Hamster DAX1: Molecular insights, specific expression, and its role in the Harderian gland.

DAX1 plays an essential role in the differentiation and physiology of the Hypothalamic-Pituitary-Adrenal-Gonadal (HPAG) axis during embryogenesis. However, in adult tissues, in addition to the HPAG axis, evidence has not been found for its differential expression and function. We isolated the DAX1 cDNA to analyze its tissue localization and gene expression profiles in male and female hamsters' Harderian glands (HGs), Mesocricetus auratus. The isolated cDNA clone contains 1848 base pairs (bp), and a 1428-bp open reading frame (ORF) encodes a 476 amino acid protein. Sequence alignments and the phylogenetic tree display a relevant percentage of similarity with human (66%), rat (81%), and mouse (84%) sequences. In adult tissues, the mRNA distribution demonstrated that DAX1 is present in testis, ovaries, and male and female HGs. The highest expression profiles were identified in the adrenal glands, where females exhibit higher mRNA levels than males. The sexually dimorphic expression of DAX1 in adrenals suggests that its presence could be associated with regulating, functioning, and maintaining this endocrine tissue. These findings indicate that the DAX1 gene is limitedly expressed in adult tissues. In the HGs, we demonstrate the absence of sexually dimorphic gene expression. Our results suggest that DAX1 might have an additional physiological function outside of the HPAG axis, specifically in the HG, which may be required for the regulation of intracrine steroidogenesis, secretion, and maintenance of exocrine tissue.

Harderian SOX9: Molecular characterization and its dimorphic expression in hamster.

The molecular action of SOX9 can promote lipogenesis. Because the hamster Harderian gland (HG) synthesizes lipids and exhibits sexual dimorphism, this study aimed to identify and characterize Harderian SOX9. We examined the tissue distribution and expression profiles of SOX9 in hamster Mesocricetus auratus HGs. The full-length SOX9 cDNA sequence [3649-base pairs (bp)] contains an 81-bp 5' untranslated region (UTR), a 3' UTR of 2044-bp, an open reading frame (ORF) of 1524-bp, and a polyadenylation signal (AATAAA) at 19-bp upstream of poly(A) tail. The cDNA encodes a 507 amino acid protein containing the potential DNA-binding domain known as the HMG box. BLAST analysis revealed 99%, 99%, and 97% identity with the SOX9 of mouse, rat, and human, respectively. High expression levels were also observed in the testis, cerebellum, and hypothalamus. qPCR analysis demonstrated that SOX9 is expressed more abundantly in the HGs of males than in females. Sexually dimorphic expression of SOX9 suggests that differential expression between male and female HGs could be under the regulation of sex steroids. SOX9 might play a similar role in regulating exocrine secretions of lipids; these could occur downstream of FGF signaling - as found during embryogenesis - and/or androgen signaling.

Corrigendum to "isolation and sex steroid effects on the expression of the ATP-binding cassette transporter ABCB6 in Harderian glands of hamster (Mesocricetus auratus)" [Comparative Biochemistry and Physiology, Part A 232 (2019) 40-46].

ATP-Binding Cassette, subfamily B, member 6 (ABCB6) is a transporter that is upregulated by elevated intracellular porphyrin concentrations. In the Harderian gland (HG), the synthesis of porphyrins appears to be under the influence of gonadal steroids and to exhibit a dimorphic pattern. To explore whether ABCB6 is also influenced by sex steroids, we isolated its specific cDNA sequence and investigated its mRNA levels in the HGs of hamsters. ABCB6's cDNA sequence presents an open reading frame (ORF) of 2529 bp that encodes a predicted 842-amino acid (aa) protein with a molecular weight of 93 kDa. Multiple sequence alignments showed that ABCB6's aa sequence is highly conserved and shares the highest homology (93%) with mouse ABCB6. RT-qPCR analysis indicated that ABCB6 is expressed in all the tissues examined, exhibiting high expression levels in the liver, adrenal glands, and testis. The mRNA concentrations of ABCB6 in HGs were very similar between males and in females; similarly, gonadectomy and treatment with sex steroids appear to scarcely affect ABCB6 mRNA levels. The intraglandular content of ABCB6 mRNA showed discrete, though non-significant, variations through the estrous cycle. The results provide evidence that gonadal steroids have a minimal physiological role on the regulation of ABCB6 expression and might indicate that this transporter has a small effect on porphyrin trafficking in the HGs of hamsters. The authors would like to apologise for any inconvenience caused.

