Ovarian Maturation Research Articles

Variability in spruce beetle (Coleoptera: Curculionidae, Scolytinae) adult diapause and evidence for oocyte development prior to winter in a Colorado population.

Diapause regulates seasonal insect life cycles and may be highly variable within and among populations due to genetic and environmental variability. Both types of variation may influence how populations respond plastically or evolutionarily to changing climates. We assessed diapause variability in spruce beetle Dendroctonus rufipennis Kirby (Coleoptera: Curculionidae, Scolytinae), a major forest pest whose life cycle timing is regulated by both prepupal and adult diapauses. Using mating studies and ovary dissections, we tested for variability in adult diapause within and between collection sites in Colorado and Wyoming, USA. Ovary morphology suggested that most females from both sites enter diapause prior to egg formation (oogenesis) when reared at warm temperatures. Though previous studies suggested that adult diapause is obligate, we found that a small proportion of females from both populations terminated diapause without winter chilling in the lab. Moreover, we found that most female beetles sampled at the Colorado field site had mature ovaries relatively early in the fall, suggesting that transient exposure to low temperatures may potentiate pre-winter reproductive development. Adult diapause may act primarily as a block to prevent offspring production late in the season but not necessarily as an overwintering phenotype. Overall, our data do not suggest imminent life cycle shifts mediated by adult diapause, but if the observed variability is heritable, diapause regulation may evolve in response to changing environmental conditions.

In vitro maturation of oocytes: what is already known?

Assisted reproductive technologies (ARTs) involve the laboratory manipulation of gametes and embryos to help couples with fertility problems become pregnant. One of these procedures controlled ovarian stimulation uses pharmacological agents to induce ovarian and follicular maturation in vivo. Despite the effectiveness in achieving pregnancy and live births, some patients may have complications due to over-response to gonadotropins and develop ovarian hyperstimulation syndrome (OHSS). In vitro maturation of oocytes (IVM) has emerged as a technique to reduce the risk of OHSS, particularly in women with polycystic ovary syndrome (PCOS), and for fertility preservation in women undergoing oncological treatment. Although there are some limitations, primarily due to oocyte quality, recent advances have improved pregnancy success rates and neonatal and infant outcomes. Different terms have been coined to describe variations of IVM, and the technique has evolved with the introduction of hormones to optimize results. This review we provide a comprehensive overview of IVM and its reproductive outcomes during ARTs.

Transcriptome Profile and Gene Expression During Different Ovarian Maturation Stages of Macrobrachium rosenbergii (De Man, 1879).

Macrobrachium rosenbergii, or giant river prawn, is the most economically crucial cultured freshwater crustacean. A predominant challenge in developing crustacean aquaculture is reproduction management, particularly ovary maturation, where identifying regulative mechanisms at the molecular level is critical. Ovary is the primary tissue for studying gene and protein expressions involved in crustacean growth and reproduction. Despite significant interest in M. rosenbergii, its gene discovery has been at a relatively small scale compared to other genera. In this study, comprehensive transcriptomic sequencing data for different maturation stages of the ovary of M. rosenbergii were observed. The 20 female M. rosenbergii samples evaluated were categorised into four maturation stages, 1 to 4. A total of 817,793,14, 841,670,70, 914,248,78 and 878,085,88 raw reads were obtained from stages 1, 2, 3 and 4, respectively. The assembled unique sequences (unigenes) post-clustering (n = 98013) was 131,093,546 bp with an average size of 1,338 bp. The BLASTX unigene search against National Centre for Biotechnology Information (NCBI), non-redundant (NR), nucleotide sequence (NT), Kyoto Encyclopaedia of Genes and Genomes Orthology (KO), Swiss-Prot, Protein Family (PFAM), Gene Ontology (GO), and euKaryotic Orthologous Groups (KOG) databases yielded 27,680 (28.24%), 7,449 (7.59%), 13,026 (13.29%), 22,606 (23.06%), 29,907 (30.51%), 30,025 (30.63%) and 14,368 (14.65%) significant matches, respectively, totalling to 37,338 annotated unigenes (38.09%). The differentially expressed genes (DEG) analysis conducted in this study led to identifying cyclin B, insulin receptor (IR), oestrogen sulfotransferase (ESULT) and vitellogenin (Vg), which are critical in ovarian maturation. Nevertheless, some M. rosenbergii ovarian maturation-related genes, such as small ubiquitin-like modifier (SUMO)-activating enzyme subunit 1, E3 ubiquitin-protein ligase RNF25, and neuroparsin, were first identified in this study. The data obtained in the present study could considerably contribute to understanding the gene expression and genome structure in M. rosenbergii ovaries throughout its developmental stage.

