Basilar impression and syringomyelia in a patient with tricho-rhino-phalangeal syndrome type I

TRPS1 drives heterochromatic origin refiring and cancer genome evolution

Exploitation of naturally occurring genetic mutations could empower the discovery of novel aspects of established cancer genes. We report here that TRPS1, a gene linked to the tricho-rhino-phalangeal syndrome (TRPS) and recently identified as a potential breast cancer driver, promotes breast carcinogenesis through regulating replication. Epigenomic decomposition of TRPS1 landscape reveals nearly half of H3K9me3-marked heterochromatic origins are occupied by TRPS1, where it encourages the chromatin loading of APC/C, resulting in uncontrolled origin refiring. TRPS1 binds to the genome through its atypical H3K9me3 reading via GATA and IKAROS domains, while TRPS-related mutations affect its chromatin binding, replication boosting, and tumorigenicity. Concordantly, overexpression of wild-type but not TRPS-associated mutants of TRPS1 is sufficient to drive cancer genome amplifications, which experience an extrachromosomal route and dynamically evolve to confer therapeutic resistance. Together, these results uncover a critical function of TRPS1 in driving heterochromatin origin firing and breast cancer genome evolution.

Syringomyelia and vertebral osteochondromas in patients with multiple hereditary exostosis

Involvement of osteochondromas in the spinal canal occurs in patients with multiple hereditary exostosis, but the exact prevalence is unknown. A recent study found an incidence of 68%, with 27% of these lesions encroaching into the spinal canal. We studied MRI findings of 27 patients with multiple hereditary exostosis and found only six (23.1%) patients with osteochondromas arising from the spinal column and three (11.5%) patients with encroachment into the spinal canal. We also found three (11.5%) patients with an incidental syringomyelia. Only five of the nine (55.6%) patients with positive findings on MRI had symptoms prompting the MRI and two patients had significant symptoms that required surgical excision. Although the incidence of spinal osteochondroma in our population is lower than that of previous studies, we found a relatively high incidence of syringomyelia in these patients, which has not been previously reported.

Posterior fossa arachnoid cyst, tonsillar herniation, and syringomyelia in trichorhinophalangeal syndrome Type I

The authors report the case of a patient with Chiari malformation Type I (CM-I) and syringomyelia probably caused by a retrocerebellar arachnoid cyst. The patient's phenotype corresponded to trichorhinophalangeal syndrome Type I. The authors attributed the origin of both the retrocerebellar cyst and the abnormal posterior fossa to endochondral ossification anomalies that occur in this syndrome. The patient's spinal pain was most likely a result of the combination of CM-I and syringomyelia. To the best of the authors' knowledge, this is the first report on the association of CM-I and syringomyelia with a retrocerebellar arachnoid cyst occurring in a patient with trichorhinophalangeal syndrome Type I. The authors discuss the pathogenetic mechanisms involved in the production of tonsillar descent and syringomyelia in this patient, and review the current literature on related conditions that can result in this association.