Aplicación de Hibridación In Situ Fluorescente (FISH) en pacientes con sospecha clínica de Síndrome de Deleción 22q11. 2 (SD22q11. 2) / Applying Fluorescent in situ hy-bridiza on (FISH) in patients with suspected clinical signs of 22q11. 2 dele on syndrome (DS22q11. 2)

El SD22q11.2 está asociado a síndromes de DiGeorge, velocardiofacial, facioconotruncal y Cayler, reconocidos con la misma etiología: microdeleción 22q11.2. El fenotipo es variable y presenta cardiopatía conotruncal (CC), dismorfias faciales, anomalías palatinas, inmunodeficiencias y trastornos del neurodesarrollo. Las manifestaciones endocrinológicas que predominan son talla baja, hipocalcemia neonatal asociada a hipoparatiroidismo y disfunción tiroidea. El 90% de los afectados presenta una deleción típica de 3-Mb, mientras que el resto tiene deleciones de menor tamaño o deleción localizada más distal a la región crítica . El objetivo del trabajo es identificar en una cohorte de 63 pacientes con sospecha clínica de SD22q11.2, la presencia de la microdeleción 22q11.2 empleando como método diagnóstico la técnica de FISH y describir brevemente las características clínicas más prevalentes que presentan los pacientes con resultado de FISH positivo y negativo. La microdeleción 22q11.2 se identificó en el 38% (24/63) de los pacientes estudiados. Las características clínicas más prevalentes en este grupo fueron las cardiopatías congénitas conotruncales (95,6%), microcefalia (50%), inmunodeficiencias (50%), hipocalcemia (48,8%), anomalías del paladar (45,8%), retraso del desarrollo y déficit cognitivo (41,5%). En nuestro hospital, el algoritmo diagnóstico para la detección de la microdeleción 22q11.2 es el cariotipo de alta resolución y el estudio por la técnica de FISH.

DS22q11.2 is associated with a wide spectrum of clinical disorders (DiGeorge, velocardiofacial, facioconotrunal and Cayler syndromes) known to arise from the same etiology 22q11.2 microdeletion The phenotype is variable and includes conotruncal cardiac defect (CCD), facial phenotype, palate anomalies, inmunodeficiency and developmental disorders. The endocrine manifestations are short stature (ST), neonatal hypocalcemia due to hypoparathyroidism, and thyroid dysfunction. In 90% of patients with 22q11.1 deletion a common 3-Mb deletion has been found, whereas the rest of cases share a smaller deletion or more distal atypical deletions. The aim of the present study was to identify the 22q11.2 microdeletion by FISH in 63 patients from the Genetic and Endocrinology Division between 2002 and 2017 who had more than one clinical feature of DS22q11. 2. High resolution karyotype and fluorescent in situ hybridization (FISH) were performed with different commercial probes. The 22q11.2 microdeletion was demonstrated in 24/63 patients (38%). The more relevant clinical features in this group were: conotruncal cardiac defect (95.6%), microcephaly (50%), immunodeficiency (50%), hypocalcaemia (48.8%) palate anomalies (45.8%), development delay and cognitive deficit (41.5%). In our hospital, the diagnostic algorithm for the detection of the 22q11.2 microdeletion is the high resolution karyotype and the study by the FISH technique.

An unusual translocation, t(1;11)(q21;q23), in a case of chronic myeloid leukemia with a cryptic Philadelphia chromosome.

Chronic myeloid leukemia (CML) is characterized by the translocation t(9;22)(q34;q11) [Philadelphia (Ph) chromosome). Although not frequently occurring, additional chromosome abnormalities (ACAs) can be detected at diagnosis and a number have been associated with an adverse cytogenetic and molecular outcome. The present study reports a case of CML presenting with the translocation t(1;11)(q21;q23) and a cryptic Ph chromosome. The presence of ACAs could generate greater genetic instability, promoting the emergence of further alterations. The present findings suggest that t(1;11)(q21;q23) can prevent a good response to tyrosine kinase inhibitor (TKI) therapy developing a primary resistance. In the present patient, at a recent follow-up, the T315I mutation was detected. This mutation confers full resistance to all available TKI, except ponatinib, which was not a therapeutic option due to comorbidities.

