Treatment of colitis with a commensal gut bacterium engineered to secrete human TGF-β1 under the control of dietary xylan 1
Treatment of colitis with a commensal gut bacterium engineered to secrete human TGF-β1 under the control of dietary xylan 1
BACKGROUND: While cytokine therapy and the use of immunosuppressive cytokines such as transforming growth factor-β (TGF-β) offer great potential for the treatment of inflammatory bowel disease (IBD), issues concerning formulation, stability in vivo, delivery to target tissues, and potential toxicity need to be addressed. In consideration of these problems we engineered the human commensal bacterium Bacteroides ovatus for the controlled in situ delivery of TGF-β(1) and treatment of colitis.
METHODS: Sequence encoding the human tgf-β1 gene was cloned downstream of the xylanase promoter in the xylan operon of B. ovatus by homologous recombination. Resulting recombinants (BO-TGF) were tested for TGF-β production in the presence and absence of polysaccharide xylan in vitro and in vivo, and used to treat experimental murine colitis. Clinical and pathological scores were used to assess the effectiveness of therapy. Colonic inflammatory markers including inflammatory cytokine expression were assessed by colorimetric assay and real-time polymerase chain reaction (PCR).
RESULTS: BO-TGF secreted high levels of biologically active dimeric TGF-β in vitro and in vivo in a xylan-controlled manner. Administration of xylan in drinking water to BO-TGF-treated mice resulted in a significant clinical improvement of colitis, accelerating healing of damaged colonic epithelium, reducing inflammatory cell infiltration, reducing expression of proinflammatory cytokines, and promoting production of mucin-rich goblet cells in colonic crypts. These beneficial effects are comparable and in most cases superior to that achieved by conventional steroid therapy.
CONCLUSIONS: This novel drug delivery system has potential for the targeted and controlled delivery of TGF-β(1) and other immunotherapeutic agents for the long-term management of various bowel disorders.
Animals, Bacteroides/genetics, Biological Assay, Colitis/chemically induced, Cytokines/metabolism, Dextran Sulfate/toxicity, Diet, Disease Models, Animal, Drinking Water, Drug Delivery Systems, Genetic Engineering, Goblet Cells/metabolism, Homologous Recombination, Humans, Male, Mice, Mice, Inbred C57BL, Promoter Regions, Genetic/genetics, Real-Time Polymerase Chain Reaction, Transforming Growth Factor beta1/genetics, Xylans/pharmacology
1925-1935
Hamady, Zaed Z.R.
545a1c81-276e-4341-a420-aa10aa5d8ca8
Scott, Nigel
d9f917a3-afb5-47e2-81da-5149c0420c82
Farrar, Mark D
5b6b2aad-3bb6-400f-9ae3-cb8f9be8cd57
Wadhwa, Meenu
66dcaf4d-aa59-46f3-b8ba-bf568deabe61
Dilger, Paula
c81f2c33-ae30-4a8a-b189-877613273119
Whitehead, Terence R
6d7a75b8-215f-4602-afba-07c97be26ba4
Thorpe, Robin
ab4d27ed-204e-4111-a60e-a3db00fa3503
Holland, Keith T
59cafad5-1008-4848-aef6-bc9b0a249839
Lodge, J Peter A
c97dd104-0cb2-4f05-a008-9b9af01e4820
Carding, Simon R
1104c711-b95b-4ed5-9cc6-6d09f1f268ea
1 September 2011
Hamady, Zaed Z.R.