Role of red pigment concentrating hormone in regulating eyestalk neuroendocrine systems in the mud crab Scylla paramamosain

The eyestalk ganglion is a predominant neuroendocrine organ in crustaceans that synthesize crustacean hyperglycemic hormone (CHH) family participating in physiological activities such as ovarian development, glucose homeostasis, and molting. Red pigment concentrating hormone (RPCH) contributes to a diversity of physiological influences, including ovarian development; however, its role in modulating CHH-family neuropeptides in the eyestalk ganglion remains unclear. In this study, we characterized the putative RPCH receptor (RPCHR) in the mud crab Scylla paramamosain and revealed that it was expressed in a variety of tissues, including the eyestalk ganglion. In vivo administration of mature RPCH peptide significantly restrained vitellogenesis inhibiting hormone (VIH) expression and significantly enhanced RPCHR, crustacean hyperglycemic hormone (CHH) and molt inhibiting hormone (MIH) gene expression, while in contrast, in vivo injection of RPCH-dsRNA for knockdown dramatically enhanced VIH expression and decreased RPCHR, CHH and MIH expression in the eyestalk ganglion. The present study comprehensively reports that RPCH may be responsible for the regulation of ovarian maturation, glucose homeostasis, and molting in S. paramamosain through the modulation of CHH family neuropeptides in the eyestalk ganglion.

7238 A rare cause of primary ovarian failure in an adolescent due to a genetic mutation in mitochondrial poly-A-polymerase (mTPAP) mRNA

Abstract Disclosure: J. Epstein: None. S. Veera: None. J. Pappas: None. B.C. Shah: None. Primary ovarian insufficiency (POI) is a dysfunction or loss of ovarian follicles with associated amenorrhea. While most causes are idiopathic, approximately 15% of POI cases are due to single gene or chromosomal abnormalities, such as X chromosome abnormalities. Many of these nuclear genes encode for proteins that function within the mitochondria. Mitochondrial disorders affect tissues with high energy demand, such as the neurological, skeletal, cardiac, and endocrine systems. Furthermore, mature ovaries have a relatively higher concentration of mitochondria, which play a role in cellular respiration along with steroidogenesis. Mutations that disrupt these pathways can therefore lead to ovarian dysfunction. We present a case of a 17-year-old female with concern for primary amenorrhea. She underwent pubarche at age 12 years and thelarche at 14 years, with slowed progression. Height Z score was -1.61 and weight Z score was -0.41. Lab work at presentation was significant for LH 18.6 IU/L (N 2.4-12.6 IU/L), FSH 43.9 IU/L (N 1.1-9.6 IU/L), low estradiol <2.5 pg/mL (N 30-100 pg/mL), low total testosterone 8.3 ng/dL (N 15-31 ng/dL), unremarkable HbA1C, cortisol, thyroid levels, and a 46 XX karyotype. Pelvic ultrasound showed small ovarian volumes with a 1.9 cc right ovary, 1.5 cc left ovary consistent with lack of hormonal stimulation, and uterus length of 4.9 cm (N > 4 cm) consistent with early hormonal stimulation. She was started on transdermal estrogen replacement. Past medical history included stable pericardial effusion, episodes of supraventricular tachycardia, pre-cataracts, speech delays, mild learning disabilities, spastic diplegia, progressive gait abnormalities, ligamentous laxity, and recurrent patellar dislocations requiring multiple orthopedic limb surgeries. Family history was significant for parental consanguinity as first cousins. As the etiology of the POI remained unknown, genetic testing was completed. Whole exome sequencing (WES) revealed a homozygous pathogenic variant in the MTPAP gene: p.(Leu495Arg) (CTG>CGG): c.1484 T>G in exon 9 on chromosome 10p11.23. MTPAP, also known as SPAX4, TENT6, or PAPD1, is a nuclear-encoded polymerase involved in synthesizing the 3’ poly(A) tail of mitochondrial transcripts as well as in mRNA degradation. She was diagnosed with autosomal recessive MTPAP-related neurodevelopmental and movement disorder. Monogenic disorders affecting mitochondrial function are rare causes of POI. A high index of suspicion should be raised when a constellation of neurological, musculoskeletal, and cardiac problems co-exist. WES can be a very useful tool for uncovering rare genetic disorders. Further studies are needed to clarify details of organ specific mitochondrial dysfunction and possible therapeutics in individuals affected with MTPAP-related neurodevelopmental and movement disorders. Presentation: 6/1/2024

