A FEMALE CASE OF SPINOCEREBELLAR ATAXIA TYPE 10 WITH SUICIDAL BEHAVIOR AND ENDOCRINPATHIES ASSOCIATED WITH A MASSIVE EXPANSION (ATTCT) OF THE GENE ATXN10.

Spinocerebellar ataxia type 10 (SCA10) is characteri- zed by ataxia, psychiatric disorders convulsions, and locus at 22q13.311. It is caused by expansions between 800-4500 pentanucleotide ATTCT repeats in intron 9 of the ATXN10 gene1-2. The ATXN10 gene encodes ataxin-10 protein (known as E46L) involved in neuritogenesis 1. SCA10 has a founder origin in Mexican, Brazilian, Argentine populattons but is rare in others.

A clinical report of the massive CAG repeat expansion in spinocerebellar ataxia type 2: Severe onset in a Mexican child and review previous cases.

The spinocerebellar ataxia type 2 is a neurodegenerative disease with autosomal dominant inheritance; clinically characterized by progressive cerebellar ataxia, slow ocular saccades, nystagmus, ophthalmoplegia, dysarthria, dysphagia, cognitive deterioration, mild dementia, peripheral neuropathy. Infantile onset is a rare presentation that only has been reported in four instances in the literature. In the present work a boy aged 5 years 7 months was studied due to horizontal gaze-evoked nystagmus, without saccades, ataxic gait, dysarthria, dysphagia, dysmetria, generalized spasticity mainly pelvic, bilateral Babinsky. The mother aged 27 years-old presented progressive cerebellar ataxia, dysarthria, dysmetria, dysdiadochokinesis, limb ataxia and olivopontocerebellar atrophy. The molecular analysis was made by identifying the expansion repeats in tandem by long PCR to analyze the repeats in the ATXN2 gene. We found an extreme CAG expansion repeats of ~884 repeats in the child. We describe a Mexican child affected by SCA2 with an infantile onset, associated with a high number of CAG repeats previously no reported and anticipation phenomenon.

Extracranial midline defects in a patient with craniofrontonasal syndrome with a novel EFNB1 mutation.

We report a female patient with craniofrontonasal syndrome (CFNS) who in addition showed other cranial and extracranial midline defects including partial corpus callosum agenesis, ocular melanocytosis, pigmentary glaucoma, duplex collecting system, uterus didelphys, and septate vagina. She was found to have a novel pathogenic variant in exon 5 of EFNB1, c.646G>T (p.Glu216*) predicted to cause premature protein truncation. From our review, we found at least 39 published CFNS patients with extracranial midline defects, comprising congenital diaphragmatic hernia, congenital heart defects, umbilical hernia, hypospadias, and less frequently, sacrococcygeal teratomas, and internal genital anomalies in females. These findings support that the EFNB1 mutations have systemic consequences disrupting morphogenetic events at the extracranial midline. Though these are not rigorously included as midline defects, we found at least 10 CFNS patients with congenital anomalies of the kidney and urinary tract, all females. Additionally, uterus didelphys and ocular melanocytosis observed in our patient are proposed also as a previously unreported EFNB1-related midline defects. In addition, this case may be useful for considering the intentional search for genitourinary anomalies in future patients with CFNS, which will be helpful to define their frequency in this entity.

Aproximación genética en la esclerosis lateral amiotrófica.

The superoxide dismutase type 1 (SOD1) gene is the first responsible gene mapped in amyotrophic lateral sclerosis type 1 (ALS1), and it codes for the enzyme SOD1, the function of which is to protect against damage mediated by free radicals deriving from oxygen. Its pathophysiological mechanism in ALS1 is related to ischemia. Several molecular studies of the SOD1 gene show that point mutations are the most frequent. The most common mutations in familial cases are p.A4V, p.I113Y, p.G37R, p.D90A and p.E100G, which account for more than 80% of cases, although intronic mutations have also been described as responsible for ALS1. Sporadic cases are explained by mutations in other genes such as SETX and C9orf72. ALS1 is a complex disease with genetic heterogeneity. On the other hand, familial and sporadic cases have a different etiology, which is explained by molecular heterogeneity and multiple pathogenic mechanisms that lead to ALS1; oxidative stress and ischemia are not the only cause. In Mexico, ALS molecular genetics studies are scarce. Clinical studies show an increase in cytokines such as adipsin in cerebrospinal fluid.

