A fiber-rich diet and radiation-induced injury in the murine intestinal mucosa

Malipatlolla, Dilip Kumar; Devarakonda, Sravani; Patel, Piyush; Sjöberg, Fei; Rascón, Ana; Grandér, Rita; Skokic, Viktor; Kalm, Marie; Danial, Jolie; Mehdin, Eva; Warholm, Malin; Norling, Henrietta; Stringer, Andrea; Johansson, Malin E. V.; Nyman, Margareta; Steineck, Gunnar; Bull, Cecilia

A fiber-rich diet and radiation-induced injury in the murine intestinal mucosa

Mark

Malipatlolla, Dilip Kumar ; Devarakonda, Sravani ; Patel, Piyush ; Sjöberg, Fei ; Rascón, Ana ^LU ; Grandér, Rita ; Skokic, Viktor ; Kalm, Marie ; Danial, Jolie and Mehdin, Eva , et al. (2022) In International Journal of Molecular Sciences 23(1).

Abstract: Dietary fiber is considered a strong intestinal protector, but we do not know whether dietary fiber protects against the long-lasting mucosal damage caused by ionizing radiation. To evaluate whether a fiber-rich diet can ameliorate the long-lasting pathophysiological hallmarks of the irradiated mucosa, C57BL/6J mice on a fiber-rich bioprocessed oat bran diet or a fiber-free diet received 32 Gray in four fractions to the distal colorectum using a linear accelerator and continued on the diets for one, six or 18 weeks. We quantified degenerating crypts, crypt fission, cell proliferation, crypt survival, macrophage density and bacterial infiltration. Crypt loss through crypt degeneration only occurred in the irradiated mice. Initially, it... (More); Dietary fiber is considered a strong intestinal protector, but we do not know whether dietary fiber protects against the long-lasting mucosal damage caused by ionizing radiation. To evaluate whether a fiber-rich diet can ameliorate the long-lasting pathophysiological hallmarks of the irradiated mucosa, C57BL/6J mice on a fiber-rich bioprocessed oat bran diet or a fiber-free diet received 32 Gray in four fractions to the distal colorectum using a linear accelerator and continued on the diets for one, six or 18 weeks. We quantified degenerating crypts, crypt fission, cell proliferation, crypt survival, macrophage density and bacterial infiltration. Crypt loss through crypt degeneration only occurred in the irradiated mice. Initially, it was most frequent in the fiber-deprived group but declined to levels similar to the fiber-consuming group by 18 weeks. The fiber-consuming group had a fast response to irradiation, with crypt fission for growth or healing peaking already at one week post-irradiation, while crypt fission in the fiber-deprived group peaked at six weeks. A fiber-rich diet allowed for a more intense crypt cell proliferation, but the recovery of crypts was eventually lost by 18 weeks. Bacterial infiltration was a late phenomenon, evident in the fiber-deprived animals and intensified manyfold after irradiation. Bacterial infiltration also coincided with a specific proinflammatory serum cytokine profile. In contrast, mice on a fiber-rich diet were completely protected from irradiation-induced bacterial infiltration and exhibited a similar serum cytokine profile as sham-irradiated mice on a fiber-rich diet. Our findings provide ample evidence that dietary fiber consumption modifies the onset, timing and intensity of radiation-induced pathophysiological processes in the intestinal mucosa. However, we need more knowledge, not least from clinical studies, before this finding can be introduced to a new and refined clinical practice.
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Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/c13f6c5b-736a-4fe5-8f40-d4d0fa872746

author

Malipatlolla, Dilip Kumar ; Devarakonda, Sravani ; Patel, Piyush ; Sjöberg, Fei ; Rascón, Ana ^LU ; Grandér, Rita ; Skokic, Viktor ; Kalm, Marie ; Danial, Jolie and Mehdin, Eva , et al. (More)

