ABSTRACT
El síndrome de Cri du chat es una alteración cromosómica causada por deleciones en el brazo corto de cromosoma 5, las cuales varían en tamaño, desde muy pequeñas que comprometen solo el locus 5p15.2, hasta la pérdida de todo el brazo corto. Las mutaciones se originan de novo en el 80% a 90% de los casos. Existen dos regiones críticas para el síndrome de Cri du chat; una ubicada en 5p15.3, cuya deleción se manifiesta con el llanto de maullido de gato y retraso en el habla, y otra ubicada en 5p15.2, cuya deleción se manifiesta como microcefalia, hipertelorismo, retraso psicomotor y mental severo. Se han descrito varios genes implicados localizados en estas regiones críticas; entre ellos, TERT, SEMA5A, CTNND2 y MARCHF6, cuya haploinsuficiencia se asocia con los diferentes fenotipos del Cri du chat. En este artículo se describe el caso clínico de una paciente femenina de 8 meses de vida, con características clínicas y un análisis citogenético en mosaico que confirmaron el síndrome de Cri du chat. Este caso es el primero reportado de esta variante en el suroccidente colombiano.
Cri du chat syndrome is a chromosomal disorder caused by deletions in the short arm of chromosome 5, which vary in size, from very small and involving only the 5p15.2 locus, to the loss of the entire short arm. Mutations originate de novo in 80% to 90% of cases. There are two critical regions for Cri du chat syndrome; one located at 5p15.3 with a deletion that is manifested as a cat's cry and speech delay, and another located at 5p15.2 with a deletion that manifests as microcephaly, hypertelorism, severe psychomotor and mental retardation. Several involved genes located in these critical regions have been described; among them, TERT, SEMA5A, CTNND2 and MARCHF6, and whose haploinsufficiency is associated with the different phenotypes of Cri du chat. This article describes the clinical case of an 8-monthold female patient, with clinical characteristics and a mosaic cytogenetic analysis that confirmed Cri du chat syndrome. This case is the first reported of this variant in southwestern Colombia.
Subject(s)
Humans , Chromosomes, Human, Pair 5 , Chromosome Deletion , Cri-du-Chat Syndrome , MosaicismABSTRACT
Resumen Introducción: La incidencia de las anomalías congénitas es de 0,5% dentro de los cuales el 0,1-0,3% corresponden a anomalías cromosómicas estructurales, entre ellas están las translocaciones no balanceadas en las que hay pérdida o ganancia de información genética que da como resultado manifestaciones fenotípicas con compromiso en la salud de quienes las padecen. Reporte de caso: Se describe un paciente escolar con una translocación no balanceada t(5;7) (q22;p15) de origen paterno y sus repercusiones. Discusión: Cuando existen reordenamientos en el material genético, las manifestaciones clínicas están ligadas a la localización de los puntos de ruptura y como consecuencia a los genes que estén incluidos en estos segmentos, tal como se presentó en nuestro caso índice. Conclusiones: Es importante el estudio de estos pacientes ya que deben permanecer en vigilancia médica por el riesgo de desarrollar patologías relacionadas con alteraciones en los genes implicados en el reordenamiento genético.
Abstract Introduction: The incidence of congenital anomalies is 0,5%, wich 0,1 to 0,3% belong to structural chromosomic anomalies, between these are unbalanced translocations in which there are loss or gain of genetic information that results in phenotypic manifestations with health compromise of whom suffer it. Case report: A scholar patient with an unbalanced translocation t(5;7) (q22;p15) of paternal origin and its repercussions is described. Discussion: When there are rearrangements in genetic material, the clinical manifestations are linked to breakpoints localizations and as consequence to the genes included in this segments, as presented in our index case. Conclusions: The study of these patients is important because they must remain under medical surveillance due the risk of developing pathologies related with gene alterations implicated in the genetic rearrangement.