El gen SOD1 es el primer gen responsable mapeado en la esclerosis lateral amiotrófica tipo 1 (ELA1) y codifica para la enzima superóxido dismutasa tipo 1 (SOD1), cuya función es proteger del daño mediado de los radicales libres derivados del oxígeno; su mecanismo fisiopatológico en ELA1 se relaciona con isquemia. Diversos estudios moleculares del gen SOD1 muestran que las mutaciones puntuales son las más frecuentes. Las mutaciones más comunes en los casos familiares son p.A4V, p.I113Y, p.G37R, p.D90A y p.E100G, que explican más de 80 % de los casos, aunque también se han descrito mutaciones intrónicas como responsables de esclerosis lateral amiotrófica tipo 1. Los casos esporádicos se explican por mutaciones en otros genes como SETX y C9orf72. ELA1 es una enfermedad compleja con heterogeneidad genética. Por otra parte, los casos familiares y esporádicos tienen etiología distinta, lo cual se explica por la heterogeneidad molecular y múltiples mecanismos patogénicos que conducen a ELA1; el estrés oxidativo y la isquemia no son la única causa. En México son escasos los estudios de genética molecular de esclerosis lateral amiotrófica. Los estudios clínicos muestran incremento de citocinas como la adipsina en el líquido cefalorraquídeo.

Genetic approach in amyotrophic lateral sclerosis

The superoxide dismutase type 1 (SOD1) gene is the first responsible gene mapped in amyotrophic lateral sclerosis type 1 (ALS1), and it codes for the enzyme SOD1, the function of which is to protect against damage mediated by free radicals deriving from oxygen. Its pathophysiological mechanism in ALS1 is related to ischemia. Several molecular studies of the SOD1 gene show that point mutations are the most frequent. The most common mutations in familial cases are p.A4V, p.I113Y, p.G37R, p.D90A and p.E100G, which account for more than 80% of cases, although intronic mutations have also been described as responsible for ALS1. Sporadic cases are explained by mutations in other genes such as SETX and C9orf72. ALS1 is a complex disease with genetic heterogeneity. On the other hand, familial and sporadic cases have a different etiology, which is explained by molecular heterogeneity and multiple pathogenic mechanisms that lead to ALS1; oxidative stress and ischemia are not the only cause. In Mexico, ALS molecular genetics studies are scarce. Clinical studies show an increase in cytokines such as adipsin in cerebrospinal fluid.

New subtype of familial achondrogenesis type IA (Houston-Harris).

BACKGROUND: Achondrogenesis is a skeletal dysplasia characterized primarily by short stature, severe micromelia, short and narrow chest, prematurity, polyhydramnios, fetal hydrops, and in utero or neonatal death. Based on the radiological and histopathological findings, there are three types of achondrogenesis: type 1A (Houston-Harris), type 1B (Fraccaro) and type 2 (Langer-Saldino). CLINICAL CASE: A premature female product was studied whose clinical, radiological and histopathological characteristics were compatible with achondrogenesis Type 1A. The family information allowed us to conclude that the 4 products of the 6 previous pregnancies were affected. Statistical analysis in at least 4 families previously described, including this family case showed significant differences between expected and observed number of members, being incongruent with an autosomal recessive mode of inheritance previously reported. CONCLUSIONS: therefore, it could be considered a new subtype of achondrogenesis type 1A due to the presence of a preferential germline mutation.