The occurrence of luteinizing hormone-like molecule and its receptor in the blue swimming crab, Portunus pelagicus

Knowledge of the neuroendocrine system possibly improves the reproductive performance of captivated crustacean broodstock in aquaculture and it may substitute eyestalk ablation. In this study, we explored the luteinizing hormone (LH)-like molecule and proved the existence of the LH receptor (PpelLHR)-like mRNA in the blue swimming crab, Portunus pelagicus. Using the anti-human LH-β antibody, the immunoreactivities were found in the central nervous system (CNS) and ovary of the crab with the strongest signal in the mature ovary. The full-length PpelLHR-like mRNA sequence contained 4818 bp with deduced protein predicted as seven transmembrane G-protein coupled receptor, made of 1605 amino acids. The phylogenetic tree suggested this protein belonged to the clade of invertebrate LHR/FSHR-like proteins. The PpelLHR-like mRNA expressed in various organs and real-time qPCR revealed significantly higher expression of this mRNA in the brain and lower expression in the ovary of the mature crabs. In situ hybridization of this mRNA was demonstrated in neuronal clusters of the brain, ventral nerve cord, and in the oocyte stage 1–4 of the ovary, respectively. This study was preliminary to prove the existence of LH and its receptor in the blue swimming crab. Functional assay of this receptor should be performed as the next part of experiments to firmly conclude its appearance.

Zebrafish Foxl2l functions in proliferating germ cells for female meiotic entry

Zebrafish sex differentiation is a complicated process and the detailed mechanism has not been fully understood. Here we characterized a transcription factor, Foxl2l, which participates in female oogenesis. We show that it is expressed specifically in proliferating germ cells in juvenile gonads and mature ovaries. We have used CRISPR-Cas9 to generate zebrafish deficient in foxl2l expression. Zebrafish with foxl2l-/- are all males, and this female-to-male sex reversal cannot be reversed by tp53 mutation, indicating this sex reversal is unrelated to cell death. We have generated transgenic fish expressing GFP under the control of foxl2l promoter to track the development of foxl2l+-germ cells; these cells failed to enter meiosis and accumulated as cystic cells in the foxl2l-/- mutant. Our RNA-seq analysis also showed the reduced expression of genes in meiosis and oogenesis among other affected pathways. All together, we show that zebrafish Foxl2l is a nuclear factor controlling the expression of meiotic and oogenic genes, and its deficiency leads to defective meiotic entry and the accumulation of premeiotic germ cells.

The Interstitial Gland as a Source of Pro- or Anti-Senescent Cells during Chinchilla Rabbit Ovarian Aging.

The aging ovary in mammals leads to the reduced production of sex hormones and a deterioration in follicle quality. The interstitial gland originates from the hypertrophy of the theca cells of atretic follicles and represents an accumulative structure of the ovary that may contribute to its aging. Here, reproductive and mature rabbit ovaries are used to determine whether the interstitial gland plays a crucial role in ovarian aging. We demonstrate that, in the mature ovary, interstitial gland cells accumulate lipid droplets and show ultrastructural characteristics of lipophagy. Furthermore, they undergo modifications and present a foamy appearance, do not express the pan-leukocyte CD-45 marker, and express CYP11A1. These cells are the first to present an increase in lipofuscin accumulation. In foamy cells, the expression of p21 remains low, PCNA expression is maintained at mature ages, and their nuclei do not show positivity for H2AX. The interstitial gland shows a significant increase in lipofuscin accumulation compared with the ovaries of younger rabbits, but lipofuscin accumulation remains constant at mature ages. Surprisingly, no accumulation of cells with DNA damage is evident, and an increase in proliferative cells is observed at the age of 36 months. We suggest that the interstitial gland initially uses lipophagy to maintain steroidogenic homeostasis and prevent cellular senescence.

