Adenosine Monophosphate Responsive Element Modulator Research Articles

Inward Rectifier K+ Currents Contribute to the Proarrhythmic Electrical Phenotype of Atria Overexpressing Cyclic Adenosine Monophosphate Response Element Modulator Isoform CREM-IbΔC-X.

BACKGROUNDTransgenic mice (TG) with heart‐directed overexpresion of the isoform of the transcription factor cyclic adenosine monophosphate response element modulator (CREM), CREM‐IbΔC‐X, display spontaneous atrial fibrillation (AF) and action potential prolongation. The remodeling of the underlying ionic currents remains unknown. Here, we investigated the regulatory role of CREM‐IbΔC‐X on the expression of K+ channel subunits and the corresponding K+ currents in relation to AF onset in TG atrial myocytes.METHODS AND RESULTSECG recordings documented the absence or presence of AF in 6‐week‐old (before AF onset) and 12‐week‐old TG (after AF onset) and wild‐type littermate mice before atria removal to perform patch clamp, contractility, and biochemical experiments. In TG atrial myocytes, we found reduced repolarization reserve K+ currents attributed to a decrease of transiently outward current and inward rectifier K+ current with phenotype progression, and of acetylcholine‐activated K+ current, age independent. The molecular determinants of these changes were lower mRNA levels of Kcnd2/3, Kcnip2, Kcnj2/4, and Kcnj3/5 and decreased protein levels of K+ channel interacting protein 2 (KChIP2 ), Kir2.1/3, and Kir3.1/4, respectively. After AF onset, inward rectifier K+ current contributed less to action potential repolarization, in line with the absence of outward current component, whereas the acetylcholine‐induced action potential shortening before AF onset (6‐week‐old TG mice) was smaller than in wild‐type and 12‐week‐old TG mice. Atrial force of contraction measured under combined vagal‐sympathetic stimulation revealed increased sensitivity to isoprenaline irrespective of AF onset in TG. Moreover, we identified Kcnd2, Kcnd3, Kcnj3, and Kcnh2 as novel CREM‐target genes.CONCLUSIONSOur study links the activation of cyclic adenosine monophosphate response element–mediated transcription to the proarrhythmogenic electrical remodeling of atrial inward rectifier K+ currents with a role in action potential duration, resting membrane stability, and vagal control of the electrical activity.

Are sweetened drinks a gateway to alcohol, opiate and stimulant addiction? Summary of evidence and therapeutic strategies

1. Drinks sweetened with both sugar and artificial additives lead to dopamine release at the nucleus accumbens (NAc) in rat models; the basis of experiences of pleasure in humans, resulting in impulsive binging behaviour at times.2. Evidence from rat models show cross sensitisation between sweetened drinks, alcohol, opiates and stimulants. Therefore, it could be hypothesised that sweetened drinks could be a gateway to multiple substance abuse among humans via ‘alcopops’.3. Identification of an allelic variant of the cyclic adenosine monophosphate responsive element modulator gene (CREM), linking impulsivity and multiple substance abuse, opens up prospects of mass screening to advice on harm reduction.4. Furthermore, therapies involving cannabinoid receptor antagonists and transcranial brain stimulation are being currently investigated; of benefit to limit binge use of sweetened drinks.

The expression of cyclic adenosine monophosphate responsive element modulator in rat sertoli cells following seminal extract administration.

Aim:This study aims to determine the effect of seminal vesicle extract on cyclic adenosine monophosphate responsive element modulator (CREM) expression in rat Sertoli cells.Materials and Methods:This study examined the expression of CREM on 20 male rats (Rattus norvegicus) at 4 months of age, weighing 250-300 g. The rats were divided into four groups: K0, KP1, KP2, and KP3. K0 group was injected with 0.2 ml normal saline; KP1 was injected with 25 mg cloprostenol (Prostavet C, Virbac S. A); KP2 and KP3 were injected with 0.2 and 0.4 ml seminal vesicle extract, respectively. The treatments were conducted 5 times within 12-day interval. At the end of the study, the rats were euthanized by cervical dislocation; then, the testicles were necropsied and processed for histology observation using immunohistochemistry staining.Results:CREM expression in rat Sertoli cells was not altered by the administration of either 0.2 or 0.4 ml seminal vesicle extract.Conclusion:The administration of seminal vesicle extract is unable to increase CREM expression in rat Sertoli cells.

