Benoit Cypriani scite author profile

On the one hand, small bowel ischemia is related to acute reduction of enterocyte mass and loss of gut barrier function by epithelial lifting of villi. On the other hand, systemic inflammatory response syndrome (SIRS) and sepsis could be linked to an acute dysfunction of enterocytes without enterocyte reduction. Citrulline is an amino acid mainly synthesized by small bowel enterocytes. Various contexts of chronic and acute reduction of enterocyte mass have been correlated with low plasma citrulline concentration. Critically ill patients with shock have an acute reduction of enterocyte mass and reduced gut citrulline synthesis, leading to a low plasma citrulline concentration. Acute intestinal failure could be defined as an acute reduction of enterocyte mass and/or acute dysfunction of enterocytes, associated or not with loss of gut barrier function. The influence of SIRS and acute renal failure on plasma citrulline concentration and the value of this concentration as an indicator of acute intestinal failure in critically ill patients must be further evaluated.

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Plasma citrulline kinetics and prognostic value in critically ill patients

Piton

Manzon

Monnet

et al. 2010

Intensive Care Med

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Enterocyte Damage in Critically Ill Patients Is Associated With Shock Condition and 28-Day Mortality*

Piton

Belon²,

Cypriani³

et al. 2013

Critical Care Medicine

102

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Impact of the route of nutrition on gut mucosa in ventilated adults with shock: an ancillary of the NUTRIREA-2 trial

et al. 2019

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Epidermal Growth Factor and Insulin Induce the Proliferation of Guinea Pig Endometrial Stromal Cells in Serum-Free Culture, Whereas Estradiol and Progesterone Do Not1

Ordener

Cypriani

Vuillermoz

et al. 1993

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Guinea pig endometrial stromal cells were cultured in serum-free medium to assess the effects of growth factors and ovarian steroids on cell proliferation. When the cells were made quiescent by serum depletion, [3H]thymidine incorporation was increased by the addition of insulin plus epidermal growth factor (EGF), reaching a peak after 24 h of stimulation. This effect was dose-dependent. Both factors acted synergistically. Estradiol-17 beta (E2), either alone or with various concentrations of growth factors, had no mitogenic effect. Thus, cell proliferation appeared to be estrogen-insensitive, despite a high level of estrogen receptors (19,000 sites per cell). The integrity of these receptors was checked by transfecting cells with a plasmid containing an estrogen-responsive element linked to a CAT gene: E2-induced CAT activity was reduced by the antiestrogen ICI 164,384. Despite the presence of progesterone receptors, the cells, either primed with E2 or not, were not growth-stimulated by progesterone. E2 had no effect on cells cultured in the presence of dextran-coated charcoal-stripped serum. Thus, whatever the culture conditions, stromal cells with functional estrogen receptors were insensitive to the putative mitogenic effects of E2 and progesterone. However, they were highly responsive to the mitogenic effects of insulin and EGF.

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Benoit Cypriani

Acute intestinal failure in critically ill patients: is plasma citrulline the right marker?

Plasma citrulline kinetics and prognostic value in critically ill patients

Enterocyte Damage in Critically Ill Patients Is Associated With Shock Condition and 28-Day Mortality*

Impact of the route of nutrition on gut mucosa in ventilated adults with shock: an ancillary of the NUTRIREA-2 trial

Epidermal Growth Factor and Insulin Induce the Proliferation of Guinea Pig Endometrial Stromal Cells in Serum-Free Culture, Whereas Estradiol and Progesterone Do Not1

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