ABSTRACT
BACKGROUND: Serum macrophage inhibitory cytokine-1 (MIC-1/GDF15) concentration has been associated with colonic adenomas and carcinoma. AIMS: To determine whether circulating MIC-1/GDF15 serum concentrations are higher in the presence of adenomas and whether the level decreases after excision. METHODS: Patients were recruited prospectively from a single centre and stratified into five groups: no polyps (NP); hyperplastic polyps (HP); sessile serrated ademona (SSA); adenomas (AP); and colorectal carcinoma (CRC). Blood samples were collected immediately before and 4 weeks after colonoscopy. MIC-1/GDF15 serum levels were quantified using ELISA. RESULTS: Participants (n=301) were stratified as: NP; n=116 (52%), HP; n=37 (12%), SSA; n=19 (7%), AP; n=68 (23%); and CRC; n=3 (1%). Patients were excluded from the study due to nondiagnostic pathology (n=9, 3%) and exclusion criteria (n=20, 6%). In the 272 remaining subjects (M=149; F=123), age (P=.005), history of colonic polyps (P=.003) and family history of colonic polyps (P=.002) were associated with presence of adenomas. Baseline median MIC-1/GDF15 serum levels increased significantly from NP 609 (460-797) pg/mL, HP 582 (466-852) pg/mL, SSA 561 (446-837) pg/mL to AP 723 (602-1122) pg/mL and CRC 1107 (897-1107) pg/mL; (P<.001). In the pre- and postpolypectomy paired adenoma samples median MIC-1/GDF15 reduced significantly from 722 (603-1164) pg/mL to 685 (561-944) pg/mL (P=.002). A ROC analysis for serum MIC-1/GDF15 to identify adenomatous polyps indicated an area under the curve of 0.71. CONCLUSIONS: Our data suggest that serum MIC-1/GDF15 has the diagnostic characteristics to increase the detection of colonic neoplasia and improve screening.
Subject(s)
Adenoma/diagnosis , Colonic Neoplasms/pathology , Colonic Polyps/diagnosis , Growth Differentiation Factor 15/blood , Adenomatous Polyps/diagnosis , Adolescent , Adult , Aged , Aged, 80 and over , Cohort Studies , Colonoscopy , Colorectal Neoplasms/diagnosis , Female , Humans , Hyperplasia/pathology , Male , Middle Aged , Prospective Studies , Young AdultABSTRACT
Anorexia-cachexia associated with cancer and other diseases is a common and often fatal condition representing a large area of unmet medical need. It occurs most commonly in advanced cancer and is probably a consequence of molecules released by tumour cells, or tumour-associated interstitial or immune cells. These may then act directly on muscle to cause atrophy and/or may cause anorexia, which then leads to loss of both fat and lean mass. Although the aetiological triggers for this syndrome are not well characterized, recent data suggest that MIC-1/GDF15, a transforming growth factor-beta superfamily cytokine produced in large amounts by cancer cells and as a part of other disease processes, may be an important trigger. This cytokine acts on feeding centres in the hypothalamus and brainstem to cause anorexia leading to loss of lean and fat mass and eventually cachexia. In animal studies, the circulating concentrations of MIC-1/GDF15 required to cause this syndrome are similar to those seen in patients with advanced cancer, and at least some epidemiological studies support an association between MIC-1/GDF15 serum levels and measures of nutrition. This article will discuss its mechanisms of central appetite regulation, and the available data linking this action to anorexia-cachexia syndromes that suggest it is a potential target for therapy of cancer anorexia-cachexia and conversely may also be useful for the treatment of severe obesity.
Subject(s)
Anorexia/etiology , Cachexia/etiology , Growth Differentiation Factor 15/metabolism , Molecular Targeted Therapy , Neoplasms/complications , Obesity/complications , Transforming Growth Factor beta1/metabolism , Animals , Anorexia/psychology , Anorexia/therapy , Appetite/drug effects , Appetite/genetics , Biomarkers/metabolism , Cachexia/psychology , Cachexia/therapy , Energy Metabolism/drug effects , Energy Metabolism/genetics , Gene Expression Regulation, Neoplastic/drug effects , Growth Differentiation Factor 15/drug effects , Humans , Molecular Targeted Therapy/trends , Neoplasms/genetics , Neoplasms/metabolism , Neoplasms/psychology , Obesity/genetics , Obesity/metabolism , Obesity/psychology , Transforming Growth Factor beta1/drug effects , Weight Gain/drug effectsABSTRACT
We evaluated the effects of Ala-7-conantokin-G (Con-G(A7)) and ifenprodil on the modulation by spermine of [(3)H]MK801 binding to human cortical membranes. Human cortical tissue was obtained at autopsy and stored at -80 degrees C until assay. Both Con-G(A7) and ifenprodil inhibited [(3)H]MK801 binding, but spermine affected these inhibitions differently. Con-G(A7) IC(50) changed little with spermine concentration, indicative of a non-competitive interaction, whereas the rightward shift in ifenprodil IC(50) with increasing spermine concentration suggested partial competition. When the two agents were tested against the biphasic activation of [(3)H]MK801 binding by spermine, they again differed in their effects. In the activation phase Con-G(A7) was a non-competitive inhibitor of spermine activation, and may even enhance the spermine EC(50), while the ifenprodil data indicated a partially competitive interaction. Both agents were non-competitive in the inhibitory phase. Overall, the data suggest that Con-G(A7) and ifenprodil interact differently with the polyamine modulation of the glutamate-N-methyl-D-aspartate receptor.