Metabolomic and Transcriptomic Analyses Reveal the Potential Mechanisms of Dynamic Ovarian Development in Goats during Sexual Maturation.

The ovary is a crucial reproductive organ in mammals, and its development directly influences an individual's sexual maturity and reproductive capacity. To comprehensively describe ovarian sexual maturation in goats, we integrated phenotypic, hormonal, metabolomic, and transcriptomic data from four specific time points: after birth (D1), at 2 months old (M2), at 4 months old (M4), and at 6 month old (M6). The study showed that during the early stage (D1-M2), ovarian growth was the most rapid, with weight and morphology increasing by 284% and 65%, respectively, and hormone levels rose significantly, with estradiol increasing by 57%. Metabolomic analysis identified 1231 metabolites, primarily lipids, lipid molecules, and organic acids, which can support hormone balance and follicle development by providing energy and participating in signaling transduction. Transcriptomic analysis identified 543 stage-specific differentially expressed genes, mainly enriched in steroid biosynthesis, amino acid metabolism, and the PI3K/AKT pathway, which are key factors influencing ovarian cell proliferation, apoptosis, hormone secretion, and metabolism. The integrated analysis revealed the key processes in the ovarian steroid hormone biosynthesis pathway and gene/metabolite networks associated with ovarian phenotypes and hormone levels, ultimately highlighting scavenger receptor class B type 1 (SCARB1), Cytochrome P450 Family 1 Subfamily A Member 1 (CYP11A1), 3beta-hydroxysteroid dehydrogenase (3BHSD), progesterone, estradiol, and L-phenylalanine as key regulators of ovarian morphological and functional changes at different developmental stages. This study is the first to reveal the metabolic changes and molecular regulatory mechanisms during ovarian sexual maturation in goats, providing valuable insights for understanding reproductive system development and optimizing reproductive performance and breeding efficiency.

Functional complementation of two splicing variants of Gustavus in Neocaridina denticulata sinensis during ovarian maturation

Gustavus, a positive regulator in arthropod reproduction, features a conserved SPRY and a C-terminal SOCS box domain and belongs to the SPSB protein family. The SPSB family, encompassing SPSB1 to SPSB4, plays pivotal roles in higher animals, including immune response, apoptosis, growth, and stress responses. In Neocaridina denticulata sinensis, alternative splicing yielded two NdGustavus isoforms, NdGusX1 and NdGusX2, with distinct expression patterns—high in ovaries and muscles, respectively, and across all ovarian germ cells. These isoforms showed similar expression dynamics during embryogenesis and significant upregulation post-copper ion exposure (P < 0.05). The in situ hybridization result elucidated that NdGusX1 and NdGusX2 were expressed across the germ cell spectrum in the ovary, with NdGusX1 showing enhanced expression in oogonia and primary oocytes. In addition, RNA interference revealed functional complementation in ovaries and potential functional differentiation in muscles. Knockdown of NdGusX1 and NdGusX2 potentially disrupted endogenous vitellogenin synthesis, regulating vitellogenesis and reducing mature oocyte volume, affecting follicular cavity occupation. This study provides a theoretical framework for understanding the biological functions of the SPSB family in crustacean ovarian maturation.

Luteinizing hormone supplementation with human menopausal gonadotropin versus low dose human chorionic gonadotropin during ovarian stimulation does not affect live birth rates after fresh and frozen embryo transfer.