Subject(s)
Humans , Translocation, Genetic , Congenital Abnormalities , Chromosomes, Human, Pair 5 , Chromosomes, Human, Pair 7 , KaryotypeABSTRACT
Resumen Los avances en las técnicas de citogenética han permitido detectar con mayor precisión alteraciones cromosómicas tanto estructurales como de número. La amniocentesis genética es una prueba invasiva que se realiza entre la semana 16 y 20 de gestación que nos permite detectar distintas alteraciones cromosómicas. Presentamos un caso de una paciente que se le realizó a las 18 semanas de gestación la amniocentesis por edad materna avanzada (39 años), evidenciándose en el cariotipo una inversión pericéntrica del cromosoma 5. Se procedió a realizar cariotipos a los padres, ambos normales. De acuerdo con este resultado a la paciente se le realizó ecosonogramas para detectar si el feto presentaba malformaciones y se realizó asesoramiento genético. A continuación, se hizo evaluación del recién nacido y seguimiento durante 4 años para evaluar fenotipo y desarrollo neurológico. Como se comentará, el cromosoma 5 codifica para muchos genes y es responsable de muchas patologías, de las cuales este paciente no presentó ninguna.
Abstract Advances in cytogenetic techniques have made it possible to, more accurately, detect both structural and number chromosomal alterations. Genetic amniocentesis is an invasive test that is performed between week 16 and 20 of gestation that allows us to detect chromosomal alterations. We present a case of a patient who underwent amniocentesis by advanced maternal age (39 years) at 18 weeks of gestation, showing a pericentric inversion of chromosome 5 in the karyotype and proceeded to perform karyotypes of the parents, both normal. According to this result, the patient was screened for fetal malformations and genetic counseling. Newborn evaluation and 4-year follow-up to assess phenotype and neurological development. As discussed, chromosome 5 codes for many genes and is responsible for many pathologies that this patient did not present.
Subject(s)
Humans , Chromosomes, Human, Pair 5 , Prenatal Diagnosis , Pregnancy , GeneticsABSTRACT
5p deletion syndrome, also known as Cri-du-Chat syndrome, is a chromosomal abnormality caused by a deletion in the short arm of chromosome 5. Clinical features of 5p deletion syndrome are difficult to identify prenatally by ultrasound examination, thus most cases of 5p deletion syndrome have been diagnosed postnatally. Here, we report eight cases of 5p deletion syndrome diagnosed prenatally, but were unable to find common prenatal ultrasound findings among these cases. However, we found that several cases of 5p deletion syndrome were confirmed prenatally when karyotyping was performed on the basis of abnormal findings in a prenatal ultrasound scan. Hence, it is necessary to carefully perform prenatal ultrasonography for detection of rarer chromosomal abnormalities as well as common aneuploidy.
Subject(s)
Aneuploidy , Arm , Chromosome Aberrations , Chromosomes, Human, Pair 5 , Cri-du-Chat Syndrome , Karyotyping , Prenatal Diagnosis , Ultrasonography , Ultrasonography, PrenatalABSTRACT
Constitutional interstitial deletions of the long arm of chromosome 5 (5q) are quite rare, and the corresponding phenotype is not yet clearly delineated. Severe mental retardation has been described in most patients who present 5q deletions. Specifically, the interstitial deletion of chromosome 5q33.3q35.1, an extremely rare chromosomal aberration, is characterized by mental retardation, developmental delay, and facial dysmorphism. Although the severity of mental retardation varies across cases, it is the most common feature described in patients who present the 5q33.3q35.1 deletion. Here, we report a case of a de novo deletion of 5q33.3q35.1, 46,XY,del(5)(q33.3q35.1) in an 11-year-old boy with mental retardation; to the best of our knowledge this is the first case in Korea to be reported. He was diagnosed with severe mental retardation, developmental delay, facial dysmorphisms, dental anomalies, and epilepsy. Chromosomal microarray analysis using the comparative genomic hybridization array method revealed a 16-Mb-long deletion of 5q33. 3q35.1(156,409,412-172,584,708)x1. Understanding this deletion may help draw a rough phenotypic map of 5q and correlate the phenotypes with specific chromosomal regions. The 5q33.3q35.1 deletion is a rare condition; however, accurate diagnosis of the associated mental retardation is important to ensure proper genetic counseling and to guide patients as part of long-term management.