Isolation and sex steroid effects on the expression of the ATP-binding cassette transporter ABCB6 in Harderian glands of hamster (Mesocricetus auratus).

ATP-Binding Cassette, subfamily B, member 6 (ABCB6) is a transporter that is upregulated by elevated intracellular porphyrin concentrations. In the Harderian gland (HG), the synthesis of porphyrins appears to be under the influence of gonadal steroids and to exhibit a dimorphic pattern. To explore whether ABCB6 is also influenced by sex steroids, we isolated its specific cDNA sequence and investigated its mRNA levels in the HGs of hamsters. ABCB6's cDNA sequence presents an open reading frame (ORF) of 2529 bp that encodes a predicted 842-amino acid (aa) protein with a molecular weight of 93 kDa. Multiple sequence alignments showed that ABCB6's aa sequence is highly conserved and shares the highest homology (93%) with mouse ABCB6. RT-qPCR analysis indicated that ABCB6 is expressed in all the tissues examined, exhibiting high expression levels in the liver, adrenal glands, and testis. The mRNA concentrations of ABCB6 in HGs were very similar between males and in females; similarly, gonadectomy and treatment with sex steroids appear to scarcely affect ABCB6 mRNA levels. The intraglandular content of ABCB6 mRNA showed discrete, though non-significant, variations through the estrous cycle. The results provide evidence that gonadal steroids have a minimal physiological role on the regulation of ABCB6 expression and might indicate that this transporter has a small effect on porphyrin trafficking in the HGs of hamsters.

Mutational analysis of SRD5A2: From gene to functional kinetics in individuals with steroid 5α-reductase 2 deficiency.

Human steroid 5α-reductase 2 (SRD5A2) plays a determinative role in the masculinization of external genitalia. To date, approximately 114 different mutations of the SRD5A2 gene have been reported; however, little information is available about their impact on catalytic function or their three-dimensional (3D) structures. We determined the effect of point mutations on the testosterone-depend kinetic constants (Km,app and Vmax,app) and structural characteristics of SRD5A2 from Mexican patients with 46,XY-steroid 5α-reductase 2 deficiency. PCR-SSCP assays identified ten distinct gene variants and sequencing analysis identified missense mutations [p.V3I, p.S14R, p.A52T, p.F118L, p.R145W, p.R171S, p.L226P, p.F229S, p.S245Y, and p.A248V]. Mutations were re-created by site-directed mutagenesis and expressed in HEK293 cells. Functional studies demonstrated that 8 variants led to partial (Km,app = 0.16-2.6 µM; Vmax,app = 224-2640 pmol/mg P/min) or complete losses of activity compared to the wild-type enzyme (Km,app = 0.7 µM; Vmax,app = 4044 pmol/mg P/min). All the mutations were assessed using multiple software tools and the results predicted that all of the mutations were associated with disease or damage. Mapping mutations on the model of a 3D structure of SRD5A2 demonstrated alterations in contact sites with their proximal amino acids. Our data show that mutations affect the catalytic efficiency (Vmax/Km) or result in residual enzymatic activity, which could be due to erroneous interactions between amino acid residues, the substrate testosterone, or NADPH.

Molecular genetic analysis of AKR1C2-4 and HSD17B6 genes in subjects 46,XY with hypospadias.