Luteinizing hormone (LH) plays an important role in ovarian follicle maturation. Human menopausal gonadotropin (hMG) or low dose human chorionic gonadotropin (hCG) can provide LH supplementation during in vitro fertilization (IVF) ovarian stimulation, though studies directly comparing their impact on IVF outcomes are limited. The aim of the study was to determine whether LH supplementation with hMG versus low dose hCG during IVF stimulation affects live birth rate. Fresh and frozen embryo transfers (ET) from 2017 to 2021 after standard long or antagonist protocols supplemented with hMG (75-250 IU) or low dose hCG (50-100 IU) during stimulation cycles in our academic center were included. Statistical analysis was performed with T-tests, Mann-Whitney U tests, Chi-square, and multiple linear and logistic regression. Four hundred and sixty eight unique stimulation cycles resulting in 213 fresh and 412 frozen embryo transfers were analyzed. There was a lower mature oocyte yield (10.9 vs. 11.8, p = 0.044) but similar high-quality blastocyst yield (3.6 vs. 3.9, p = 0.11) for hMG vs low dose hCG. Live birth rates per transfer were comparable for fresh (42% vs. 49%, p = 0.24) and frozen (46% vs. 53%, p = 0.45) embryo transfers. Multiple logistic regressions showed no association between supplemental gonadotropin and live birth for both fresh and frozen embryo transfers. Fresh and frozen IVF-ET pregnancy outcomes were comparable after hMG versus low dose hCG supplementation, suggesting flexibility in supplemental LH dosing regimens that may address patient or physician preference or cost concerns.

Long-term effects of an early-life exposure of fathead minnows to sediments containing bitumen. Part II: Behaviour, reproduction, and gonad histopathology

The oil sands area of northern Alberta has river sediments that contain natural bitumen. Eggs and fish in these rivers may be exposed to bitumen-related chemicals early in life. This paper assesses a short embryo-larval fish exposure to oil sands sediment and follows the fish behaviour as they mature in clean water and examines their breeding success as adults (5 months afterwards). The three different oil sands river sediments tested were: a sediment collected outside of the bitumen deposit (tested at 3 g/L, Reference sediment from upstream Steepbank River site), and two sediments collected within the deposit (each tested at low (1 g/L) and high (3 g/L) concentrations). The sediments within the bitumen deposit were from the Ells and Steepbank (Stp) Rivers, and both contained significant total PAHs (>170 ng/g wet weight sediment) and alkylated PAHs (>4480 ng/g). Fish were exposed to these sediments for 21 days (as eggs and larval fish), and then transferred permanently to clean water to mature and breed. There was a significant decrease in the number of egg clutches produced by fish exposed early in life to Stp downstream high sediment (compared to Reference sediment). There was also a decrease in overall cumulative egg production, with fish from Stp downstream high sediment producing just over 1000 eggs in total while fish exposed to Ref sediment produced nearly 6900 eggs. The fish with reduced egg production were also less social than expected as they matured, and they had a lower % of early vitellogenic eggs in their ovaries. Overall, the exposure shows that a single, brief exposure during early life stages to natural bitumen can affect fish in adulthood. Naturally occurring bitumen-derived PAHs can reduce fish reproductive output by complex mechanisms, measurable as lower ovary maturity and changes in social behaviour.

Myosuppressin signaling deficiency affects ovarian development via repression of 20-hydroxyecdysone biosynthesis in Grapholita molesta

The steroid 20-hydroxyecdysone (20E) is crucial in regulating ovarian development. However, the neuropeptidergic mechanisms underlying ovarian development via 20E are underexplored. In this study, we investigated myosuppressin (MS) signaling in the dominant fruit pest Grapholita molesta and revealed that MS signaling is necessary for 20E biosynthesis during ovarian maturation. Pharmacological and molecular docking analyses confirmed that the GmMS mature peptide could activate its receptor GmMSR. Additionally, transcript expression analyses of GmMS and GmMSR showed different distribution patterns in adults. Notably, GmMSR was also detected in the ovaries of sexually mature females. RNAi-mediated dysfunction of GmMS or GmMSR specifically decreased fertility in females. Furthermore, GmMS or GmMSR knockdown decreased vitellogenin synthesis and uptake, thereby delaying ovarian development. RNA-seq, gene expression validation, and hormone quantification further revealed that GmMS signaling depletion blocked 20E biosynthesis in the ovary. Finally, exogenous MS rescued most dsGmMS- or dsGmMSR-induced ovarian defects and 20E titers. These results suggest that MS/MSR-to-20E signaling regulates ovarian development through vitellogenesis, providing a new perspective on the development of neuroendocrine targets that suppress pest field populations.