Malipatlolla, Dilip Kumar ; Devarakonda, Sravani ; Patel, Piyush ; Sjöberg, Fei ; Rascón, Ana ^LU ; Grandér, Rita ; Skokic, Viktor ; Kalm, Marie ; Danial, Jolie ; Mehdin, Eva ; Warholm, Malin ; Norling, Henrietta ; Stringer, Andrea ; Johansson, Malin E. V. ; Nyman, Margareta ^LU ; Steineck, Gunnar and Bull, Cecilia (Less)

organization

Division of Food and Pharma

publishing date

2022-01

type

Contribution to journal

publication status

published

subject

keywords

Bacteria, Colon, Cytokines, Dietary fiber, Intestine, Irradiation, Oat

in

International Journal of Molecular Sciences

volume

23

issue

1

article number

439

pages

23 pages

publisher

MDPI AG

external identifiers

scopus:85121999947
pmid:35008864

ISSN

1661-6596

DOI

10.3390/ijms23010439

language

English

LU publication?

yes

additional info

id

c13f6c5b-736a-4fe5-8f40-d4d0fa872746

date added to LUP

2022-01-12 09:47:01

date last changed

2024-06-15 23:53:37

@article{c13f6c5b-736a-4fe5-8f40-d4d0fa872746,
  abstract     = {{<p>Dietary fiber is considered a strong intestinal protector, but we do not know whether dietary fiber protects against the long-lasting mucosal damage caused by ionizing radiation. To evaluate whether a fiber-rich diet can ameliorate the long-lasting pathophysiological hallmarks of the irradiated mucosa, C57BL/6J mice on a fiber-rich bioprocessed oat bran diet or a fiber-free diet received 32 Gray in four fractions to the distal colorectum using a linear accelerator and continued on the diets for one, six or 18 weeks. We quantified degenerating crypts, crypt fission, cell proliferation, crypt survival, macrophage density and bacterial infiltration. Crypt loss through crypt degeneration only occurred in the irradiated mice. Initially, it was most frequent in the fiber-deprived group but declined to levels similar to the fiber-consuming group by 18 weeks. The fiber-consuming group had a fast response to irradiation, with crypt fission for growth or healing peaking already at one week post-irradiation, while crypt fission in the fiber-deprived group peaked at six weeks. A fiber-rich diet allowed for a more intense crypt cell proliferation, but the recovery of crypts was eventually lost by 18 weeks. Bacterial infiltration was a late phenomenon, evident in the fiber-deprived animals and intensified manyfold after irradiation. Bacterial infiltration also coincided with a specific proinflammatory serum cytokine profile. In contrast, mice on a fiber-rich diet were completely protected from irradiation-induced bacterial infiltration and exhibited a similar serum cytokine profile as sham-irradiated mice on a fiber-rich diet. Our findings provide ample evidence that dietary fiber consumption modifies the onset, timing and intensity of radiation-induced pathophysiological processes in the intestinal mucosa. However, we need more knowledge, not least from clinical studies, before this finding can be introduced to a new and refined clinical practice.</p>}},
  author       = {{Malipatlolla, Dilip Kumar and Devarakonda, Sravani and Patel, Piyush and Sjöberg, Fei and Rascón, Ana and Grandér, Rita and Skokic, Viktor and Kalm, Marie and Danial, Jolie and Mehdin, Eva and Warholm, Malin and Norling, Henrietta and Stringer, Andrea and Johansson, Malin E. V. and Nyman, Margareta and Steineck, Gunnar and Bull, Cecilia}},
  issn         = {{1661-6596}},
  keywords     = {{Bacteria; Colon; Cytokines; Dietary fiber; Intestine; Irradiation; Oat}},
  language     = {{eng}},
  number       = {{1}},
  publisher    = {{MDPI AG}},
  series       = {{International Journal of Molecular Sciences}},
  title        = {{A fiber-rich diet and radiation-induced injury in the murine intestinal mucosa}},
  url          = {{http://dx.doi.org/10.3390/ijms23010439}},
  doi          = {{10.3390/ijms23010439}},
  volume       = {{23}},
  year         = {{2022}},
}

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A fiber-rich diet and radiation-induced injury in the murine intestinal mucosa