BACKGROUND: The formation of the male urethra depends to enzyme-mediated testosterone (T) conversion into 5α-dihydrotestosterone (DHT). Two metabolic pathways could be operating in the fetal testis to synthesize androgens: 1) the "classic" route (T→DHT) mediated by SRD5A2 and 2) a "backdoor" pathway in which DHT is synthesized by aldo-keto reductase family 1, member C2 (AKR1C2), AKR1C3, and AKR1C4 enzymes without formation of a T intermediate. OBJECTIVE: We studied four genes of the "backdoor" pathway in karyotypic males with hypospadias to ascertain whether gene defects in AKRs impair urethral DHT formation that result in hypospadias. DESIGN AND PATIENTS: The coding regions of the AKR1C2-4 and HSD17B6 genes were analyzed by PCR-SSCP and sequencing in a cohort of 25 Mexican patients (0.3-9 year-old-children) with 46,XY-hypospadias. Chi-squared tests was performed to evaluate the distribution of genotypes, alleles, and the Hardy-Weinberg (H-W) equilibrium. The effect of the genetic variants was investigated by in silico studies. RESULTS: Screening studies revealed distinct genotypic patterns at different exons of AKR1C2-4 whereas HSD17B6 presented a wild-type sequence. The DNA analyses detected two synonymous variants (c.327C>T, c.666T>C/unreported) in AKR1C2. The AKR1C3 had two variants (c.15C>G, c.230A>G), two unreported variants (c.538T>C, c.596G>A), and one silent variant (c.312G>A). Two variants (c.434C>G, c.931C>G) were identified in AKR1C4. All variants were in H-W equilibrium without structural changes. DISCUSSION: Hypospadias have been associated with defects that alter androgen biosynthesis in the human fetal testis, specifically 5α-DHT. We selected four candidate genes involved in the "backdoor" pathway for the formation of 5α-DHT. Molecular assays of the AKR1C2, AKR1C3, and AKR1C4 genes revealed a total of nine genetic single nucleotide variants. Several variants in the AKR1C genes have been associated with a variety of human pathologies. However, our studies suggest that active steroid biosynthesis via AKR1C might not be involved in hypospadias. Additionally, genetic research suggests a low involvement in the "backdoor" 5α-DHT pathway during human sexual development, specifically, the differentiation of male external genitalia. CONCLUSION: These results indicate that substitutions in AKR1C2-4 are polymorphisms and all genetic variants lacks deleterious significant association with hypospadias. The data suggest that inactivating mutations in the AKR1C2-4 and HSD17B6 genes are an infrequent cause of hypospadias, which might weaken the contribution of the "backdoor" pathway to embryonic urethral masculinization.

The effects of Sambucus nigra polyphenols on oxidative stress and metabolic disorders in experimental diabetes mellitus.

The paper focuses on certain natural polyphenolic extracts from common elder fruit (Sambucus nigra), and also on their effects in diabetes mellitus. The results reveal that the glycosylated hemoglobin values are much higher in the diabetic group and they are significantly lower in the group protected by polyphenols. The natural polyphenol compounds reduce the lipids peroxides, neutralize the lipid peroxil radicals and inhibit the LDL oxidation. Following the perturbation of the lipid metabolism in the diabetic rats, atherogen risk has significantly increased values in comparison to the rats from the witness groups. It is found that due to the polyphenolic protection of the rats from the diabetic group treated with polyphenols, the atherogen risk is preserved at normal limits. The serum activity of glutathione-peroxidase and superoxide-dismutase has significantly lower values in the diabetic group as compared to the group protected by polyphenols. Through the hypoglycemiant, hypolipemiant and antioxidant effects,Sambucus nigra represents a possible dietary adjunct for the treatment of diabetes and a potential source for the discovery of new orally active agent(s) for future diabetes therapy. Understanding the mechanism through which the natural polyphenols have effects on the functionality of the endothelium cells, including on the membrane sensitivity and intracellular signalling, could represent a new way of therapeutically approaching chronic metabolic diseases and cardiovascular illnesses.

Mutational analysis of the androgen receptor (NR3C4) gene in patients with 46,XY DSD.