INTRODUCCIÓN: La acondrogénesis es una displasia esquelética que se caracteriza principalmente por talla baja, micromelia grave, tórax corto y estrecho, prematurez, polihidramnios, hidropesía fetal y muerte fetal in utero o neonatal. Según los hallazgos radiológicos e histopatológicos existen tres tipos de acondrogénesis: tipo 1A (Houston-Harris), tipo 1B (Fraccaro) y tipo 2 (Langer-Saldino). CASO CLÍNICO: Se sometió a estudio a un producto femenino prematuro cuyas características clínicas, radiológicas e histopatológicas fueron compatibles con acondrogénesis tipo 1A. La información familiar permitió concluir que los cuatro productos de los seis embarazos previos se encontraban afectados. El análisis estadístico en por lo menos cuatro familias previamente descritas, incluyendo este caso familiar, mostró diferencias significativas entre el número de miembros esperado y el observado, siendo incongruente con el modo de herencia autosómico recesivo previamente reportado. CONCLUSIONES: Podría considerarse un nuevo subtipo de acondrogénesis tipo 1A debida a la presencia de una mutación germinal preferencial.

[Ataxina-2, nuevo blanco en enfermedades genéticas complejas].

El gen de la ataxina-2 es un blanco en la patogénesis de enfermedades complejas, entre ellas los factores de riesgo cardiovascular y enfermedades neurodegenerativas. El gen ATXN2 tiene un VNTR en el exón 1, cuya expansión por encima de las 30 repeticiones provoca al desarrollo de ataxia espinocerebelosa tipo 2; las repeticiones en rango menor se asocian con diabetes tipo 2 o esclerosis lateral amiotrófica. También este locus está ligado con fenotipos metabólicos e inflamatorios. En conclusión, el gen puede ser utilizado como marcador clínico de fenotipos metabólicos y neurológicos, lo cual está relacionado con su efecto pleiotrópico.

The ataxin 2 gene is a target in the pathogenesis of complex diseases, including cardiovascular risk factors and neurodegenerative diseases. ATXN2 gen has VNTR in exon 1, whose expansion exceeding 30 repetitions leads to the development of spinocerebellar ataxia type 2; lower-range repetitions are associated with type 2 diabetes or amyotrophic lateral sclerosis. This locus is also linked with metabolic and inflammatory phenotypes. In conclusion, this gene can be used as a clinical marker of metabolic and neurological phenotypes, which is related to its pleiotropic effect.

Ataxina-2, nuevo blanco en enfermedades genéticas complejas / Ataxin-2, a new target in complex genetic diseases

Resumen El gen de la ataxina-2 es un blanco en la patogénesis de enfermedades complejas, entre ellas los factores de riesgo cardiovascular y enfermedades neurodegenerativas. El gen ATXN2 tiene un VNTR en el exón 1, cuya expansión por encima de las 30 repeticiones provoca al desarrollo de ataxia espinocerebelosa tipo 2; las repeticiones en rango menor se asocian con diabetes tipo 2 o esclerosis lateral amiotrófica. También este locus está ligado con fenotipos metabólicos e inflamatorios. En conclusión, el gen puede ser utilizado como marcador clínico de fenotipos metabólicos y neurológicos, lo cual está relacionado con su efecto pleiotrópico.

Abstract The ataxin 2 gene is a target in the pathogenesis of complex diseases, including cardiovascular risk factors and neurodegenerative diseases. ATXN2 gen has VNTR in exon 1, whose expansion exceeding 30 repetitions leads to the development of spinocerebellar ataxia type 2; lower-range repetitions are associated with type 2 diabetes or amyotrophic lateral sclerosis. This locus is also linked with metabolic and inflammatory phenotypes. In conclusion, this gene can be used as a clinical marker of metabolic and neurological phenotypes, which is related to its pleiotropic effect.

Genetic approach in amyotrophic lateral sclerosis.

