorensen, G.
0baade3a-4de6-4547-8d19-3010ab1c4e2b
Mackay, R.-M.
19cf1b92-c65d-4baa-a165-ab630bf77ec3
Clark, H.W.
70550b6d-3bd7-47c6-8c02-4f43f37d5213
Holmskov, U.
a5c73f03-fa11-4f50-baa1-1d66d6151b8f
Ochs, M.
963e24b8-c79d-410c-b494-047be3de1b1c
Madsen, J.
b5d8ae35-00ac-4d19-930e-d8ddec497359

Knudsen, L., Ochs, K., Boxler, L., Tornoe, I., Lykke-Sorensen, G., Mackay, R.-M., Clark, H.W., Holmskov, U., Ochs, M. and Madsen, J. (2013) Surfactant protein D (SP-D) deficiency is attenuated in humanised mice expressing the Met(11)Thr short nucleotide polymorphism of SP-D: implications for surfactant metabolism in the lung. Journal of Anatomy, 223 (6), 581-592. (doi:10.1111/joa.12120). (PMID:24111992)

Record type: Article

Abstract

Surfactant protein D (SP-D) is part of the innate immune system involved in lung homeostasis. SP-D knockout mice show accumulations of foamy alveolar macrophages, alveolar lipoproteinosis and pulmonary emphysema. Three single nucleotide polymorphisms (SNPs) have been described in the coding sequence of the human SP-D gene SFTPD. Clinical studies showed that the SNP SFTPD with a nucleotide change from A to C resulting in a Met to Thr substitution at position 11 in the protein (Met(11)Thr), is relevant. This study set out to create a humanised mouse model of the Met(11)Thr SNP. Transgenic mice lines expressing either Met(11) or Thr(11) SP-D under the control of the ubiquitously expressed pROSA26 promoter in C57Bl/6 SP-D deficient mice (DKO) was created. Both Met(11) (142 ± 52 ng mL?1) and Thr(11) (228 ± 76 ng mL?1) mice lines expressed human SP-D at almost similar levels. According to the literature this was within the range of SP-D levels found in wildtype (WT) mice (253 ± 22 ng mL?1). Met(11) or Thr(11) SP-D in serum from transgenic mice bound maltose in a calcium-dependent manner, and binding was inhibited in the presence of EDTA or maltose. Bronchoalveolar lavage showed for both transgenic mice lines complementation of the DKO phenotype by restoring cell counts, phospholipid levels and protein content back to WT levels. Cytospins of BAL pellet cells showed a resemblance to WT but both mice lines showed some foamy alveolar macrophages. The stereological analysis showed for none of the mice lines a complete abrogation of emphysematous alterations. However, both Met(11) and Thr(11) mice lines were partially reverted back to a WT phenotype when compared with DKO mice, indicating important effects on surfactant metabolism in vivo.

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e-pub ahead of print date: 22 September 2013
Published date: December 2013
Keywords: oligomerisation, short nucleotide polymorphism, sp-d, stereology, transgenic mice
Organisations: Clinical & Experimental Sciences

Identifiers

Local EPrints ID: 359467
URI: http://eprints.soton.ac.uk/id/eprint/359467
DOI: doi:10.1111/joa.12120
ISSN: 0021-8782
PURE UUID: 2c916259-ef69-48fd-b213-130ebe43fa9c
ORCID for R.-M. Mackay: ORCID iD orcid.org/0000-0002-9493-9654
ORCID for J. Madsen: ORCID iD orcid.org/0000-0003-1664-7645

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Date deposited: 04 Nov 2013 11:19
Last modified: 15 Mar 2024 03:29

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Contributors

Author: L. Knudsen
Author: K. Ochs
Author: L. Boxler
Author: I. Tornoe
Author: G. Lykke-Sorensen
Author: R.-M. Mackay ORCID iD
Author: H.W. Clark
Author: U. Holmskov
Author: M. Ochs
Author: J. Madsen ORCID iD

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