scholarly journals Salt-inducible Kinases Are Critical Determinants of Female Fertility

Endocrinology ◽  
2020 ◽  
Vol 161 (7) ◽  
Author(s):  
Marah Armouti ◽  
Nicola Winston ◽  
Osamu Hatano ◽  
Elie Hobeika ◽  
Jennifer Hirshfeld-Cytron ◽  
...  
Keyword(s):  
Ovarian Function ◽  
Follicle Stimulating Hormone ◽  
Female Fertility ◽  
Camp Signaling ◽  
Follicle Development ◽  
Pharmacological Modulation ◽  
Ovarian Granulosa Cells ◽  
Different Levels

Abstract Follicle development is the most crucial step toward female fertility and is controlled mainly by follicle-stimulating hormone (FSH). In ovarian granulosa cells (GCs), FSH activates protein kinase A by increasing 3′,5′-cyclic adenosine 5′-monophosphate (cAMP). Since cAMP signaling is impinged in part by salt-inducible kinases (SIKs), we examined the role of SIKs on the regulation of FSH actions. Here, we report that SIKs are essential for normal ovarian function and female fertility. All SIK isoforms are expressed in human and rodent GCs at different levels (SIK3>SIK2>SIK1). Pharmacological inhibition of SIK activity potentiated the stimulatory effect of FSH on markers of GC differentiation in mouse, rat, and human GCs and estradiol production in rat GCs. In humans, SIK inhibition strongly enhanced FSH actions in GCs of patients with normal or abnormal ovarian function. The knockdown of SIK2, but not SIK1 or SIK3, synergized with FSH on the induction of markers of GC differentiation. SIK inhibition boosted gonadotropin-induced GC differentiation in vivo, while the genomic knockout of SIK2 led to a significant increase in the number of ovulated oocytes. Conversely, SIK3 knockout females were infertile, FSH insensitive, and had abnormal folliculogenesis. These findings reveal novel roles for SIKs in the regulation of GC differentiation and female fertility, and contribute to our understanding of the mechanisms regulated by FSH. Furthermore, these data suggest that specific pharmacological modulation of SIK2 activity could be of benefit to treat ovulatory defects in humans and to increase the propagation of endangered species and farm mammals.

scholarly journals Role of angiotensin in ovarian follicular development and ovulation in mammals: a review of recent advances

Reproduction ◽  
2012 ◽  
Vol 143 (1) ◽  
pp. 11-20 ◽  
Author(s):  
Paulo Bayard Gonçalves ◽  
Rogério Ferreira ◽  
Bernardo Gasperin ◽  
João Francisco Oliveira
Keyword(s):  
Vascular Function ◽  
Ovarian Function ◽  
Ovarian Tissue ◽  
Follicle Development ◽  
Ang Ii ◽  
Paracrine Factor ◽  
Vascular Control

Angiotensin (Ang) II is widely known for its role in the control of systemic blood vessels. Moreover, Ang II acts on the vascular control of ovarian function, corpus luteum formation, and luteolysis. Over the past 10 years, our research group has been studying the new concept of the renin–angiotensin system (RAS) as an autocrine/paracrine factor regulating steroidogenesis and promoting different cellular responses in the ovary, beyond vascular function. We have developed and used differentin vivoandin vitroexperimental models to study the role of RAS in the ovary and a brief overview of our findings is presented here. It is widely accepted that there are marked species differences in RAS function in follicle development. Examples of species-specific functions of the RAS in the ovary include the involvement of Ang II in the regulation of follicle atresia in rats vs the requirement of this peptide for the dominant follicle development and ovulation in rabbits and cattle. More recently, Ang-(1–7), its receptor, and enzymes for its synthesis (ACE2, NEP, and PEP) were identified in bovine follicles, implying that Ang-(1–7) has an ovarian function. Other novel RAS components (e.g. (pro)renin receptor and renin-binding protein) recently identified in the bovine ovary show that ovarian RAS is poorly understood and more complex than previously thought. In the present review, we have highlighted the progress toward understanding the paracrine and autocrine control of ovarian antral follicle development and ovulation by ovarian tissue RAS, focusing onin vivostudies using cattle as a model.

scholarly journals The role of the NMD factor UPF3B in olfactory sensory neurons

eLife ◽  
2020 ◽  
Vol 9 ◽  
Author(s):  
Kun Tan ◽  
Samantha H Jones ◽  
Blue B Lake ◽  
Jennifer N Dumdie ◽  
Eleen Y Shum ◽  
...  
Keyword(s):  
Human Cognition ◽  
Cell Populations ◽  
Rna Seq ◽  
Wild Type ◽  
Single Cell Rna Sequencing ◽  
Nonsense Mediated Rna Decay ◽  
Different Levels ◽  
Selection Of