Origin and molecular organization of supernumerary chromosomes of Prochilodus lineatus (characiformes, prochilodontidae) obtained by DNA probes.

In Prochilodus lineatus B-chromosomes are visualized as reduced size extra elements identified as microchromosomes and are variable in morphology and number. We describe the specific total probe (B-chromosome probe) in P. lineatus obtained by chromosome microdissection and a whole genomic probe (genomic probe) from an individual without B-chromosome. The specific B-chromosome was scraped and processed to obtain DNA with amplification by DOP-PCR, and so did the genomic probe DNA. Fluorescence in situ hybridization using the B-chromosome probe labeled with dUTP-Tetramethyl-rhodamine and the genomic probe labeled with digoxigenin-FITC permitted to establish that in this species supernumerary chromosomes with varying number and morphology had different structure of chromatin when compared to that of the regular chromosomes or A complement, since only these extra elements were labeled in the metaphases. The present findings suggest that modifications in the chromatin structure of B-chromosomes to differentiate them from the A chromosomes could occur along their dispersion in the individuals of the population.

Variabilidad fenotípica en pacientes 47, XXX: presentación de cuatro casos nuevos / Phenotypic variability in 47, XXX patients: clinical report of four new cases

El síndrome 47, XXX se debe a un cromosoma extra del par sexual; su incidencia es de 1 en 1000 recién nacidas vivas. Sin embargo, este síndrome no suele sospecharse al nacimiento ni en la infancia. Muchas de estas pacientes son diagnosticadas durante la edad adulta por falla ovárica precoz o esterilidad, debido a la falta de características clínicas específicas .Este trabajo describe cuatro casos de pacientes 47, XXX y su variabilidad fenotípica.

The 47, XXX karyotype has a frequency of 1 in 1000 female newborns. However, this karyotype is not usually suspected at birth or childhood. These patients are usually diagnosed duringadulthood when they develop premature ovarian failure or infertility, because the early phenotype doesn't have anyspecific features. The study describes four cases and the clinical variability of the 47, XXX karyotype.

Variabilidad fenotípica en pacientes 47, XXX: presentación de cuatro casos nuevos / Phenotypic variability in 47, XXX patients: clinical report of four new cases

El síndrome 47, XXX se debe a un cromosoma extra del par sexual; su incidencia es de 1 en 1000 recién nacidas vivas. Sin embargo, este síndrome no suele sospecharse al nacimiento ni en la infancia. Muchas de estas pacientes son diagnosticadas durante la edad adulta por falla ovárica precoz o esterilidad, debido a la falta de características clínicas específicas .Este trabajo describe cuatro casos de pacientes 47, XXX y su variabilidad fenotípica.(AU)

The 47, XXX karyotype has a frequency of 1 in 1000 female newborns. However, this karyotype is not usually suspected at birth or childhood. These patients are usually diagnosed duringadulthood when they develop premature ovarian failure or infertility, because the early phenotype doesnt have anyspecific features. The study describes four cases and the clinical variability of the 47, XXX karyotype.(AU)

[Phenotypic variability in 47, XXX patients: Clinical report of four new cases]. / Variabilidad fenotípica en pacientes 47, XXX: Presentación de cuatro casos nuevos.

The 47, XXX karyotype has a frequency of 1 in 1000 female newborns. However, this karyotype is not usually suspected at birth or childhood. These patients are usually diagnosed during adulthood when they develop premature ovarian failure or infertility, because the early phenotype doesn t have any specific features. The study describes four cases and the clinical variability of the 47, XXX karyotype.

Chromosomal features of nucleolar dominance in hybrids between the Neotropical fish Leporinus macrocephalus and Leporinus elongatus (Characiformes, Anostomidae).

