Retinoblastoma and hypochondroplasia: a case report of two germline mutations arising simultaneously.

PURPOSE: To report a rare case of a patient with two germline mutations arising de novo resulting in bilateral retinoblastoma and hypochondroplasia. DESIGN: A brief review about retinoblastoma and hypochondroplasia; a case report with genetic mutational analysis results. CASE REPORT: We report a patient manifesting the clinical features of both bilateral retinoblastoma and hypochondroplasia. Genetic analysis revealed two germline mutations, a seven base-pair deletion in exon 12 (G70313-703129del) in one allele of the retinoblastoma gene (RB1) and the N540K (C1620C > A) mutation in one allele of the fibroblast growth factor 3 (FGFR3) gene, a frequent mutation in hypochondroplasia. Neither parent has a personal or family history of cancer or ocular tumors. Only the patient's mother is short in stature, and her genetic analysis revealed no FGFR3 mutations. CONCLUSIONS: Although the probability of both germline mutations occurring in a single individual is exceedingly low, the etiology and mechanism are unknown in this patient. To the best of our knowledge, this is the first report of two clinically distinct heritable germline mutations arising de novo in an individual.

Rapid identification of germline mutations in retinoblastoma by protein truncation testing.

OBJECTIVE: To demonstrate the utility of protein truncation testing (PTT) for rapid detection and sequencing of germline mutations in the retinoblastoma tumor suppressor gene (RB1). METHODS: We performed PTT, a technique based on the in vitro synthesis of protein from amplified RNA, on 27 probands from 27 kindreds with hereditary retinoblastoma. In 4 kindreds, PTT was also performed on 1 additional affected relative. Ten unrelated patients without retinoblastoma were included as negative control subjects. All PTT-detected mutations were further analyzed by focused sequencing of genomic DNA. When no mutation was detected by PTT, we performed exon-by-exon sequencing, as well as cytogenetic analysis by Giemsa-trypsin-Giemsa banding and by fluorescent in situ hybridization for RB1. The results of proband testing were used for direct genetic testing by polymerase chain reaction and sequencing in 11 relatives from 7 of the 27 kindreds. RESULTS: Of the probands tested, 19 (70%) of 27 tested positive for germline mutations by PTT. In 1 kindred, the proband had negative PTT results but an additional affected relative had positive PTT results. Focused DNA sequencing of 1 patient with positive PTT results from each of the 20 kindreds with positive PTT results revealed truncating mutations in 19 kindreds. Four demonstrated frameshift deletions, 6 had splice site mutations, and 9 showed nonsense mutations. Further analysis by genomic exon-by-exon sequencing and karyotype analysis of the 8 probands who tested negative for germline mutations by PTT revealed 1 splice site mutation, 2 missense mutations, and 1 chromosomal deletion. Focused sequencing based on positive PTT results was successfully used to confirm shared truncating mutations in additional affected family members in 2 kindreds. Using a multitiered approach to genetic testing, 23 (85%) of 27 kindreds had mutations identified and those detected by PTT received a positive result in as few as 7 days. In control subjects, PTT produced no false-positive results. CONCLUSIONS: Protein truncation testing is an effective, rapid single-modality screen for germline mutations in patients with retinoblastoma. When used as an initial screen, PTT can increase the yield of additional testing modalities, such as sequencing and chromosomal analysis, providing a timely and cost-effective approach for the diagnosis of heritable germline mutations in patients with retinoblastoma.Clinical Relevance The clinical application of PTT in retinoblastoma will improve detection of germline retinoblastoma mutations, which will supply critical information for prognosis, treatment planning, follow-up care, and genetic counseling.

Hyperfractionated external beam radiation therapy in the treatment of murine transgenic retinoblastoma.

OBJECTIVE: To determine the in vivo efficacy of hyperfractionated external beam radiation therapy (EBRT) in comparison with standard daily EBRT in a murine model of heritable retinoblastoma. METHODS: Two hundred twenty eyes from 6-week-old simian virus-40 large T-antigen--positive mice were treated with a total dose of EBRT ranging from 10-76 Gy (1000 to 7600 rad). One hundred ten eyes underwent EBRT administered in 2.0-Gy (200-rad) fractions once per day. Forty-two eyes received hyperfractionated EBRT administered in 1.2-Gy (120-rad) fractions twice per day, while 48 eyes received EBRT twice daily in fractions of 5.0 Gy (500 rad). Twenty eyes served as untreated controls. All eyes were obtained for histopathologic examination and graded positive if any tumor was present. RESULTS: A dose-dependent inhibition of ocular tumor was observed for EBRT in these transgenic retinoblastoma mice. The tumor control dose for 50% of eyes (TCD(50)) treated with 2.0 Gy fractions of EBRT was 45 Gy (4500 rad) when treatments were administered once daily. A significant increase in tumor control was observed when treatments were administered twice per day at fractions of 1.2 Gy, resulting in a TCD(50) of 33 Gy (3300 rad) (P =.003). A further increase in tumor control was observed when twice-daily EBRT was administered in 5.0 Gy fractions resulting in a TCD(50) of 28 Gy (2800 rad). CONCLUSIONS: Hyperfractionated EBRT safely and effectively controls intraocular retinoblastoma in this transgenic animal model. Use of hyperfractionation allows for a reduction in total radiation delivered dose, while shortening the total treatment time. CLINICAL RELEVANCE: This treatment approach may be applicable in the management of pediatric retinoblastoma by maintaining excellent tumor control, while reducing treatment-associated complications.

External beam radiation "salvage" therapy in transgenic murine retinoblastoma.

OBJECTIVE: To determine the efficacy of low-dose "salvage" external beam radiation therapy (EBRT) following failed subconjunctival carboplatin chemotherapy in a murine model of heritable retinoblastoma. METHODS: Eighty-four eyes from 8-week-old, simian virus 40, T-antigen-positive mice were treated with 6 serial subconjunctival carboplatin injections (100 microg/25 microL). At 12 weeks of age, 64 eyes received EBRT for a total dose of 480 (4.8 Gy), 1200 (12.0 Gy), 1560 (15.6 Gy), or 3000 (30.0 Gy) rad. Twenty eyes received no additional therapy following subconjunctival carboplatin injections. Ten eyes received a total dose EBRT of only 3000 rad. Eight eyes received subconjuctival injections of only an isotonic sodium chloride solution. Ten eyes served as untreated controls. MAIN OUTCOME MEASURES: Eyes were enucleated at 20 weeks to assess the presence of tumor on histopathological examination. RESULTS: Salvage therapy using low-dose EBRT was able to reestablish tumor control in a dose-dependent manner. Increasing the EBRT dose to 3000 rad resulted in 100% tumor control. The dose-dependent curves were significantly different between the treatment groups-EBRT alone vs salvage EBRT after receiving subconjunctival carboplatin injections (P<.001). CONCLUSION: Low-dose hyperfractionated salvage EBRT following failed primary subconjunctival carboplatin chemotherapy is efficacious in the treatment of retinoblastoma in this animal model. Clinical Relevance Salvage EBRT using a reduced total radiation dose could be associated with a radiation-related treatment enhancement in pediatric retinoblastoma.