Changes in hormonal profile, gonads and sperm quality of Argyrosomus regius (Pisces, Scianidae) during the first sexual differentiation and maturation.

In the present study, sexual gonadal differentiation and first sexual maturation of Meagre (Argyrosomus regius) was studied, based upon the annual changes in gonadosomatic index (GSI), gonadal histology, and the plasma steroid hormones, testosterone (T), 11-ketotestosterone (11-KT), and estradiol (E2). In addition, spermatozoa characteristics were evaluated by measuring sperm motility and morphology. Results demonstrated that Meagre completes sex differentiation at 10 to 12 mo of age, and are group-synchronous spawners, which reach puberty at 2 (mean length 26.8 ± 0.7 cm, mean weight 920 ± 75 g; N = 10) and 3 (mean length 35.8 ± 0.8 cm, mean weight 1610 ± 89 g; N = 10) years of age for males and females, respectively. In males, during the sex differentiation period, T levels were significantly higher with respect to those of 11-KT; this suggests that T has a key role in the early phases of the sex differentiation. During the spawning season an increase in plasma concentrations of all hormones was observed with 11-KT levels being significantly higher that those of T. In females, during the sex differentiation period, there was an increase in E2 plasma levels, while during the first spawning season, a significant increase of T and E2 levels were measured. Regarding sperm characteristics, the measured curvilinear velocity (VCL) and straight-linear velocity (VSL), resulted in the same order of magnitude with respect to those measured in other marine fish, while the average path velocity (VAP) was similar to that measured in the European Eel. The head of Meagre spermatozoa presents as oval shaped with a surface area of approximately 3.66 µm(2) and a perimeter of approximately 6.65 µm. All these findings represent an important basis for further investigation on the reproductive biology of this specie and may assist the farmers to improve seed production in aquaculture.

Effect of cryopreservation on phosphorylation state of proteins involved in sperm motility initiation in sea bream.

We have previously demonstrated that in sea bream Sparus aurata motility initiation determined changes in the phosphorylation state of some proteins. This paper describes an investigation of the effect of a freezing-thawing procedure on the protein phosphorylation/dephosphorylation pattern. Proteins extracted from fresh and cryopreserved spermatozoa (before and after motility activation) were separated on SDS-PAGE, blotted on nitrocellulose membrane and treated with anti-phosphotyrosine, anti-phosphothreonine, or anti-phosphoserine antibodies. The results obtained demonstrate that the cryopreservation protocol has a strong effect on the phosphorylation state of proteins. In general, compared to fresh sperm, phosphorylated proteins are most numerous in both activated and non-activated cryopreserved sperm, and in particular we observed a dramatic increase in threonine phosphorylation. However, frozen-thawed sperm showed a minor number of proteins that changed their phosphorylation state after motility activation. Among these, we identified the acetyl-coenzyme A synthetase that plays a role in sperm motility initiation in both fresh and cryopreserved sperm.

Evaluation of DNA damage in Dicentrarchus labrax sperm following cryopreservation.

In this paper, DNA laddering analysis and single-cell gel electrophoresis (SCGE) or Comet assay, were used to detect DNA damage in response to a cryopreservation process in sea bass spermatozoa. The results obtained demonstrate that the cryopreservation protocol used to cryopreserve the sea bass sperm cause significantly damage at DNA level. In fact, the degree of DNA damage in frozen-thawed sperm (%DNAT=38.2+/-11.2, MT=498.9+/-166.4, n=3) was different (P<0.01) from that measured in fresh sperm (%DNAT=32.7+/-11.1, MT=375.2+/-190.7, n=3). Data here reported also demonstrated the fundamental role played by cryoprotectants (BSA and Me2SO) in reducing fish sperm DNA fragmentation. Finally, from our results, the ability of SCGE to reveal DNA fragmentation in fish sperm is also confirmed.

Calcium channels are present in the apical plasma membranes of the hepatopancreatic B-cells of Marsupenaeus japonicus.

This study demonstrates the existence of calcium channels in the apical membranes of the hepatopancreatic blister (B) cells of Marsupenaeus japonicus. Using brush-border membrane vesicles we demonstrated that the channel-mediated calcium passive flux was saturable and was stimulated by a transmembrane electrical potential difference and inhibited by barium. We raised a monoclonal antibody (Mab 24A4) against the calcium channel, which allowed us to inhibit the channel-mediated calcium uptake. By immunocytochemistry, using Mab 24A4, we demonstrated that these channels are located at the apical membrane of hepatopancreatic B cells. Finally, by measuring the calcium uptake in R- and B-enriched cell suspensions, we showed that only the plasma membrane of the B cells expresses a channel-mediated calcium uptake inhibited by barium, verapamil and the monoclonal antibody 24A4. The plasma membrane of R cells did not show calcium channels.

Differential expression of Na+/D-glucose cotransport in isolated cells of Marsupenaeus japonicus hepatopancreas.