In the present study, the chromosomal mechanisms of nucleolar dominance were analyzed in the hybrid lineage "Piaupara," which resulted from crossing the Leporinus macrocephalus female (Piauçu) and L. elongatus male (Piapara) fish. The analyses demonstrated that, in the hybrid, the nucleolar region inherited from L. elongatus presented higher activity, with expression in 100% of the cells, whereas the nucleolar region from L. macrocephalus appeared active at a frequency of 11.6%. The FISH technique with an 18S probe showed that the ribosomal DNA of the nucleolar region was not lost in the hybrid, and the results therefore demonstrated invariable marks in two chromosomes, each originating from one parent. An interesting difference between the nucleolar regions of the parental species was the association of the NOR with heterochromatic blocks (repetitive DNA) in L. elongatus, which could act as a determinative element in the establishment of this process.

Chromosomal location of 18S and 5S rDNA sites in Triportheus fish species (Characiformes, Characidae).

The location of 18S and 5S rDNA sites was determined in eight species and populations of the fish genus Triportheus by using fluorescent in situ hybridization (FISH). The males and females of all species had 2n = 52 chromosomes and a ZZ/ZW sex chromosome system. A single 18S rDNA site that was roughly equivalent to an Ag-NOR was detected on the short arms of a submetacentric pair in nearly all species, and up to two additional sites were also observed in some species. In addition, another 18S rDNA cluster was identified in a distal region on the long arms of the W chromosome; this finding corroborated previous evidence that this cluster would be a shared feature amongst Triportheus species. In T. angulatus, a heterozygotic paracentric inversion involving the short arms of one homolog of a metacentric pair was associated with NORs. The 5S rDNA sites were located on the short arms of a single submetacentric chromosomal pair, close to the centromeres, except in T. auritus, which had up to ten 5S rDNA sites. The 18S and 5S rDNA sites were co-localized and adjacent on the short arms of a chromosomal pair in two populations of T. nematurus. Although all Triportheus species have a similar karyotypic macrostructure, the results of this work show that in some species ribosomal genes may serve as species-specific markers when used in conjunction with other putatively synapomorphic features.

Chromosomal location of 18S and 5S rDNA sites in Triportheus fish species (Characiformes, Characidae)

The location of 18S and 5S rDNA sites was determined in eight species and populations of the fish genus Triportheus by using fluorescent in situ hybridization (FISH). The males and females of all species had 2n = 52 chromosomes and a ZZ/ZW sex chromosome system. A single 18S rDNA site that was roughly equivalent to an Ag-NOR was detected on the short arms of a submetacentric pair in nearly all species, and up to two additional sites were also observed in some species. In addition, another 18S rDNA cluster was identified in a distal region on the long arms of the W chromosome; this finding corroborated previous evidence that this cluster would be a shared feature amongst Triportheus species. In T. angulatus, a heterozygotic paracentric inversion involving the short arms of one homolog of a metacentric pair was associated with NORs. The 5S rDNA sites were located on the short arms of a single submetacentric chromosomal pair, close to the centromeres, except in T. auritus, which had up to ten 5S rDNA sites. The 18S and 5S rDNA sites were co-localized and adjacent on the short arms of a chromosomal pair in two populations of T. nematurus. Although all Triportheus species have a similar karyotypic macrostructure, the results of this work show that in some species ribosomal genes may serve as species-specific markers when used in conjunction with other putatively synapomorphic features.

Uses and limitations of two molecular cytogenetic techniques for the study of arrested embryos obtained through assisted reproduction technology.

We studied chromosomal abnormalities in arrested embryos produced by assisted reproductive technology with fluorescence in situ hybridization (FISH) and comparative genomic hybridization (CGH) in order to determine the best technique for evaluating chromosomal aneusomies to be implemented in different situations. We examined individual blastomeres from arrested embryos by FISH and arrested whole embryos by CGH. All of the 10 FISH-analyzed embryos gave results, while only 7 of the 30 embryos analyzed by CGH were usable. Fifteen of the 17 embryos were chromosomally abnormal. CGH provided more accurate data for arrested embryos; however, FISH is the technique of choice for screening in preimplantation genetic diagnosis, because the results can be obtained within a day, while the embryos are still in culture.