Insights into lipid function for ovarian development in the swimming crab (Portunus trituberculatus): A comparison of lipid mobilization and deposition in hepatopancreas and ovary

Ovarian development is a complex and dynamical process regulated by the coordinated actions of the hepatopancreas and ovary. In mammals, lipids provide necessary energy for oocytes to mature, whereas their regulatory role in crustaceans is not fully understood. This study compares lipid mobilization and deposition in hepatopancreas and ovary of the swimming crab at different stages of ovarian maturation. The results revealed that cholesterol (CHO) and triglyceride (TG) content in hepatopancreas increased with ovary development increased from stage I to Ⅲ, and then decreased at stage V, while those content in ovary significantly increased from stage I to V. Additionally, apolipoprotein (ApoA and ApoB) contents in hepatopancreas and ovary increased significantly during ovary development. Moreover, the highest expression levels of cholesterol transport related genes (srb, ldlr, lrp2 and abcg1) were observed in the hepatopancreas at stage Ⅲ and in the ovary at stage Ⅳ. Furthermore, as ovary development form stage I to Ⅳ, the hepatopancreas up-regulated the expression levels of genes related to lipid anabolism (fas, acc, g6pd, and 6pgd) and fatty acid transport (fabp9 and fatp4). Concurrently, genes related to lipid catabolism (il) and fatty acid β-oxidation (acox2 and acox3) in the hepatopancreas were down-regulated. Differently, with the ovary development increased from stage I to Ⅳ, the ovary up-regulated gene expression levels involved in lipid anabolism (acc, 6pgd, g6pd, dgat1, and gpat3), fatty acid synthesis (elovl and elovl4) and fatty acid β-oxidation (cpt1, cpt2, acox1, and acox3). The mRNA expression levels of lipolysis (tgl) and fatty acid transport (fabp1, fbap9, and fatp4) in ovary were down-regulated. Overall, these findings demonstrate that the hepatopancreas and ovary exhibit different responses to lipid metabolism during ovarian development.

Reproductive Dynamics of Spot Tail Mantis Shrimp (Squilla mantis): Insights from the Central Mediterranean Sea.

Fisheries management requires improvement in scientific knowledge to ensure sustainable exploitation of important commercial species and population renewal. Within this context, this study focused on the reproductive biology of spot tail mantis shrimp, Squilla mantis, in the Central Mediterranean Sea, aiming to understand the reproductive pattern of this species and validate the macroscopic maturity scale through histological analysis. A multi-year sampling was performed from 2016 to 2020 by a commercial fishing fleet in the Northern Central Adriatic Sea (GSA 17), and a total of 2206 individuals were collected. The monthly average value of the total sex ratio of S. mantis was 0.524 ± 0.044 (mean ± SEM) in favor of females, which dominated the population from September to April. The proposed 5 stage macroscopic maturity scale was validated histologically through histological analysis, confirming synchronous ovarian development. The somatic indexes (GSI and K Fulton) and monthly incidence of macroscopic ovarian maturity stages highlighted a protracted reproductive season from winter to spring (January-May). Although the length-weight relationship showed a similar growth trend between genders, males reached a bigger size in terms of carapace length (C.L.) and dominated the population from 32 mm (C.L.). The macroscopic L50 estimated was 25.94 mm (C.L.).

Identification of ActivinβA and Gonadotropin Regulation of the Activin System in the Ovary of Chinese Sturgeon Acipenser sinensis.