The superoxide dismutase type 1 (SOD1) gene is the first responsible gene mapped in amyotrophic lateral sclerosis type 1 (ALS1), and it codes for the enzyme SOD1, the function of which is to protect against damage mediated by free radicals deriving from oxygen. Its pathophysiological mechanism in ALS1 is related to ischemia. Several molecular studies of the SOD1 gene show that point mutations are the most frequent. The most common mutations in familial cases are p.A4V, p.I113Y, p.G37R, p.D90A and p.E100G, which account for more than 80% of cases, although intronic mutations have also been described as responsible for ALS1. Sporadic cases are explained by mutations in other genes such as SETX and C9orf72. ALS1 is a complex disease with genetic heterogeneity. On the other hand, familial and sporadic cases have a different etiology, which is explained by molecular heterogeneity and multiple pathogenic mechanisms that lead to ALS1; oxidative stress and ischemia are not the only cause. In Mexico, ALS molecular genetics studies are scarce. Clinical studies show an increase in cytokines such as adipsin in cerebrospinal fluid.

New subtype of familial achondrogenesis type IA (Houston-Harris). / Nuevo subtipo de acondrogénesis familiar tipo IA (Houston-Harris)

Background: Achondrogenesis is a skeletal dysplasia characterized primarily by short stature, severe micromelia, short and narrow chest, prematurity, polyhydramnios, fetal hydrops, and in utero or neonatal death. Based on the radiological and histopathological findings, there are three types of achondrogenesis: type 1A (Houston-Harris), type 1B (Fraccaro) and type 2 (Langer-Saldino). Clinical case: A premature female product was studied whose clinical, radiological and histopathological characteristics were compatible with achondrogenesis Type 1A. The family information allowed us to conclude that the 4 products of the 6 previous pregnancies were affected. Statistical analysis in at least 4 families previously described, including this family case showed significant differences between expected and observed number of members, being incongruent with an autosomal recessive mode of inheritance previously reported. Conclusions: therefore, it could be considered a new subtype of achondrogenesis type 1A due to the presence of a preferential germline mutation.

Introducción: La acondrogénesis es una displasia esquelética que se caracteriza principalmente por talla baja, micromelia grave, tórax corto y estrecho, prematurez, polihidramnios, hidropesía fetal y muerte fetal in utero o neonatal. Según los hallazgos radiológicos e histopatológicos existen tres tipos de acondrogénesis: tipo 1A (Houston-Harris), tipo 1B (Fraccaro) y tipo 2 (Langer-Saldino). Caso clínico: Se sometió a estudio a un producto femenino prematuro cuyas características clínicas, radiológicas e histopatológicas fueron compatibles con acondrogénesis tipo 1A. La información familiar permitió concluir que los cuatro productos de los seis embarazos previos se encontraban afectados. El análisis estadístico en por lo menos cuatro familias previamente descritas, incluyendo este caso familiar, mostró diferencias significativas entre el número de miembros esperado y el observado, siendo incongruente con el modo de herencia autosómico recesivo previamente reportado. Conclusiones: Podría considerarse un nuevo subtipo de acondrogénesis tipo 1A debida a la presencia de una mutación germinal preferencial.

Prevalence of orofacial clefts and risks for nonsyndromic cleft lip with or without cleft palate in newborns at a university hospital from West Mexico.

