Biochemical markers in the follow-up of medullary thyroid cancer.

Medullary thyroid cancer (MTC) shares biochemical features with other neuroendocrine tumors but the particular characteristics are largely unexplored. We investigated the biochemical neuroendocrine profile of MTC and whether specific markers could be useful in follow-up. In addition to the standard tumor marker calcitonin, plasma carcino-embryonic antigen (CEA), plasma catecholamines, (platelet) serotonin, chromogranin A, tryptase, and urinary markers of catecholamine, histamine, and serotonin metabolism were prospectively determined in 46 patients with histologically proven MTC. Patients were divided according to the stage of disease: group 1, no evidence; group 2, stable disease (SD); and group 3, progressive disease (PD). Plasma dopamine was increased in the majority of the patients with SD and PD; however it did not correlate with extent of disease. Elevated plasma platelet levels of serotonin were only present in patients with multiple endocrine neoplasia 2 with SD or PD but did not differ between those groups. Histamine metabolites were elevated in 20% of patients with SD and PD. In addition to plasma calcitonin, only CEA and chromogranin A could differentiate between stable and progressive MTC. MTCs are capable of synthesizing catecholamines, serotonin, and histamine metabolites underscoring that MTCs have metabolic characteristics in common with other neuroendocrine tumors. Thus far, clinical usefulness and relevance seems limited. The most useful markers in the follow-up of MTC are plasma calcitonin and CEA.

Early Posttransplant Tryptophan Metabolism Predicts Long-term Outcome of Human Kidney Transplantation.

BACKGROUND: Chronic transplant dysfunction (CTD) is the leading cause of long-term loss of the renal allograft. So far, no single test is available to reliably predict the risk for CTD. Monitoring of tryptophan (trp) metabolism through indoleamine 2.3-dioxygenase (IDO) has been previously proposed to predict acute rejection of human kidney transplants. Here, we investigate the potential of IDO/trp degradation along the kynurenine (kyn) pathway to predict the long-term outcome of human kidney transplantation. METHODS: During the 2-year follow-up blood, urine, and kidney biopsies were collected from 48 renal transplant patients. Concentrations of kyn and trp in serum and urine were measured at 2 weeks, 6 months, and 2 years after transplantation. Kynurenine to tryptophan ratio was calculated as an estimate of trp degradation. To evaluate the histological changes and IDO expression, respectively, periodic acid schiff staining and immunohistochemistry for IDO were performed on biopsies taken at 6 months and 2 years. RESULTS: Two years after transplantation, kyn/trp was increased in urine and decreased in serum as compared to 2-week values. In 2-year biopsies, IDO expression was mainly found in infiltrating inflammatory cells and in the glomeruli. The urine level of trp 2 weeks after transplantation predicted the serum creatinine 6 months and the estimated creatinine clearance 2 years after transplantation. Additionally, serum level of kyn 6 months after transplantation predicted the serum creatinine 2 years after transplantation. CONCLUSIONS: Early serum and urine levels of trp and kyn may offer a novel route for early detection of patients at risk for developing CTD.