Activin is a dimeric growth factor with diverse biological activities in vertebrates. This study aimed to investigate the regulatory role of the activin signaling pathway in the ovary of the endangered, cultured sturgeon species Acipenser sinensis. One activinβA subunit was identified, with a full-length complementary DNA (cDNA) sequence of 1572 base pairs. Multiple sequence alignment suggested that ActivinβA shared high sequence identities with its counterparts in four other sturgeon species. Phylogenetic analysis indicated the conserved evolution of ActivinβA among vertebrates from mammals to fish species. Transcripts of activinβA were distributed ubiquitously in the liver, kidney, intestine, ovary, midbrain, hypothalamus, and pituitary, with the highest transcription found in the pituitary. In Chinese sturgeon ovarian cells, in vitro human recombinant Activin A incubation stimulated the activin system-related gene transcriptions of activinβA, follistatin, its receptors -activinRIIA and activinRIIB, and drosophila mothers against decapentaplegic proteins (smads) smad2, smad3, and smad4. Ovary development-related mRNA levels of cyp19a1a and aromatase receptors of erα and erβ were enhanced by Activin A or human chorionic gonadotropin (hCG) incubation. Furthermore, 15 IU/mL hCG treatment increased the transcription levels of activinβA, follistatin, activinRIIA, and smad2. This suggested that the activin system was functional for the regulation of ovary development in Chinese sturgeon, possibly under the regulation of gonadotropin, by recruiting activinβA, follistatin, activinRIIA, and smad2. These results were helpful for the molecular exploration of activin signaling in fish species, as well as the ovarian maturation regulation of A. sinensis.

Improper dietary protein to carbohydrate ratio causes abnormal visceral fat deposition, hampering gonadal development and breeding performance in Labeo Catla female

The availability of balanced diet is critical for reproductive success in fish. A feeding trial on Labeo catla females was carried out in earthen pond to assess the effect of different dietary protein to carbohydrate ratio on gonad maturation and breeding performance. Three feed D-I (Feed-I), D-II (Feed-II) and D-III (Feed-III) were formulated with varying ratio of Ground Nut Oil Cake (GNOC) and rice bran (2:1, 1:1 and 1:2) and fed for 120 days. To assess the gonad maturation events, GSI VSI, breeding, fatty acid analysis, sex hormone profiling, cholesterol, triglyceride and histological examinations were conducted. Fish groups fed with D-III exhibited the highest VSI and visceral fat (VF) deposition, followed by those fed with D-I, whereas groups fed with D-II showed significantly lower levels (P<0.05). The result of GSI was completely opposite to values of VSI. Ovarian histology showed less number of mature oocytes in D-I & D-III treatments and more mature oocytes in D-II. Breeding results showed that fishes fed with D-I and D-III hampered gonad maturation whereas fish fed with D-II responded towards spawning, fertilization, and hatching. Increased levels of testosterone, estradiol, and vitellogenin (Vtg) were observed in the D-II fed group whereas increased level of progesterone was observed in D-I fed group followed by D-II and D-III. Serum cholesterol was higher in the D-III and D-I group. Visceral fat accumulation prior to ovarian maturation is a normal phenomenon in this species which serves as a lipid reservoir required for the later transfer to the gonad as yolk or is utilized as an energy source for gonad maturation. However higher level of protein or carbohydrate in the diet disrupted normal gonad maturation and lead to abnormal visceral fat accumulation, sex steroid level, failure in spawning response and seed production.

The regulatory effects of arginine on ovary development in the Chinese mitten crab Eriocheir sinensis

This study aimed to investigate the effects of arginine (Arg) on the vitellogenesis and ovarian maturation of Chinese mitten crab. Six isonitrogenous and isolipidic diets (1.83, 2.52, 3.26, 3.96, 4.81 and 5.52 % Arg) were fed to adult female Chinese mitten crab (60.05 ± 4.33 g). The feeding period lasted for eleven weeks. The results showed that gonadosomatic index of crabs increased with increasing dietary Arg concentrations from 1.83 % to 2.52 % and significantly decreased from 2.52 % to 5.52 %. The quadratic regression analysis based on gonadosomatic index estimated that the optimal Arg requirement for adult female crabs was 2.60 %. Dietary supplementation with 2.52 % Arg significantly increased the crude protein concentration in the ovary. A dose of 2.52 % Arg significantly decreased the vitellogenesis-inhibiting hormone (VIH) content in the hemolymph. Arg (2.52 %) significantly upregulated the Vg and protein kinase A (PKA) gene expressions and increased the cyclic adenosine monophosphate (cAMP) concentration in the hepatopancreas. Moreover, dietary supplementation with 2.52 % Arg significantly decreased the cyclic guanosine monophosphate (cGMP) concentration and downregulated protein kinase G (PKG) and p38 mitogen-activated protein kinase (p38 MAPK) gene expression. Arg at 2.52 % significantly increased hemolymph Vg content and the gene expression of the vitellogenin receptor (VgR). In conclusion, Arg at 2.52 % improved vitellogenesis and ovarian maturation by reducing the VIH content and regulating Vg expression via the cGMP/cAMP pathway.

