Accumulation of allelic changes at chromosomes 7p, 18q, and 2 in parathyroid lesions of uremic patients

Allelic loss of 14q32 in the pathogenesis of gastrointestinal and ampullary malignancies: mapping of the target region to a 17�cM interval

PURPOSE

The genetic basis for gastrointestinal and ampullary carcinomas remains uncertain. This study was performed to pinpoint novel chromosomal region involved in the tumorigenesis of gastrointestinal tract.

METHODS

We screened the allelic status on 16 chromosomal arms in a patient with synchronous ampullary carcinoma and gastric cancer, but who had no family history of familial cancer syndrome. The significance of the shared 14q deletion was examined on clinical cohorts of sporadic gastric (n=12) and ampullary (n=10) carcinoma, respectively. Then, high-density allelotype mapping was performed on 14q32 by using 23 microsatellite markers for the synchronous tumors.

RESULTS

The synchronous gastric and ampullary carcinomas had no frameshift mutations in the APC, MSH2, MSH3, and MSH6 genes. Among the microsatellite markers screened, only D14S267 showed identical loss in the synchronous tumors. The same allelic loss was also detected in one of ampullary carcinomas (10%) and two of gastric cancers (16.7%). Fine mapping of 14q determined a minimally deleted region between D14S65 and D14S1010 (17 centiMorgans) for the synchronous tumors.

CONCLUSIONS

This study illustrates a paradigm using molecular genetic approach in identifying chromosome 14q32 that may harbor a tumor suppressor gene involved in the pathogenesis of a subset of gastrointestinal and ampullary malignancies.

Reduced p18INK4c, p21CIP1/WAF1 and p27KIP1 mRNA levels in tumours of primary and secondary hyperparathyroidism

OBJECTIVE

Hyperparathyroidism (HPT) refers to states of excessive production of parathyroid hormone (PTH). The eukaryotic cell cycle is driven forward by cyclins and their cyclin-dependent kinase (CDK) partners. Cyclin-dependent kinase inhibitors (CKIs), which generally inhibit cell cycle progression, modulate the activity of cyclin-CDK complexes.

DESIGN

In order to quantify the expression of the CKI genes p18, p21, and p27 semiquantitative RT-PCR with mRNA specific-primers was performed on four normal parathyroid biopsies, 31 parathyroid adenomas of primary HPT and 13 hyperplastic glands from uraemic patients with secondary HPT.

PATIENTS

Parathyroid adenomas and secondary hyperplastic glands were obtained from 31 and 13 randomly selected patients undergoing parathyroidectomy in the clinical routine, respectively. Four normal parathyroid gland biopsies were obtained at surgery for pHPT or from normocalcemic patients undergoing thyroidectomy for goitre.

RESULTS

The relative p27 expression (p27/GAPDH) was significantly reduced in parathyroid adenomas compared to normal parathyroid gland biopsies. Furthermore, 42% and 53% of the parathyroid adenomas displayed undetectable p18 and p21 expression levels, respectively. All 13 adenomas that lacked p18 expression showed undetectable p21 expression. The p18 expression was significantly lower in tumours of uraemic sHPT as compared to normal parathyroids and an undetectable expression level was observed for p21 and p27 in 61% and 53%, respectively.

CONCLUSION

Parathyroid adenomas and secondary hyperplastic glands exhibit aberrant reduced expression of the CKIs p18, p21, and p27. This suggests that deranged collaboration of different CKIs may contribute to the development of both primary and secondary HPT.