D-Glucose absorptive processes at the gastrointestinal tract of decapod crustaceans are largely under-investigated. We have studied Na(+)-dependent D-glucose transport (Na(+)/D-glucose cotransport) in the hepatopancreas of the Kuruma prawn, Marsupenaeus japonicus, using both brush-border membrane vesicles and purified R and B hepatopancreatic cell suspensions. As assessed by brush-border membrane vesicle studies, Na(+)/D-glucose cotransport was inhibited by phloridzin and responsive to the (inside negative) membrane potential. Furthermore, it was strongly activated by protons (although only in the presence of an inside-negative membrane potential), which correlates with the fact that the lumen of crustacean hepatopancreatic tubules is acidic. When assayed in purified R and B cell suspensions, Na(+)/D-glucose cotransport activity was restricted to B cells only. Mab 13, a monoclonal antibody recognizing an 80- to 85-KDa protein at the brush-border membrane location, inhibited Na(+)/D-glucose cotransport in brush-border membrane vesicles as well as in enriched B cell suspensions. Primers designed after comparison of highly homologous regions of various mammalian sodium-glucose transporter) nucleotide sequences failed to produce RT-PCR amplification products from Kuruma prawn hepatopancreatic RNA. The molecular nature of this Na(+)/D-glucose cotransport system is still to be established.

Changes in cell type composition and enzymatic activities in the hepatopancreas of Marsupenaeus japonicus during the moulting cycle.

The goal of the present study was to evaluate the changes in the cell type composition and ATPase activities (total ATPase, ouabain-sensitive Na+/K(+)-ATPase, furosemide-sensitive Na(+)-ATPase) that occur during the different stages of the moulting cycle in the hepatopancreas of the Marsupenaeus japonicus. The results clearly suggest that the number of resorptive and fibrillar cell types changes significantly during the different stages. An inverse correlation between resorptive and fibrillar cells is observed during moulting (both in normally fed and fasted animals). Fasting, but not the moulting cycle, affects the number of blister-like cells. In the resorptive cells the enzymatic activities (total ATPases and ouabain-sensitive Na+/K(+)-ATPase) also change during the moulting in a cyclical manner. All these results are in agreement with and confirm the different functions carried out by the two cell types within the hepatopancreas.

D-glucose transport in decapod crustacean hepatopancreas.

Physiological mechanisms of gastrointestinal absorption of organic solutes among crustaceans remain severely underinvestigated, in spite of the considerable relevance of characterizing the routes of nutrient absorption for both nutritional purposes and formulation of balanced diets in aquaculture. Several lines of evidence attribute a primary absorptive role to the digestive gland (hepatopancreas) and a secondary role to the midgut (intestine). Among absorbed organic solutes, the importance of D-glucose in crustacean metabolism is paramount. Its plasma levels are finely tuned by hormones (crustacean hyperglycemic hormone, insulin-like peptides and insulin-like growth factors) and the function of certain organs (i.e. brain and muscle) largely depends on a balanced D-glucose supply. In the last few decades, D-glucose absorptive processes of the gastrointestinal tract of crustaceans have been described and transport mechanisms investigated, but not fully disclosed. We briefly review our present knowledge of D-glucose transport processes in the crustacean hepatopancreas. A discussion of previous results from experiments with hepatopancreatic epithelial brush-border membrane vesicles is presented. In addition, recent advances in our understandings of hepatopancreatic D-glucose transport are shown, as obtained (1) after isolation of purified R-, F-, B- and E-cell suspensions from the whole organ by centrifugal elutriation, and (2) by protein expression in hepatopancreatic mRNA-injected Xenopus laevis oocytes. In a perspective, the applicability of these novel methods to the study of hepatopancreatic absorptive function will certainly improve our knowledge of this structurally complex organ.

Isolation and characterization of the CRIPTO autosomal gene and its X-linked related sequence.

We have previously reported on the identification of a cDNA clone encoding a novel human growth factor, named "CRIPTO," that is abundantly expressed in undifferentiated human NTERA-2 clone D1 (NT2/D1) and mouse (F9) teratocarcinoma cells. We now report the organization and nucleotide sequence of two related genomic sequences. One (CR-1) corresponds to the structural gene encoding the human CRIPTO protein expressed in the undifferentiated human teratocarcinoma cells, and the other (CR-3) corresponds to a complete copy of the mRNA containing seven base substitutions in the coding region representing both silent and replacement substitutions. The 440 bp 5' to the CAP site of CR-1 are preserved in CR-3. CR-1 maps to chromosome 3, and CR-3 maps to Xq21-q22. Southern blot analysis reveals that multiple CRIPTO-related DNA sequences are present in the human as well as in the mouse genome.

Identification of two nuclear factor-binding domains on the chicken cardiac actin promoter: implications for regulation of the gene.