Steroidogenesis-related gene expression in the rat ovary exposed to melatonin supplementation

OBJECTIVE:To analyze steroidogenesis-related gene expression in the rat ovary exposed to melatonin supplementation.METHODS:Thirty-two virgin adult female rats were randomized to two groups as follows: the control group GI received vehicle and the experimental group GII received melatonin supplementation (10 µg/night per animal) for 60 consecutive days. After the treatment, animals were anesthetized and the collected ovaries were immediately placed in liquid nitrogen for complementary deoxyribonucleic acid microarray analyses. A GeneChip® Kit Rat Genome 230 2.0 Affymetrix Array was used for gene analysis and the experiment was repeated three times for each group. The results were normalized with the GeneChip® Operating Software program and confirmed through analysis with the secondary deoxyribonucleic acid-Chip Analyzer (dChip) software. The data were confirmed by real-time reverse transcription polymerase chain reaction analysis. Genes related to ovarian function were further confirmed by immunohistochemistry.RESULTS:We found the upregulation of the type 9 adenylate cyclase and inhibin beta B genes and the downregulation of the cyclic adenosine monophosphate response element modulator and cytochrome P450 family 17a1 genes in the ovarian tissue of GII compared to those of the control group.CONCLUSION:Our data suggest that melatonin supplementation decreases gene expression of cyclic adenosine monophosphate, which changes ovarian steroidogenesis.

Cyclic adenosine monophosphate-responsive element modulator alpha overexpression impairs function of hepatic myeloid-derived suppressor cells and aggravates immune-mediated hepatitis in mice.

Molecular factors driving immune-mediated inflammation in the liver are incompletely understood. The transcription factor, cyclic adenosine monophosphate-responsive element modulator alpha (CREMα) can endorse differentiation of T lymphocytes toward T-helper (Th)17 cells, thereby promoting autoimmunity in systemic lupus erythematosus or lung inflammation. To investigate the role of CREMα in liver disease, we subjected transgenic (Tg) mice overexpressing CREMα under control of the CD2 promoter (cremtg mice), which restrains expression mainly to lymphocytes (T, natural killer [NK], and NKT cells), to acute and chronic liver injury models. Already in steady state, Tg CREMα overexpression broadly reduced hepatic immune cell numbers by decreasing their viability, but did not affect immune cell migration or the fibrogenic response to chronic liver injury. Strikingly, cremtg mice developed more severe immune-mediated hepatitis with a higher mortality rate, compared to wild-type (wt) mice, upon concanavalin A (ConA) administration. Unlike in T cells from spleen, CREMα overexpression did not induce a predominant Th17 response in intrahepatic T cells, given that hepatic cremtg CD4+ T cells expressed less interleukin (IL)-17 than wt T cells. Reconstitution of Rag1-/- mice with Crem-/- T cells did not ameliorate ConA hepatitis. Overexpression of CREMα did not influence NK and NKT-cell effector functions either. Interestingly, a subset of monocytic myeloid-derived suppressor cells (MDSCs) also expressed CD2 and CREMα. Cremtg MDSCs isolated from liver expressed reduced inducible nitric oxide synthase and arginase 1 and displayed a reduced T-cell suppressive activity. The adoptive transfer of wt MDSCs was capable of reducing the fulminant immune-mediated liver damage in cremtg mice to wt level. These results suggest compartmental differences of T cell activation pathways between liver and other organs in autoimmunity and define a functional role of CREMα in hepatic monocytic MDSCs for the pathogenesis of immune-mediated liver disease.

TDRD5 is required for retrotransposon silencing, chromatoid body assembly, and spermiogenesis in mice

The Tudor domain-containing proteins (TDRDs) are an evolutionarily conserved family of proteins involved in germ cell development. We show here that in mice, TDRD5 is a novel component of the intermitochondrial cements (IMCs) and the chromatoid bodies (CBs), which are cytoplasmic ribonucleoprotein granules involved in RNA processing for spermatogenesis. Tdrd5-deficient males are sterile because of spermiogenic arrest at the round spermatid stage, with occasional failure in meiotic prophase. Without TDRD5, IMCs and CBs are disorganized, with mislocalization of their key components, including TDRD1/6/7/9 and MIWI/MILI/MIWI2. In addition, Tdrd5-deficient germ cells fail to repress LINE-1 retrotransposons with DNA-demethylated promoters. Cyclic adenosine monophosphate response element modulator (CREM) and TRF2, key transcription factors for spermiogenesis, are expressed in Tdrd5-deficient round spermatids, but their targets, including Prm1/Prm2/Tnp1, are severely down-regulated, which indicates the importance of IMC/CB-mediated regulation for postmeiotic gene expression. Strikingly, Tdrd5-deficient round spermatids injected into oocytes contribute to fertile offspring, demonstrating that acquisition of a functional haploid genome may be uncoupled from TDRD5 function.

