Both alleles of the NF1 gene are inactivated in leukemic cells in some patients with neurofibromatosis type 1. NF1 appears to function as a tumor-suppressor gene in immature myeloid cells.
Neurofibromatosis 1 (NF1) is a common genetic disorder characterized by abnormalities of tissues derived from the neural crest. To define germ-line mutations in the NF1 gene, we studied 20 patients with familial or sporadic cases of NF1 diagnosed clinically and one patient with only café-au-lait spots and no other diagnostic criteria. A protein truncation assay identified abnormal polypeptides synthesized in vitro from five RT-PCR products that represented the entire NF1 coding region. Truncated polypeptides were observed in 14 individuals. The mutations responsible for the generation of abnormal polypeptides were characterized by DNA sequencing. Thirteen previously unpublished mutations were characterized in the 14 individuals. The mutation 2027insC was observed in two unrelated individuals; the other 12 mutations were unique. The sequence changes included seven nonsense and four frameshift mutations that created premature translation termination signals, and two large in-frame deletions that led to the synthesis of truncated polypeptides. One of the mutations was found in the child with a single clinical diagnostic criterion, providing her with a presumptive diagnosis of NF1. Our results confirm that truncating mutations are frequent in both familial and sporadic NF1 cases. The identification of mutations in 14 of 21 individuals studied (67%) suggests that the use of protein truncation assays will rapidly accelerate the rate of identification of NF1 mutations. Because we scanned the entire NF1 coding region in each individual, the distribution of NF1 truncating mutations was discerned for the first time. The mutations were relatively evenly distributed throughout the coding region with no evidence for clustering.
Background. The usual manifestation of familial adenomatous polyposis (FAP) is hundreds or thousands of colonic adenomas. The authors previously described a colon cancer‐prone syndrome characterized by fewer adenomas (1–100), most located in the proximal colon, and upper gastrointestinal lesions, particularly fundic gland polyps and duodenal adenomas. The colonic adenomas are often flat rather than polypoid, a feature emphasized in earlier reports with the term “hereditary flat adenoma syndrome.” The syndrome has an autosomal dominant pattern of inheritance and is linked to the adenomatous polyposis coli [APC] locus at 5q.
Methods. This is a descriptive study based on one family that was followed for more than a decade. Total cell RNA was isolated from cultured lymphoblasts, and an in vitro protein synthesis assay was used to detect APC mutations. Sixteen individuals whose APC mutation status was known had sequential endoscopic evaluations. Five patients were given one or more courses of sulindac.
Results. There was perfect concordance between clinical affected status and an APC mutation. All affected members generated a 16‐kDa polypeptide from the mutant allele, consistent with a 2‐base pair deletion at the extreme 5′end of the APC gene. Sixteen mutation‐positive individuals underwent upper gastrointestinal endoscopy and colonoscopy; 13 had colonic adenomas, with the number visualized at any one examination ranging from 1 to greater than 50. Upper gastrointestinal examination revealed fundic gland polyps in 15, gastric or duodenal adenomas in 4, and periampullary carcinoma in 1.
Conclusion. AFAP is a phenotypically distinctive syndrome, differing from classic FAP by having fewer colonic adenomas that tend to be proximally distributed and flat rather than polypoid. The position of the APC germline mutation appears to allow for the molecular differentiation between FAP and the attenuated variant in that the extreme 5′ APC mutations are associated with the latter.
Families with adenomatous polyposis that have proximal 5' mutations of the adenomatous polyposis coli gene are more likely to have a heterogeneous phenotype with delayed development of colonic polyposis and colorectal cancer than are families with distal 5' mutations of the gene. Management should include genotyping of patients who are at risk, colonoscopic surveillance of genotypically positive persons, and prophylactic colectomy if several adenomas are found.
A phase III study was performed to compare the efficacy and safety of lamotrigine (Lamictal), desipramine (Norpramin), and placebo in the treatment of unipolar depression. Desipramine is extensively metabolized by cytochrome P450 2D6 (CYP2D6), and kinetics of this compound are altered in poor metabolizers. Genotyping was utilized to exclude poor metabolizers in order to increase subject safety and to eliminate the need to continuously monitor plasma desipramine levels. As part of screening, subjects were genotyped for the *3(A), *4(B), and *5(D) alleles, which identify approximately 95% of poor metabolizers. Extensive metabolizers were eligible for randomization to the lamotrigine, desipramine, or placebo arm. Follow-up genotyping for the *6(T) and *7(E) alleles was performed after study enrollment and was used to identify poor metabolizers who may have been incorrectly identified as extensive metabolizers upon initial three-allele screening. Of 628 subjects screened for *3(A), *4(B), *5(D) alleles, 590 (93.9%) were classified as extensive metabolizers. The remaining 38 (6.1%) subjects were poor metabolizers and excluded. Subsequent *6(T) and *7(E) testing revealed that two poor metabolizers had been enrolled, and the follow-up genotyping provided an explanation for the high desipramine plasma concentrations in one subject. No differences in phenotypic or allelic frequencies were found between the study population and literature populations. However, the frequency of poor metabolizers varied among clinical sites (0-15%). For a compound that is extensively metabolized by CYP2D6, prescreening subjects for *3(A), *4(B), *5(D), *6(T) and *7(E) alleles can increase subject safety and eliminate the need to continuously monitor drug plasma concentrations.
Hereditary nonpolyposis colorectal cancer (HNPCC) is a common autosomal dominant disease caused by germline mutations in DNA mismatch repair genes. The mutational spectrum in these genes appears to be diverse, in both the distribution and the nature of the mutations. However, most described mutations generate a premature stop codon and ultimately result in the synthesis of a truncated protein. We have employed an in vitro transcription/translation assay to identify germline mutations in DNA mismatch repair genes from patients suspected of belonging to HNPCC kindreds. Our results suggest that this approach will be highly effective in identifying mutations in these patients and may lead to a reliable diagnostic test for the pre-symptomatic identification of HNPCC.
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