Effects of alloferon and its analogues on reproduction and development of the Tenebrio molitor beetle

As the most numerous group of animals on Earth, insects are found in almost every ecosystem. Their useful role in the environment is priceless; however, for humans, their presence may be considered negative or even harmful. For years, people have been trying to control the number of pests by using synthetic insecticides, which eventually causes an increased level of resistance to applied compounds. The effects of synthetic insecticides have encouraged researchers to search for alternatives and thus develop safe compounds with high specificity. Using knowledge about the physiology of insects and the functionality of compounds of insect origin, a new class of bioinsecticides called peptidomimetics, which are appropriately modified insect analogues, was created. One promising compound that might be successfully modified is the thirteen amino acid peptide alloferon (HGVSGHGQHGVHG), which is obtained from the hemolymph of the blue blowfly Calliphora vicinia. Our research aimed to understand the physiological properties of alloferon and the activity of its peptidomimetics, which will provide the possibility of using alloferon or its analogues in the pharmaceutical industry, as a drug or adjuvant, or in agriculture as a bioinsecticide. We used alloferon and its three peptidomimetics, which are conjugates of the native peptide with three unsaturated fatty acids with various chain lengths: caprylic, myristic, and palmitic. We tested their effects on the morphology and activity of the reproductive system and the embryogenesis of the Tenebrio molitor beetle. We found that the tested compounds influenced the growth and maturation of ovaries and the expression level of the vitellogenin gene. The tested compounds also influenced the process of egg laying, embryogenesis, and offspring hatching, showing that alloferon might be a good peptide for the synthesis of effective bioinsecticides or biopharmaceuticals.

Embryonic morphology and biochemical differences in Scylla paramamosain: Investigating berried and non-berried phenotypes

Scylla paramamosain, an economically valuable crustacean with a particular emphasis on female mud crabs possessing mature ovaries, is demanded extensively due to its exceptional market value. The study focused on understanding the proximate and biochemical compositions of eggs, ovaries and hepatopancreas across different maturation stages. Nine berried and non-berried female mud crabs were meticulously analyzed morphologically and microscopically. The protein contents were significantly higher in the ovary of berried S. paramamosain at stage-II (∼ 72 %) surpassing hepatopancreas and the non-berried counterparts (∼ 42 %), whereas, the egg showed slightly higher protein contents at the 1st maturation stage (∼ 67 %). The fatty acids, including Saturated Fatty acids (SFAs), Mono-unsaturated Fatty acids (MUFAs) and Poly-unsaturated Fatty acids (n6-PUFAs and n3-PUFAs), showed an incremental decrease during all the maturation stages of berried S. paramamosain across all three organelles. Interestingly, these fatty acids were significantly higher in the hepatopancreas (∼ 32, 31, 7 and 26, respectively) and lower in the ovary (∼ 28, 28, 6 and 25, respectively) of non-berried S. paramamosain. The eicosapentanoic acid (EPA) and docosahexanoic acid (DHA) showed an incremental decrease in eggs and hepatopancrease of berried and non-berried S. paramamosain in maturation stages I-III (∼ 11, 10, 9 % and ∼ 19, 15, 10 %, respectively, and ∼ 10, 9, 8, 8 % and ∼17, 16, 13, 12 %, respectively), which were significantly higher in the ovary of non-berried S. paramamosain (∼ 9 and 12 %, respectively) when compared with any of these maturation stages of the berried S. paramamosain (∼ means 7 and 8.33 %, respectively). The Total Essential Amino Acids (ΣEAA) and Total Non-Essential Amino Acids (ΣNEAA) displayed an incremental decrease in the egg and an increase in the ovary and hepatopancreas during the mentioned maturation stages. The glutamic acid, however, showed an incremental decrease in the egg and an increase in the ovary and hepatopancreas of berried S. paramamosain which was significantly prominent in the ovary of non-berried S. paramamosain.