Thiol methyltransferase activity in inflammatory bowel disease

Roediger, W. E. W.

doi:10.1136/gut.47.2.206

Cited by 20 publications

(8 citation statements)

References 34 publications

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“…We did, however, find that RHOD activity in erythrocytes was significantly higher in UC (but not in CD) patients than in community controls or Hcontrols. Similar results were obtained for TMT, which is in agreement with the findings of Roediger and Babidge [22] and Pitcher et al [23]. Roediger and Babidge found higher levels of TMT in CD also, which we did not.…”

Section: Discussionsupporting

confidence: 93%

Impaired Detoxication of Hydrogen Sulfide in Ulcerative Colitis?

et al. 2007

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Impaired butyrate oxidation and raised counts of sulfate-reducing bacteria in the colon of patients with ulcerative colitis (UC) indicate that the disease may be induced or aggravated by hydrogen sulfide toxicity. We aimed to examine enzymatic removal of H(2)S in erythrocytes and colonic mucosa from controls and patients with UC and Crohn's disease (CD). Rhodanese (RHOD) and thiol methyltransferase (TMT) activities were measured in rectal mucosa and erythrocytes, and plasma thiocyanate was determined. Four groups were analyzed: patients with UC, patients with CD, hospital controls (patients with dyspepsia or IBS), and a group of healthy volunteers. RHOD and TMT activity in rectal biopsies did not differ significantly between controls and patients with UC or CD (n=56). Control levels of RHOD were significantly higher in men than in women (212+/-25 and 132+/-14 nmol/mg/min, respectively; P<0.01). In erythrocytes (n=128) RHOD activity was significantly higher in UC patients than in hospital or volunteer controls (1.15+/-0.12 compared with 0.88+/-0.12 and 0.66+/-0.02 nmol/mg/min; P<0.05 and P<0.02, respectively). TMT activity was also significantly higher in erythrocytes from UC patients and hospital controls than volunteer controls (2.02+/-0.13 pmol/mg/min [P<0.001], 1.51+/-0.21 pmol/mg/min [P<0.05], and 1.17+/-0.18 pmol/mg/min, respectively). We found no evidence of defective enzymic detoxication of sulfide by RHOD or TMT in patients with UC or CD.

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Section: Discussionsupporting

confidence: 93%

Impaired Detoxication of Hydrogen Sulfide in Ulcerative Colitis?

et al. 2007

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“…In the human colon, methylation appears to protect colonic epithelial cells against sulfide-induced inhibition of n-butyrate oxidation. This action cannot be directly correlated with mucosal TMT activity [35].…”

Section: Discussionmentioning

confidence: 96%

Antioxidants as novel therapy in a murine model of colitis

Chen

McClain

et al. 2005

The Journal of Nutritional Biochemistry

203

147

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“…18 We found that in human colonic homogenates, a similar level of RHOD enzyme activity exists at physiological concentrations of H 2 S (1-2 mM), substantiating the claim that this enzyme may be the in vivo detoxifier of H 2 S. 18 Levitt and colleagues 18 have demonstrated radiolabelled H 2 S removal in rat caecal blood and have shown that the TMT transmethylation reaction is not involved, in contrast with data recently reported using 2-mercaptoethanol as substrate. 19 Our studies indicate that RHOD is likely to be the responsible enzyme for detoxification of H 2 S. In vivo, data to date have focused on the role of RHOD as a detoxifier of cyanide and not on the role proposed here, as a detoxifier of H 2 S. The source of the cyanide cosubstrate is unknown but we found that prevailing levels of thiocyanate are high in plasma (0.19 mM in non-smokers and 0.32 mM in smokers), indicating that there is an ample source of cyanide available to act as cosubstrate in the proposed reaction.…”

Section: Discussionmentioning

confidence: 99%

Mucosal protection against sulphide: importance of the enzyme rhodanese

Picton

2002

Gut

103

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Background: Hydrogen sulphide (H 2 S) is a potent toxin normally present in the colonic lumen which may play a role in ulcerative colitis (UC). Two enzymes, thiol methyltransferase (TMT) and rhodanese (RHOD), are thought to be responsible for sulphide removal but supportive evidence is lacking. Aims: To determine the distribution of TMT and RHOD in different sites throughout the gastrointestinal tract and their efficacy as detoxifiers of H 2 S. Methods: Enzyme activities were measured in normal tissue resected from patients with cancer. TMT and RHOD activities were determined using their conventional substrates, 2-mercaptoethanol and sodium thiosulphate, respectively. For measurement of H 2 S metabolism, sodium sulphide was used in the absence of dithiothreitol. Thiopurine methyltransferase (TPMT), which in common with TMT methylates sulphydryl groups but is not thought to act on H 2 S, was also examined. Results: TMT, RHOD, and TPMT activities using their conventional substrates were found throughout the gastrointestinal tract with highest activity in the colonic mucosa. When H 2 S was given as substrate, no reaction product was found with TMT or TPMT but RHOD was extremely active (Km 8.8 mM, Vmax 14.6 nmol/mg/min). Incubation of colonic homogenates with a specific RHOD antibody prevented the metabolism of H 2 S, indicating that RHOD is responsible for detoxifying H 2 S. A purified preparation of RHOD also detoxified H 2 S. Conclusions: RHOD, located in the submucosa and crypts of the colon, is the principal enzyme involved in H 2 S detoxication. TMT does not participate in the detoxication of H 2 S.

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Thiol methyltransferase activity in inflammatory bowel disease

Cited by 20 publications

References 34 publications

Impaired Detoxication of Hydrogen Sulfide in Ulcerative Colitis?

Impaired Detoxication of Hydrogen Sulfide in Ulcerative Colitis?

Antioxidants as novel therapy in a murine model of colitis

Mucosal protection against sulphide: importance of the enzyme rhodanese

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