We determined the overall prevalence of typical orofacial clefts and the potential risks for nonsyndromic cleft lip with or without cleft palate in a university hospital from West México. For the prevalence, 227 liveborn infants with typical orofacial clefts were included from a total of 81,193 births occurred during the period 2009-2016 at the "Dr. Juan I. Menchaca" Civil Hospital of Guadalajara (Guadalajara, Jalisco, Mexico). To evaluate potential risks, a case-control study was conducted among 420 newborns, including only those 105 patients with nonsyndromic cleft lip with or without cleft palate (cases), and 315 infants without birth defects (controls). Data were analyzed using multivariable logistic regression analysis expressed as adjusted odds ratio with 95% confidence intervals . The overall prevalence for typical orofacial clefts was 28 per 10,000 (95% confidence interval: 24.3-31.6), or 1 per 358 live births. The mean values for the prepregnancy weight, antepartum weight, and pre-pregnancy body mass index were statistically higher among the mothers of cases. Infants with nonsyndromic cleft lip with or without cleft palate had a significantly higher risk for previous history of any type of congenital anomaly (adjusted odds ratio: 2.7; 95% confidence interval: 1.4-5.1), history of a relative with cleft lip with or without cleft palate (adjusted odds ratio: 19.6; 95% confidence interval: 8.2-47.1), and first-trimester exposures to progestogens (adjusted odds ratio: 6.8; 95% CI 1.8-25.3), hyperthermia (adjusted odds ratio: 3.4; 95% confidence interval: 1.1-10.6), and common cold (adjusted odds ratio: 3.6; 95% confidence interval: 1.1-11.9). These risks could have contributed to explain the high prevalence of orofacial clefts in our region of Mexico, emphasizing that except for history of relatives with cleft lip with or without cleft palate, most are susceptible of modification.

Epidemiología genética sobre las teorías causales y la patogénesis de la diabetes mellitus tipo 2.

Diabetes mellitus type 2 (DM2) is a worldwide public health problem. The etiology of the disease is multifactorial and is characterized by great heterogeneity of metabolic disorders. The most common are the insufficient production of insulin, insulin resistance and impaired incretin system. The specialist must understand the multi-causal nature of DM2 in the post-genomic era. This nature is determined by the additive effect of genes and environment, so there is no simple genetic epidemiological model to explain the inheritance pattern. Hence the need to establish the proportion of disease that is determined by genes and the contribution of environmental factors, the combination of which regulates the threshold or tolerance level for diabetes development. Given this complexity in DM2 in this work are discussed the various existing theories of causality of this disease, which will permit us to understand the interaction between the environment and the human genome, and also to know how risk factors or predisposition to this disease influence, laying the grounds that delimit environment interaction with the genome.

El polimorfismo (CAG)n del gen ATXN2, nuevo marcador de susceptibilidad para diabetes mellitus tipo 2 / (CAG)n polymorphism of the ATXN2 gene, a new marker of susceptibility for type 2 diabetes mellitus

Objetivo. Estimar si hay asociación del repetido (CAG)n del gen ATXN2 en población mexicana con diabetes mellitus (DM) tipo 2. Métodos. Estudio epidemiológico de casos y controles. Se incluyeron personas sanas y personas diabéticas. La detección de la expansión (CAG)n se realizó por reacción en cadena de la polimerasa (PCR)-punto final. Los productos de PCR se analizaron mediante electroforesis (PAGE al 8%) y tinción con nitrato de plata. Resultados. La distribución de alelos del trinucleótido (CAG)n en la población analizada resultó similar a la reportada en el centro del país. El alelo más frecuente es el de 22 repetidos; sin embargo, hay asociación con los portadores de los repetidos largos dentro del rango normal con diabetes. Conclusiones. Los resultados sugieren que el repetido (CAG)n del gen de ATXN2 podría ser un factor causal de DM tipo 2.

Objective. Estimate whether there is an association between the (CAG)n repeat in the ATXN2 gene in the Mexican population and type 2 diabetes mellitus (DM). Methods. Epidemiological case-control study, including healthy people and diabetics. (CAG)n expansion was detected by end-point polymerase chain reaction (PCR). PCR outputs were analyzed by electrophoresis (PAGE 8%) and silver nitrate staining. Results. (CAG)n nucleotide allele distribution in the study population was similar to that reported in central Mexico. The 22-repeat allele is the most frequent; however, there is an association with carriers of long repeats in the normal range with diabetes. Conclusions. The results sugge