545a1c81-276e-4341-a420-aa10aa5d8ca8
Scott, Nigel
d9f917a3-afb5-47e2-81da-5149c0420c82
Farrar, Mark D
5b6b2aad-3bb6-400f-9ae3-cb8f9be8cd57
Wadhwa, Meenu
66dcaf4d-aa59-46f3-b8ba-bf568deabe61
Dilger, Paula
c81f2c33-ae30-4a8a-b189-877613273119
Whitehead, Terence R
6d7a75b8-215f-4602-afba-07c97be26ba4
Thorpe, Robin
ab4d27ed-204e-4111-a60e-a3db00fa3503
Holland, Keith T
59cafad5-1008-4848-aef6-bc9b0a249839
Lodge, J Peter A
c97dd104-0cb2-4f05-a008-9b9af01e4820
Carding, Simon R
1104c711-b95b-4ed5-9cc6-6d09f1f268ea
Hamady, Zaed Z.R., Scott, Nigel, Farrar, Mark D, Wadhwa, Meenu, Dilger, Paula, Whitehead, Terence R, Thorpe, Robin, Holland, Keith T, Lodge, J Peter A and Carding, Simon R
(2011)
Treatment of colitis with a commensal gut bacterium engineered to secrete human TGF-β1 under the control of dietary xylan 1.
Inflammatory Bowel Diseases, 17 (9), .
(doi:10.1002/ibd.21565).
Abstract
BACKGROUND: While cytokine therapy and the use of immunosuppressive cytokines such as transforming growth factor-β (TGF-β) offer great potential for the treatment of inflammatory bowel disease (IBD), issues concerning formulation, stability in vivo, delivery to target tissues, and potential toxicity need to be addressed. In consideration of these problems we engineered the human commensal bacterium Bacteroides ovatus for the controlled in situ delivery of TGF-β(1) and treatment of colitis.
METHODS: Sequence encoding the human tgf-β1 gene was cloned downstream of the xylanase promoter in the xylan operon of B. ovatus by homologous recombination. Resulting recombinants (BO-TGF) were tested for TGF-β production in the presence and absence of polysaccharide xylan in vitro and in vivo, and used to treat experimental murine colitis. Clinical and pathological scores were used to assess the effectiveness of therapy. Colonic inflammatory markers including inflammatory cytokine expression were assessed by colorimetric assay and real-time polymerase chain reaction (PCR).
RESULTS: BO-TGF secreted high levels of biologically active dimeric TGF-β in vitro and in vivo in a xylan-controlled manner. Administration of xylan in drinking water to BO-TGF-treated mice resulted in a significant clinical improvement of colitis, accelerating healing of damaged colonic epithelium, reducing inflammatory cell infiltration, reducing expression of proinflammatory cytokines, and promoting production of mucin-rich goblet cells in colonic crypts. These beneficial effects are comparable and in most cases superior to that achieved by conventional steroid therapy.
CONCLUSIONS: This novel drug delivery system has potential for the targeted and controlled delivery of TGF-β(1) and other immunotherapeutic agents for the long-term management of various bowel disorders.
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More information
Published date: 1 September 2011
Keywords:
Animals, Bacteroides/genetics, Biological Assay, Colitis/chemically induced, Cytokines/metabolism, Dextran Sulfate/toxicity, Diet, Disease Models, Animal, Drinking Water, Drug Delivery Systems, Genetic Engineering, Goblet Cells/metabolism, Homologous Recombination, Humans, Male, Mice, Mice, Inbred C57BL, Promoter Regions, Genetic/genetics, Real-Time Polymerase Chain Reaction, Transforming Growth Factor beta1/genetics, Xylans/pharmacology
Identifiers
Local EPrints ID: 455653
URI: http://eprints.soton.ac.uk/id/eprint/455653
ISSN: 1536-4844
PURE UUID: 1a0f0753-41f8-4622-a976-79323e9679e2
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Date deposited: 30 Mar 2022 16:35
Last modified: 17 Mar 2024 04:12
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Contributors
Author:
Zaed Z.R. Hamady
Author:
Nigel Scott
Author:
Mark D Farrar
Author:
Meenu Wadhwa
Author:
Paula Dilger
Author:
Terence R Whitehead
Author:
Robin Thorpe
Author:
Keith T Holland
Author:
J Peter A Lodge
Author:
Simon R Carding
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