The UPF3B-dependent branch of the nonsense-mediated RNA decay (NMD) pathway is critical for human cognition. Here, we examined the role of UPF3B in the olfactory system. Single-cell RNA-sequencing (scRNA-seq) analysis demonstrated considerable heterogeneity of olfactory sensory neuron (OSN) cell populations in wild-type (WT) mice, and revealed that UPF3B loss influences specific subsets of these cell populations. UPF3B also regulates the expression of a large cadre of antimicrobial genes in OSNs, and promotes the selection of specific olfactory receptor (Olfr) genes for expression in mature OSNs (mOSNs). RNA-seq and Ribotag analyses identified classes of mRNAs expressed and translated at different levels in WT and Upf3b-null mOSNs. Integrating multiple computational approaches, UPF3B-dependent NMD target transcripts that are candidates to mediate the functions of NMD in mOSNs were identified in vivo. Together, our data provides a valuable resource for the olfactory field and insights into the roles of NMD in vivo.

scholarly journals Oocyte-Specific Overexpression of Mouse Bone Morphogenetic Protein-15 Leads to Accelerated Folliculogenesis and an Early Onset of Acyclicity in Transgenic Mice

Endocrinology ◽  
2008 ◽  
Vol 149 (6) ◽  
pp. 2807-2815 ◽  
Author(s):  
Heather E. McMahon ◽  
Osamu Hashimoto ◽  
Pamela L. Mellon ◽  
Shunichi Shimasaki
Keyword(s):  
Transgenic Mice ◽  
Bone Morphogenetic Protein ◽  
Early Onset ◽  
Ovarian Function ◽  
Chimeric Protein ◽  
Mature Protein ◽  
Follicle Growth ◽  
Morphogenetic Protein

Whereas mutations in the bmp15 gene cause infertility in ewes and women due to defects in folliculogenesis, most defects in female mice lacking bone morphogenetic protein (BMP)-15 are confined to the ovulation process, supportive of the observation that functional mouse BMP-15 is barely detected in oocytes in vivo until after the LH surge. In addition, the mouse BMP-15 proprotein is not processed into the functional mature protein in transfected cells. However, a chimeric protein consisting of the human proregion, human cleavage site, and mouse mature region (termed hhmBMP-15) is processed and the mature protein secreted. To study the role of BMP-15 in folliculogenesis, we generated transgenic mice overexpressing hhmBMP-15, exclusively in oocytes during folliculogenesis and confirmed the overexpression of mouse BMP-15 mature protein. Immature transgenic mice exhibited accelerated follicle growth with decreased primary follicles and an increase in secondary follicles. Granulosa cells of immature mice displayed an increased mitotic index and decreased FSH receptor mRNA expression. Adult mice had normal litter sizes but an increased number of atretic antral follicles. Interestingly, aging mice exhibited an early onset of acyclicity marked by increased diestrus length and early occurrence of constant diestrus. These findings indicate the role of BMP-15 in vivo in promoting follicle growth and preventing follicle maturation, resulting in an early decline in the ovarian reserve of transgenic mice. Therefore, the lack of mouse BMP-15 during early folliculogenesis in the wild-type mice may be relevant to their polyovulatory nature as well as the preservation of ovarian function as the mice age.

scholarly journals Cyclic AMP-dependent plasticity underlies rapid changes in odor coding associated with reward learning

2017 ◽  
Vol 115 (3) ◽  
pp. E448-E457 ◽  
Author(s):  
Thierry Louis ◽  
Aaron Stahl ◽  
Tamara Boto ◽  
Seth M. Tomchik
Keyword(s):  
Classical Conditioning ◽  
Reward Learning ◽  
Camp Signaling ◽  
Type I ◽  
Appetitive Conditioning ◽  
Dependent Plasticity ◽  
Olfactory Responses ◽  
Neuronal Physiology

