New insights into the phenotypic spectrum of 14q22q23 deletions: a case report and literature review

14q22.3 duplication including OTX2 in a girl with medulloblastoma: A case report with literature review

Orthodenticle homeobox 2 (OTX2) is a known oncogenic driver of medulloblastoma. Germline duplication of 14q22.3 including OTX2 is a rare condition reported in patients with combined pituitary hormone deficiency, oculo-auriculo-vertebral spectrum, and hemifacial microsomia. There has been one previously published case of a patient carrying a 14q22.3 duplication that included OTX2 with hemifacial microsomia who also developed medulloblastoma. Here, we present a case of a 6-year-old girl with a history of delayed development who was diagnosed with medulloblastoma. Genetic evaluations revealed that she inherited a germline duplication of 14q22.3, which included OTX2. This genetic alteration was passed down from her mother, who also had a history of delayed development. Results from other genetic testing, including exome sequencing, fragile X syndrome, and mtDNA testing, were negative/normal. This is the second report of a 14q22.3 duplication that included OTX2 in a patient with medulloblastoma. Further studies are necessary to establish a clear association.

An Orthodenticle Homeobox 2 (OTX2) Mutation in a Patient With Combined Pituitary Hormone Deficiency, Pituitary Malformation, and Retinitis Pigmentosa

Heterozygous mutations of orthodenticle homeobox 2 (OTX2)can result in ocular malformations, pituitary abnormalities, or hypopituitarism spanning from isolated growth hormone (GH) deficiency to combined pituitary hormone deficiency. We present a patient exhibiting growth and pubertal disturbances, developmental delay, and pigmentary retinopathy. Further examination revealed deficiencies in GH following clonidine stimulation, hypogonadism, and, subsequently, central hypothyroidism. Brain magnetic resonance imaging uncovered hypoplasia of the pituitary and an ectopic pituitary tissue. Sequence analysis of OTX2 identified a novel heterozygous mutation c.555_556dup, p.(Ser186Ilefs*21), indicative of a frameshift mutation. Replacement therapy with recombinant human GH, testosterone enanthate, and levothyroxine was started. Notably, GH therapy resulted in significant catch-up growth. This case report contributes to our comprehension of the molecular and clinical findings, particularly highlighting endocrine manifestations and a rare ophthalmologic manifestation associated with mutations in the OTX2 gene.

Anophthalmia, Global Developmental Delay, and Severe Dysphagia in a Young Girl With 14q22q23 Microdeletion Syndrome

14q22q23 microdeletion syndrome, also called Frias syndrome, is an extremely rare partial deletion of the long arm of chromosome 14 characterized by the anomalies of the pituitary gland, eyes, and hand/foot. Intellectual disability and facial dysmorphism are other common manifestations. Haploinsufficiency of the genes bone morphogenetic protein 4 (BMP4) and orthodenticle homeobox 2 (OTX2) accounts for most of the phenotypic abnormalities seen in these patients. There are only a few cases reported with Frias syndrome in the literature, and there are multiple variations present, which are not well recognized due to different set of genes involved. This case report presents the case of a young child with a deletion in 14q22.2q23.1 region containing both BMP4 and OTX2 genes as well as sineoculis homeobox homolog 1 (SIX1) and sineoculis homeobox homolog 6 (SIX6) genes. The case report illustrates the wide phenotypic findings associated with these genes along with additional unique findings that previously have not been commonly reported.

Chromosome 14 deletions, rings, and epilepsy genes: A riddle wrapped in a mystery inside an enigma

The ring 14 syndrome is a rare condition caused by the rearrangement of one chromosome 14 into a ring-like structure. The formation of the ring requires two breakpoints and loss of material from the short and long arms of the chromosome. Like many other chromosome syndromes, it is characterized by multiple congenital anomalies and developmental delays. Typical of the condition are retinal anomalies and drug-resistant epilepsy. These latter manifestations are not found in individuals who are carriers of comparable 14q deletions without formation of a ring (linear deletions). To find an explanation for this apparent discrepancy and gain insight into the mechanisms leading to seizures, we reviewed and compared literature cases of both ring and linear deletion syndrome with respect to both their clinical manifestations and the role and function of potentially epileptogenic genes. Knowledge of the epilepsy-related genes in chromosome 14 is an important premise for the search of new and effective drugs to combat seizures. Current clinical and molecular evidence is not sufficient to explain the known discrepancies between ring and linear deletions.