The cis-acting regions that appear to be involved in negative regulation of the chicken alpha-cardiac actin promoter both in vivo and in vitro have been identified. A nuclear factor(s) binding to the proximal region mapped over the TATA element between nucleotides -50 and -25. In the distal region, binding spanned nucleotides -136 to -112, a region that included a second CArG box (CArG2) 5' to the more familiar CCAAT-box (CArG1) consensus sequence. Nuclear factors binding to these different domains were found in both muscle and nonmuscle preparations but were detectable at considerably lower levels in tissues expressing the alpha-cardiac actin gene. In contrast, concentrations of the beta-actin CCAAT-box binding activity were similar in all extracts tested. The role of these factor-binding domains on the activity of the cardiac actin promoter in vivo and in vitro and the prevalence of the binding factors in nonmuscle extracts are consistent with the idea that these binding domains and their associated factors are involved in the tissue-restricted expression of cardiac actin through both positive and negative regulatory mechanisms. In the absence of negative regulatory factors, these same binding domains act synergistically, via other factors, to activate the cardiac actin promoter during myogenesis.

The beta actin promoter. High levels of transcription depend upon a CCAAT binding factor.

Although beta actin mRNA is down-regulated during myogenesis, the beta actin promoter confers constitutive expression when joined to heterologous genes transfected into a variety of different cell backgrounds, including differentiated muscle. Normal promoter activity is dependent upon the binding of a ubiquitous factor to the CCAAT-box element. Loss or reduction in factor binding correlates with a major reduction in promoter activity both in vivo and in vitro. The binding domain covers approximately 23 base pairs as determined by DNase footprinting. Methylation of A and G residues in and adjacent to the CCAAT box results in the loss of factor binding. Mutations across the binding domain indicate that the sequence GCCAATCAG within the domain is sufficient as a recognition sequence for factor binding. This binding is not competed by the alpha cardiac actin CCAAT sequence. Bandshift experiments demonstrate a predominant single band of similar mobility in nuclear extracts from various cells and tissues, with the exception of HeLa cells. The prevalence of the factor and its recognition sequence in a variety of promoters suggests that this factor has a common role in the transcriptional activation of several eukaryotic promoters.

A 40-base-pair sequence in the 3' end of the beta-actin gene regulates beta-actin mRNA transcription during myogenesis.

In an earlier report, evidence was presented that the down-regulation of beta-actin mRNA during myogenesis was controlled by a region 3' to the promoter of the gene. In this paper we report the location of this regulatory sequence, determined by deletion analysis and the use of chimeric genes, transfected stably into the mouse myogenic cell line C2C12. The domain responsible for the reduction in beta-actin mRNA levels is at most 40 base pairs long and is located just 5' to the canonical polyadenylylation signal in the gene. Placement of this sequence in the corresponding 3' position both in the alpha-cardiac-actin gene and in the neomycin-resistance gene in pSV2-neo confers the beta-actin mRNA regulatory pattern when these constructs are stably introduced into C2C12 cells. Nuclear run-on experiments indicate that transcriptional control can account for the decrease observed in beta-actin mRNA levels during myogenesis for both the endogenous as well as the transfected beta-actin gene constructs. This 3' transcriptional control sequence is conserved in all of the vertebrate beta-actin genes sequenced and is not similar to any of the 3' processing-adenylylation or termination sequences described previously. This mode of gene regulation may reflect a more general mechanism involved in the process of gene suppression during development.

Colonoscopy in ostomy patients. Results at the first postoperative examination.

Patients with a personal history of rectal cancer are considered at high risk for metachronous large-bowel primaries. Since a malignant growth was the main reason for performing a colostomy in patients followed at the centers of the authors' association (AISTOM), a correct follow-up approach for these patients is very important. A multicentric clinical trial was thus carried out to evaluate the efficacy of transstomal endoscopic exploration (TEE) of the residual colon, and data collection began on May 31, 1984. Nine hundred fifty-seven patients were submitted to TEE after curative abdominoperineal resection (Miles) for rectal cancer. The male-female ratio was 1.3; 89.6 percent of the patients were over 50 years of age. A family history of large-bowel cancer was present in 18 percent, and in 23 percent of the patients the cancer was associated with synchronous adenomas. Only 31 percent of the patients had colonoscopy or double-contrast barium enema x-ray beyond the neoplastic area before surgery. TEE was done in 96.8 percent of the patients; in 3.3 percent the examination was not possible, mainly for stenosis of the stoma (in 2.3 percent). In 82 percent of the patients a complete large-bowel exploration was possible: a new large, bowel cancer was found in 22 patients (2.2 percent) and an adenoma in 183 patients (19.1 percent). These results show that, because it is safe, practical, and effective, endoscopy plays an important role in the follow-up of ostomates.

Ha-ras-1 restriction fragment length polymorphism and susceptibility to colon adenocarcinoma.

It is not yet clear whether some polymorphic variants of the Ha-ras-1 gene confer genetic predisposition to cancer. However, recent data on myelodysplasia and lung cancer are controversial. To clarify this point, 62 colorectal adenocarcinoma patients were examined for the Ha-ras-1 gene restriction fragment length polymorphism and results were compared with those of 108 healthy blood donors. No Ha-ras-1 polymorphic variants specifically associated with the cancer patients were detected. However, a specific genotype was significantly more frequent in the healthy donors than in the cancer patients (16% versus 5%), suggesting an interaction between the two alleles of the gene.