Learning and memory rely on dopamine and downstream cAMP-dependent plasticity across diverse organisms. Despite the central role of cAMP signaling, it is not known how cAMP-dependent plasticity drives coherent changes in neuronal physiology that encode the memory trace, or engram. In Drosophila, the mushroom body (MB) is critically involved in olfactory classical conditioning, and cAMP signaling molecules are necessary and sufficient for normal memory in intrinsic MB neurons. To evaluate the role of cAMP-dependent plasticity in learning, we examined how cAMP manipulations and olfactory classical conditioning modulate olfactory responses in the MB with in vivo imaging. Elevating cAMP pharmacologically or optogenetically produced plasticity in MB neurons, altering their responses to odorants. Odor-evoked Ca2+ responses showed net facilitation across anatomical regions. At the single-cell level, neurons exhibited heterogeneous responses to cAMP elevation, suggesting that cAMP drives plasticity to discrete subsets of MB neurons. Olfactory appetitive conditioning enhanced MB odor responses, mimicking the cAMP-dependent plasticity in directionality and magnitude. Elevating cAMP to equivalent levels as appetitive conditioning also produced plasticity, suggesting that the cAMP generated during conditioning affects odor-evoked responses in the MB. Finally, we found that this plasticity was dependent on the Rutabaga type I adenylyl cyclase, linking cAMP-dependent plasticity to behavioral modification. Overall, these data demonstrate that learning produces robust cAMP-dependent plasticity in intrinsic MB neurons, which is biased toward naturalistic reward learning. This suggests that cAMP signaling may serve to modulate intrinsic MB responses toward salient stimuli.

scholarly journals Differential CYP 2D6 Metabolism Alters Primaquine Pharmacokinetics

2015 ◽  
Vol 59 (4) ◽  
pp. 2380-2387 ◽  
Author(s):  
Brittney M. J. Potter ◽  
Lisa H. Xie ◽  
Chau Vuong ◽  
Jing Zhang ◽  
Ping Zhang ◽  
...  
Keyword(s):  
Enzyme Activity ◽  
Antimalarial Activity ◽  
Wild Type ◽  
Phenolic Metabolites ◽  
Species Specific ◽  
Human And Mouse ◽  
Different Levels ◽  
Cyp 2D6

ABSTRACTPrimaquine (PQ) metabolism by the cytochrome P450 (CYP) 2D family of enzymes is required for antimalarial activity in both humans (2D6) and mice (2D). Human CYP 2D6 is highly polymorphic, and decreased CYP 2D6 enzyme activity has been linked to decreased PQ antimalarial activity. Despite the importance of CYP 2D metabolism in PQ efficacy, the exact role that these enzymes play in PQ metabolism and pharmacokinetics has not been extensively studiedin vivo. In this study, a series of PQ pharmacokinetic experiments were conducted in mice with differential CYP 2D metabolism characteristics, including wild-type (WT), CYP 2D knockout (KO), and humanized CYP 2D6 (KO/knock-in [KO/KI]) mice. Plasma and liver pharmacokinetic profiles from a single PQ dose (20 mg/kg of body weight) differed significantly among the strains for PQ and carboxy-PQ. Additionally, due to the suspected role of phenolic metabolites in PQ efficacy, these were probed using reference standards. Levels of phenolic metabolites were highest in mice capable of metabolizing CYP 2D6 substrates (WT and KO/KI 2D6 mice). PQ phenolic metabolites were present in different quantities in the two strains, illustrating species-specific differences in PQ metabolism between the human and mouse enzymes. Taking the data together, this report furthers understanding of PQ pharmacokinetics in the context of differential CYP 2D metabolism and has important implications for PQ administration in humans with different levels of CYP 2D6 enzyme activity.

scholarly journals AP1 Transcription Factors in Epidermal Differentiation and Skin Cancer

2013 ◽  
Vol 2013 ◽  
pp. 1-9 ◽  
Author(s):  
Richard L. Eckert ◽  
Gautam Adhikary ◽  
Christina A. Young ◽  
Ralph Jans ◽  
James F. Crish ◽  
...  
Keyword(s):  
Transcription Factor ◽  
Transcription Factors ◽  
Dominant Negative ◽  
Epidermal Differentiation ◽  
Cancer Development ◽  
Multiple Cells ◽  
Different Levels ◽  
Factor Function

AP1 (jun/fos) transcription factors (c-jun, junB, junD, c-fos, FosB, Fra-1, and Fra-2) are key regulators of epidermal keratinocyte survival and differentiation and important drivers of cancer development. Understanding the role of these factors in epidermis is complicated by the fact that each protein is expressed, at different levels, in multiple cells layers in differentiating epidermis, and because AP1 transcription factors regulate competing processes (i.e., proliferation, apoptosis, and differentiation). Variousin vivogenetic approaches have been used to study these proteins including targeted and conditional knockdown, overexpression, and expression of dominant-negative inactivating AP1 transcription factors in epidermis. Taken together, these studies suggest that individual AP1 transcription factors have different functions in the epidermis and in cancer development and that altering AP1 transcription factor function in the basal versus suprabasal layers differentially influences the epidermal differentiation response and disease and cancer development.