Subject(s)
Child , Humans , Male , Arm , Chromosome Aberrations , Chromosomes, Human, Pair 5 , Comparative Genomic Hybridization , Diagnosis , Epilepsy , Genetic Counseling , Intellectual Disability , Korea , Methods , Microarray Analysis , PhenotypeABSTRACT
Chromosomes forming a corresponding ring cannot be clearly defined by conventional cytogenetics or FISH. Karyotypic analyses using whole-genome single nucleotide polymorphism arrays (SNP-A) may result in the identification of previously cryptic lesions and allow for more precise definition of breakpoints. We describe a case of AML with metaphase cells bearing -5, del(11)(q22), and +r. With SNP-A, a 5p-terminal deletion (11 megabases [Mb]), a 5q-terminal deletion (27 Mb), an 11q-interstitial deletion (29 Mb), and a 21q gain (3 Mb) were identified. Therefore, the G-banded karyotype was revised as 46, XY, r(5)(p15. 2q33.2), del(11)(q14.1q23.2), dup(21)(q22.13q22.2)[18]/46,XY[2]. SNP-A could be a powerful tool for characterizing ring chromosomes in which the involved chromosomes or bands cannot be precisely identified by conventional cytogenetics or FISH.
Subject(s)
Humans , Male , Middle Aged , Chromosome Deletion , Chromosomes, Human, Pair 5 , In Situ Hybridization, Fluorescence , Karyotyping , Leukemia, Myeloid, Acute/diagnosis , Metaphase , Oligonucleotide Array Sequence Analysis , Polymorphism, Single Nucleotide , Ring ChromosomesABSTRACT
Cat cry syndrome (cri-du-chat syndrome) is an extremely rare condition characterized by a high shrill cry during infancy, resulting from either the deletion of the short arm of chromosome 5 or unbalanced translocation inherited from a parent. We report the case of a 1-year-old girl with cat cry syndrome associated with cleft lip. The patient showed a ventricular septal defect, cleft lip, growth and mental retardation, micrognathia, ptosis of the eyelids, hypertelorism, epicanthal folds, and a preauricular tag on the right side. A chromosomal study revealed the terminal deletion of chromosome 5 (46, XX, del(p14.2)ish del(5)). Repair of the cleft lip was carried out concurrently with resection of the preauricular tag, and the patient's postoperative course was uneventful.
ABSTRACT
Spinal muscular atrophy(SMA) is a genetic disorder of the motor neurons that cause muscular weakness and muscular atrophy due to anterior horn cell degeneration. Classic spinal muscular atrophy patient is caused by mutation in the chromosome 5(q11.2-q13.3), and the majority of the patient shows homozygous deletion of the telomeric survival motor neuron(SMN) gene in the chromosome 5. Deletion of exon 7 and 8 of the SMN gene and deletion of exon 4 and 5 of the neuronal apoptosis inhibitory protein(NAIP) are typically observed in SMA patients. The SMN protein plays a role in an essential cell metabolism process, the splicing of pre mRNA in the spliceosomes. We report a 7 month old male with SMA. He showed rapidly aggrdvatial muscular weakness and died at 7 months. His DNA analysis proved deletion of exon 7 and 8 of the telomeric copy of the SMN gene.
Subject(s)
Humans , Infant , Male , Anterior Horn Cells , Apoptosis , Chromosomes, Human, Pair 5 , DNA , Exons , Metabolism , Motor Neurons , Muscle Weakness , Muscular Atrophy , Muscular Atrophy, Spinal , Neurons , RNA Precursors , SpliceosomesABSTRACT
BACKGROUND: Recent cytogenetic studies indicated that loss of the long arm of chromosome 5 is a frequent event in small cell lung cancer (SCLC), suggesting the presence of a tumor suppressor gene is its place. To map the precise tumor-suppressor loci on the chromosome arm for further positional cloning efforts, we tested 15 primary SCLCs. METHODS: The DNAs extracted from paraffin-embedded tissue blocks with primary tumor and corresponding control tissue were investigated. Nineteen polymorphic microsatellite markers located in the long arm of chromosome 5 were used in the microsatellite analysis. RESULTS: We found that ten (66.7%) of 15 tumors exhibited LOH in at least one of tested microsatellite markers. Two (13%) of 10 tumors exhibiting LOH lost a larger area in chromosome 5q. LOH was observed in five common deleted regions at 5q. Among those areas, LOH between 5q34-qter and 5q35.2-35.3 was most frequent (75%). LOH was also observed in more than 50% of the tumors at four at other regions, between 5q14-15 and 5q23-31, 5q31.1, 5q31.3-33.3, and 5q34-35. Three of 15 tumors exhibited shifted bands in at least one of the tested microsatellite markers. Shifted bands occurred in 2.5% (7 of 285) of the loci tested. CONCLUSION: Our data demonstrated that at least five tumor-suppressor loci exist in the long arm of chromosome 5 and that they may play an important role in small cell lung cancer tumorigenesis.