Androgen insensitivity syndrome (AIS) is an X-linked disorder caused by mutations in the NR3C4 gene, which encodes the androgen receptor (AR). In this study, we performed mutational analyses to identify AR molecular defects, in individuals with 46,XY disorders of sex development (46,XY DSD) and a presumptive diagnosis of AIS. Eighteen different gene mutations, including seven previously unreported new variants, were detected in 26 unrelated cases. These included two deletion mutations (P49fs*185 and E308f*320) in exon 1 and five substitution mutations (p.S792P, p.D829G, p.R832P, p.L839F, and p.K906E) located in the steroid-binding domain. Expression analyses of mutants generated by site-directed mutagenesis indicated that these new gene variants impaired AR function by affecting its binding activity. Seventeen of 18 mutations likely lead to reduced or absent responses to androgens, which may in turn account for the different degrees of undermasculinization observed. Our study provides insight into the functional consequences of these mutations.

Facial affect perception and mentalizing abilities in female patients with persistent somatoform pain disorder.

BACKGROUND: Numerous studies have demonstrated a robust link between alexithymic traits and somatic complaints in patients suffering from psychosomatic disorders, while less is known about disease-related impairments in the processing of affective social information. Deficits in emotion recognition can lead to misinterpretations of social signals and induce distress in interpersonal interactions. This, in turn, might contribute to somatoform symptomatology in affected individuals. The aim of the present study was to investigate basal facial affect recognition as well as higher-order cognitive mind-reading skills in order to further clarify the association between alexithymia and the processing of social affective information in a homogenous sample of patients suffering from somatoform pain. METHODS: We employed a series of animated morph clips that gradually displayed the onset and development of the six basic emotional expressions to investigate facial affect perception in a female sample of patients diagnosed with persistent somatoform pain disorder (PSPD) and matched healthy controls. In addition, all participants were presented with the Movie for the Assessment of Social Cognition to explore mind-reading abilities. RESULTS: Specifically impaired mentalizing skills and increased alexithymic traits were observed in PSPD, while emotional facial expression recognition appeared to be intact in these patients. CONCLUSIONS: PSPD subjects tend to overattribute inappropriate affective states to others, which could be the consequence of the inability to adequately experience and express their own emotional reactions. This cognitive bias might lead to the experience of poor psychosocial functioning and has the potential to negatively impact the course and outcome of this psychopathology.

Trisomy 9 mosaicism in a girl with multiple malformations.

A one-year-old girl with a mosaicism for an extra chromosome 9 is reported. Clinical findings included severe growth and mental retardation, frequent respiratory infections, peculiar face, skeletal and craniofacial abnormalities, seizures, spasticity, cardiopulmonary, gastrointestinal and genitourinary alterations. These findings were compared to those of the 10 other previously reported cases of trisomy 9 mosaicism. This helps to define the most constant phenotypical characteristics and most frequent major malformations which occur in trisomy 9 mosaicism. It is noteworthy that the reported percentage of trisomic cells was different in lymphocytes and in fibroblasts in each case.

[Spondyloepiphyseal dysplasia tarda with progressive arthropathy: 2 siblings affected]. / Displasia espóndilo epifisiaria tarda con artropatía progresiva: 2 hermanos afectados.

We described a Mexican family whose parents were consanguineous. Therefore two children were affected by a progressive arthropathy with deformity in all finger joints, restricted joint mobility and broad major joints. This condition was diagnosed like atypical juvenile rheumatoid arthritis (JRA) because the test for serum rheumatoid factors and antibodies were negative and failed to respond to anti-rheumatoid treatment. However their radiographic studies showed the spine with universal platyspondyly, enlargement epiphyses of the hands, the absence of destructive and the presence of the dysplastic bone changes. These manifestations permit us to do the diagnosis of spondyloepiphyseal dysplasia tarda with progressive arthropathy. In this report we suggest that a complete radiologic study of the patient will allowed to diagnosis this hereditary autosomal recessive entity; likewise it will let us differ of JRA and others polyarticular conditions of childhood.