scholarly journals Deciphering the Functional Role of RIPK4 in Melanoma

2021 ◽  
Vol 22 (21) ◽  
pp. 11504
Author(s):  
Ewelina Madej ◽  
Damian Ryszawy ◽  
Anna A. Brożyna ◽  
Malgorzata Czyz ◽  
Jaroslaw Czyz ◽  
...  
Keyword(s):  
Cell Lines ◽  
Time Lapse ◽  
Clinical Samples ◽  
Invasive Potential ◽  
Interacting Protein ◽  
Metastatic Melanoma Cell ◽  
Node Metastasis ◽  
Different Levels

The receptor-interacting protein kinase 4 (RIPK4) plays an important role in the development and maintenance of various tissues including skin, but its role in melanoma has not been reported. Using patient-derived cell lines and clinical samples, we show that RIPK4 is expressed in melanomas at different levels. This heterogenous expression, together with very low level of RIPK4 in melanocytes, indicates that the role of this kinase in melanoma is context-dependent. While the analysis of microarray data has revealed no straightforward correlation between the stage of melanoma progression and RIPK4 expression in vivo, relatively high levels of RIPK4 are in metastatic melanoma cell lines. RIPK4 down-regulation by siRNA resulted in the attenuation of invasive potential as assessed by time-lapse video microscopy, wound-healing and transmigration assays. These effects were accompanied by reduced level of pro-invasive proteins such as MMP9, MMP2, and N-cadherin. Incubation of melanoma cells with phorbol ester (PMA) increased PKC-1β level and hyperphosphorylation of RIPK4 resulting in degradation of RIPK4. Interestingly, incubation of cells with PMA for short and long durations revealed that cell migration is controlled by the NF-κB signaling in a RIPK4-dependent (RIPK4high) or independent (RIPK4low) manner depending on cell origin (distant or lymph node metastasis) or phenotype (mesenchymal or epithelial).

Molecular Targets of Phyto-bioactive Compounds in Female Reproductive System of Mammals: A Review

2021 ◽  
Author(s):  
B. Sampath Kumar ◽  
V. Manasa ◽  
H.S. Ramesh ◽  
S. Nandi ◽  
V. Girish Kumar
Keyword(s):  
Bioactive Compounds ◽  
Ovarian Function ◽  
Estrogenic Activity ◽  
Primary Alcohol ◽  
Molecular Targets ◽  
Female Fertility ◽  
Signalling Pathway ◽  
Necrosis Factor Alpha

Phytochemicals present in the plants are divided into primary (Alcohol Amino acids, nucleotides. etc) and secondary metabolites (Alkaloids, Saponins etc.). Carotenoids (reduces reactive oxygen species formation, decreases apoptotic cells, restoration of actin capping expression proteins etc.), Phenolics (inhibits extracellular signal-regulated kinase signalling pathway), Isoflavones (inhibits tyrosine kinase pathway) and alkaloids (downregulation of vascular endothelial growth factor, tumor necrosis factor-alpha and hypoxia-inducible factor 1-alpha messengers) are the major phytochemicals, having the potential effects towards ovarian function. Likewise, bioactive compounds are the chemicals that can interact with certain components of live tissue to exert their various effects (antioxidant, antineoplastic, receptor inhibition, gene expression etc.) respective to female fertility. Similarly, bioactive compounds: Kaempferol [phosphatidylinositol -3- kinase (PI3K)/protein kinase B (Akt) pathway], Quercetin (controlling the release of 17β-estradiol etc.), Myricetin (PI3K/Akt and MAPK signalling pathway), Galngin (inhibition of angiogenesis via decreasing the VEGF and p-Akt) and Resveratrol (regulation of Foxo3a and SIRT1 genes etc.) shows its effects by targeting different molecules and/or pathways at the ovarian microenvironment. However, Genistein (binding to estrogen receptors: ESRα and ESRβ etc.) and Diadzein (disrupting the endocrines etc.) emphatically interfere with the ovarian functions. Besides this, molecular effects exerted by these phyto-bioactive compounds on the in vivo and/or in vitro ovarian culture systems entirely depend on their dosage: Kaempferol @10 μM increased the primordial follicle activation, Quercetin @4 µM improved the quality of oocytes whereas @8 µM reduced the quality), Resveratrol @ 2 µM increased the blastocyst formation, Myricetin @ 100 mg/kg/day feeding in rats induced estrogenic activity, Genistein, feeding in female mice @ 500 and 1000ppm increased the gestation time and Diazdein causes the inhibition of 3-hydroxysteroid dehydrogenase at 40 µM doses. The assessment was done via the systemic collection of literature from sources such as newspapers, conference papers, journals, theory and dissertation articles, electronic databases, manuals, encyclopedia and annual reviews, as well as e-books and reporting. As a result, the preceding discussion focuses on the key phyto-bioactive compounds and their molecular targets in female fertility. This will aid in the successful and secure application of plant bioactive compounds in the field of female reproductive health.

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