RESUMO
This paper reported a rare case of hypercalcemic crisis caused by a parathyroid adenoma with hemorrhage and cystic degeneration. Preoperative imaging examination of the patient was unable to determine the histological origin of the cervical cystic lesion. Despite aggressive medical treatment and hemodialysis, hypercalcemic crisis could not be relieved. Therefore, surgical exploration and excision of the cervical lesion were performed, and final diagnosis of parathyroid adenoma with hemorrhage and cystic degeneration was confirmed by pathology. Blood calcium level and renal function returned to normal after the surgery.
RESUMO
Objective To investigate the impact of glucose metabolism-related protein 1 (GMRP1) on the regulation of c-Myc gene transcription, to establish GMRP1 gene knockout mouse model, and to study the influence of GMRP1 on glucose metabolism. Methods Chromatin immunoprecipitation-PCR (ChIP-PCR) was utilized to screen out the genes transcriptionally regulated by GMRP1. Luciferase reporter system was applied to assay the regulation of c-Myc promoter activity by GMRP1. GMRP1 knockout mice were constructed and validated by PCR and western blotting. Body weight and random blood glucose were measured in both knockout and wild type mice fed with either chow diet or high-fat diet. The levels of glucose metabolism in mice of 20 or 28 weeks old were evaluated by intraperitoneal glucose tolerance test. Results GMRP1 was capable of binding to the promoter of c-Myc gene and activating the expression of c-Myc gene. There were no significant differences in body weight, random blood glucose or glucose tolerance between GMRP1-deficient and wild type mice fed with either chow diet or high-fat diet (all P > 0.05). Conclusion GMRP1 may activate the transcription of c-Myc gene. GMRP1 deficiency exerted no significant effects on mouse glucose metabolism.