An endogenous nanomineral chaperones luminal antigen and peptidoglycan to intestinal immune cells

Jonathan J. Powell; Emma Thomas-McKay; Vinay Thoree; Jack Robertson; Rachel E. Hewitt; Jeremy N. Skepper; Andy Brown; Juan Carlos Hernandez-Garrido; Paul A. Midgley; Inmaculada Gomez-Morilla; Geoffrey W. Grime; Karen J. Kirkby; Neil A. Mabbott; David S. Donaldson; Ifor R. Williams; Daniel Rios; Stephen E. Girardin; Carolin T. Haas; Sylvaine F. A. Bruggraber; Jon D. Laman; Yakup Tanriver; Giovanna Lombardi; Robert Lechler; Richard P. H. Thompson; Laetitia C. Pele

doi:10.1038/NNANO.2015.19

An endogenous nanomineral chaperones luminal antigen and peptidoglycan to intestinal immune cells

Jonathan J. Powell^*
, Emma Thomas-McKay
, Vinay Thoree
, Jack Robertson
, Rachel E. Hewitt
, Jeremy N. Skepper
, Andy Brown
, Juan Carlos Hernandez-Garrido
, Paul A. Midgley
, Inmaculada Gomez-Morilla
, Geoffrey W. Grime
, Karen J. Kirkby
, Neil A. Mabbott
, David S. Donaldson
, Ifor R. Williams
, Daniel Rios
, Stephen E. Girardin
, Carolin T. Haas
, Sylvaine F. A. Bruggraber
, Jon D. Laman

Yakup Tanriver, Giovanna Lombardi, Robert Lechler, Richard P. H. Thompson, Laetitia C. Pele

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

75 Citations (Scopus)

144 Downloads (Pure)

Abstract

In humans and other mammals it is known that calcium and phosphate ions are secreted from the distal small intestine into the lumen. However, why this secretion occurs is unclear. Here, we show that the process leads to the formation of amorphous magnesium-substituted calcium phosphate nanoparticles that trap soluble macromolecules, such as bacterial peptidoglycan and orally fed protein antigens, in the lumen and transport them to immune cells of the intestinal tissue. The macromolecule-containing nanoparticles utilize epithelial M cells to enter Peyer's patches, small areas of the intestine concentrated with particle-scavenging immune cells. In wild-type mice, intestinal immune cells containing these naturally formed nanoparticles expressed the immune tolerance-associated molecule 'programmed death-ligand 1', whereas in NOD1/2 double knockout mice, which cannot recognize peptidoglycan, programmed death-ligand 1 was undetected. Our results explain a role for constitutively formed calcium phosphate nanoparticles in the gut lumen and show how this helps to shape intestinal immune homeostasis.

Original language	English
Pages (from-to)	361-369
Number of pages	9
Journal	Nature Nanotechnology
Volume	10
Issue number	4
DOIs	https://doi.org/10.1038/NNANO.2015.19
Publication status	Published - Apr-2015

Keywords

AMORPHOUS CALCIUM-PHOSPHATE
DENDRITIC CELLS
CROHNS-DISEASE
CASEIN MICELLES
PEYERS-PATCHES
TOLERANCE
INFLAMMATION
GENERATION
RESPONSES
MICROPARTICLES

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An endogenous nanomineral chaperones luminal antigen and peptidoglycan to intestinalFinal publisher's version, 3.74 MBLicence: Taverne

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Powell, J. J., Thomas-McKay, E., Thoree, V., Robertson, J., Hewitt, R. E., Skepper, J. N., Brown, A., Carlos Hernandez-Garrido, J., Midgley, P. A., Gomez-Morilla, I., Grime, G. W., Kirkby, K. J., Mabbott, N. A., Donaldson, D. S., Williams, I. R., Rios, D., Girardin, S. E., Haas, C. T., Bruggraber, S. F. A., ... Pele, L. C. (2015). An endogenous nanomineral chaperones luminal antigen and peptidoglycan to intestinal immune cells. Nature Nanotechnology, 10(4), 361-369. https://doi.org/10.1038/NNANO.2015.19

@article{c7f089fd2bb141a180c2c6ba7b3cde79,

title = "An endogenous nanomineral chaperones luminal antigen and peptidoglycan to intestinal immune cells",

abstract = "In humans and other mammals it is known that calcium and phosphate ions are secreted from the distal small intestine into the lumen. However, why this secretion occurs is unclear. Here, we show that the process leads to the formation of amorphous magnesium-substituted calcium phosphate nanoparticles that trap soluble macromolecules, such as bacterial peptidoglycan and orally fed protein antigens, in the lumen and transport them to immune cells of the intestinal tissue. The macromolecule-containing nanoparticles utilize epithelial M cells to enter Peyer's patches, small areas of the intestine concentrated with particle-scavenging immune cells. In wild-type mice, intestinal immune cells containing these naturally formed nanoparticles expressed the immune tolerance-associated molecule 'programmed death-ligand 1', whereas in NOD1/2 double knockout mice, which cannot recognize peptidoglycan, programmed death-ligand 1 was undetected. Our results explain a role for constitutively formed calcium phosphate nanoparticles in the gut lumen and show how this helps to shape intestinal immune homeostasis.",

keywords = "AMORPHOUS CALCIUM-PHOSPHATE, DENDRITIC CELLS, CROHNS-DISEASE, CASEIN MICELLES, PEYERS-PATCHES, TOLERANCE, INFLAMMATION, GENERATION, RESPONSES, MICROPARTICLES",

author = "Powell, \{Jonathan J.\} and Emma Thomas-McKay and Vinay Thoree and Jack Robertson and Hewitt, \{Rachel E.\} and Skepper, \{Jeremy N.\} and Andy Brown and \{Carlos Hernandez-Garrido\}, Juan and Midgley, \{Paul A.\} and Inmaculada Gomez-Morilla and Grime, \{Geoffrey W.\} and Kirkby, \{Karen J.\} and Mabbott, \{Neil A.\} and Donaldson, \{David S.\} and Williams, \{Ifor R.\} and Daniel Rios and Girardin, \{Stephen E.\} and Haas, \{Carolin T.\} and Bruggraber, \{Sylvaine F. A.\} and Laman, \{Jon D.\} and Yakup Tanriver and Giovanna Lombardi and Robert Lechler and Thompson, \{Richard P. H.\} and Pele, \{Laetitia C.\}",

year = "2015",

month = apr,

doi = "10.1038/NNANO.2015.19",

language = "English",

volume = "10",

pages = "361--369",

journal = "Nature Nanotechnology",

issn = "1748-3387",

publisher = "Nature Publishing Group",

number = "4",

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Powell, JJ, Thomas-McKay, E, Thoree, V, Robertson, J, Hewitt, RE, Skepper, JN, Brown, A, Carlos Hernandez-Garrido, J, Midgley, PA, Gomez-Morilla, I, Grime, GW, Kirkby, KJ, Mabbott, NA, Donaldson, DS, Williams, IR, Rios, D, Girardin, SE, Haas, CT, Bruggraber, SFA, Laman, JD, Tanriver, Y, Lombardi, G, Lechler, R, Thompson, RPH & Pele, LC 2015, 'An endogenous nanomineral chaperones luminal antigen and peptidoglycan to intestinal immune cells', Nature Nanotechnology, vol. 10, no. 4, pp. 361-369. https://doi.org/10.1038/NNANO.2015.19

TY - JOUR

T1 - An endogenous nanomineral chaperones luminal antigen and peptidoglycan to intestinal immune cells

AU - Powell, Jonathan J.

AU - Thomas-McKay, Emma

AU - Thoree, Vinay

AU - Robertson, Jack

AU - Hewitt, Rachel E.

AU - Skepper, Jeremy N.

AU - Brown, Andy

AU - Carlos Hernandez-Garrido, Juan

AU - Midgley, Paul A.

AU - Gomez-Morilla, Inmaculada

AU - Grime, Geoffrey W.

AU - Kirkby, Karen J.

AU - Mabbott, Neil A.

AU - Donaldson, David S.

AU - Williams, Ifor R.

AU - Rios, Daniel

AU - Girardin, Stephen E.

AU - Haas, Carolin T.

AU - Bruggraber, Sylvaine F. A.

AU - Laman, Jon D.

AU - Tanriver, Yakup

AU - Lombardi, Giovanna

AU - Lechler, Robert

AU - Thompson, Richard P. H.

AU - Pele, Laetitia C.

PY - 2015/4

Y1 - 2015/4

N2 - In humans and other mammals it is known that calcium and phosphate ions are secreted from the distal small intestine into the lumen. However, why this secretion occurs is unclear. Here, we show that the process leads to the formation of amorphous magnesium-substituted calcium phosphate nanoparticles that trap soluble macromolecules, such as bacterial peptidoglycan and orally fed protein antigens, in the lumen and transport them to immune cells of the intestinal tissue. The macromolecule-containing nanoparticles utilize epithelial M cells to enter Peyer's patches, small areas of the intestine concentrated with particle-scavenging immune cells. In wild-type mice, intestinal immune cells containing these naturally formed nanoparticles expressed the immune tolerance-associated molecule 'programmed death-ligand 1', whereas in NOD1/2 double knockout mice, which cannot recognize peptidoglycan, programmed death-ligand 1 was undetected. Our results explain a role for constitutively formed calcium phosphate nanoparticles in the gut lumen and show how this helps to shape intestinal immune homeostasis.

AB - In humans and other mammals it is known that calcium and phosphate ions are secreted from the distal small intestine into the lumen. However, why this secretion occurs is unclear. Here, we show that the process leads to the formation of amorphous magnesium-substituted calcium phosphate nanoparticles that trap soluble macromolecules, such as bacterial peptidoglycan and orally fed protein antigens, in the lumen and transport them to immune cells of the intestinal tissue. The macromolecule-containing nanoparticles utilize epithelial M cells to enter Peyer's patches, small areas of the intestine concentrated with particle-scavenging immune cells. In wild-type mice, intestinal immune cells containing these naturally formed nanoparticles expressed the immune tolerance-associated molecule 'programmed death-ligand 1', whereas in NOD1/2 double knockout mice, which cannot recognize peptidoglycan, programmed death-ligand 1 was undetected. Our results explain a role for constitutively formed calcium phosphate nanoparticles in the gut lumen and show how this helps to shape intestinal immune homeostasis.

KW - AMORPHOUS CALCIUM-PHOSPHATE

KW - DENDRITIC CELLS

KW - CROHNS-DISEASE

KW - CASEIN MICELLES

KW - PEYERS-PATCHES

KW - TOLERANCE

KW - INFLAMMATION

KW - GENERATION

KW - RESPONSES

KW - MICROPARTICLES

U2 - 10.1038/NNANO.2015.19

DO - 10.1038/NNANO.2015.19

M3 - Article

SN - 1748-3387

VL - 10

SP - 361

EP - 369

JO - Nature Nanotechnology

JF - Nature Nanotechnology

IS - 4

ER -

An endogenous nanomineral chaperones luminal antigen and peptidoglycan to intestinal immune cells

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