Normal expression of isoforms activating cyclic adenosine monophosphate responsive element modulator in patients with spermatid maturation arrest

To evaluate whether defective cyclic adenosine monophosphate responsive element modulator (CREM) expression is the causative factor of spermatid maturation arrest (SMA). Comparative evaluation of the testicular histology in patients with SMA or normal spermatogenesis. University clinic of andrology. Azoospermic patients undergoing testicular biopsy. None. Expression of CREMtau in quantitative immunohistochemistry analysis of testicular biopsy samples. Regular CREM expression was observed in the tubules with round, but not elongated, spermatids of patients with SMA (n = 9). Quantitative analysis showed that round spermatids of patients with SMA had a staining intensity similar to that observed in controls (n = 7). Lack of spermatid elongation was not due to defective CREM expression. Therefore, CREM did not play a pathogenetic role in the onset of SMA in humans.

Effects Of Exogenous Testosterone On Testicular Function During The Chronic Phase Of Spinal Cord Injury: Dose Effects On Spermatogenesis And Sertoli Cell And Sperm Function

lntroduction: Exogenaustestosterone has been shown to attenuate spinal cord injury (SCI)-related regression of spermatogenesis in the rat The current experiment investigated the effects of exogenaus testosterone in testicular and sperm functions in the rat du ring the chronic phase of SCI.Methods: Chronic SCI rats were given subcutaneous implants of testosterone-filled silastic capsules (TC). Northern blot cDNA hybridization was used to measure testicular Ieveis of Sertoli cell- and germ cell-specific transcripts. Western blot and immunohistochemistry were used to determine protein Ievei and cellular localization , respectively, of cyclic adenosine monophosphate-responsive element modulator (CREM) in the testes. Flow cytometry was used to determine sperm viability and mitochondrial potential.Results: Spontaneaus restoration of spermatogenesis occurred in 7 of the 8 untreated SCI rats. Although exogenaus testosterone restored complete spermatogenesis in all SCI rats, regressed seminiferous epithelium remained in 30% to 70% of tubular cross sections in these rats. These effects were associated with altered responses of germ cell-specific mRNA transcripts to exogenaus testosterone, and abnormal cellular distribution of CREM. Sperm of untreated SCI rats exhibited lowered motility, viability, and mitochondrial potential. Implantation of 1 0 cm of TC worsened sperm motility in sham control and SCI rats, but restored sperm viability and mitochondrial potential in SCI rats.Conclusion: Administration of exogenaus testosterone to SCI rats during the chronic phase of injury failed to facilitate spermatogenic restoration over that achieved in untreated SCI rats. Abnormalities in postmeiotic spermatogenic differentiation could contribute to these effects, and perhaps the production of sperm with abnormal morphology and/or functions during the chronic phase of SCI.

Identification and characterization of CKLiK, a novel granulocyte Ca++/calmodulin-dependent kinase

Human granulocytes are characterized by a variety of specific effector functions involved in host defense. Several widely expressed protein kinases have been implicated in the regulation of these effector functions. A polymerase chain reaction–based strategy was used to identify novel granulocyte-specific kinases. A novel protein kinase complementary DNA with an open reading frame of 357 amino acids was identified with homology to calcium-calmodulin–dependent kinase I (CaMKI). This has been termed CaMKI-like kinase (CKLiK). Analysis of CKLiK messenger RNA (mRNA) expression in hematopoietic cells demonstrated an almost exclusive expression in human polymorphonuclear leukocytes (PMN). Up-regulation of CKLiK mRNA occurs during neutrophilic differentiation of CD34+ stem cells. CKLiK kinase activity was dependent on Ca++ and calmodulin as analyzed by in vitro phosphorylation of cyclic adenosine monophosphate responsive element modulator (CREM). Furthermore, CKLiK- transfected cells treated with ionomycin demonstrated an induction of CRE- binding protein (CREB) transcriptional activity compared to control cells. Additionally, CaMK-kinaseα enhanced CKLiK activity. In vivo activation of CKLiK was shown by addition of interleukin (IL)-8 to a myeloid cell line stably expressing CKLiK. Furthermore inducible activation of CKLiK was sufficient to induce extracellular signal-related kinase (ERK) mitogen-activated protein (MAP) kinase activity. These data identify a novel Ca++/calmodulin-dependent PMN- specific kinase that may play a role in Ca++-mediated regulation of human granulocyte functions.

Identification and characterization of CKLiK, a novel granulocyte Ca++/calmodulin-dependent kinase

AbstractHuman granulocytes are characterized by a variety of specific effector functions involved in host defense. Several widely expressed protein kinases have been implicated in the regulation of these effector functions. A polymerase chain reaction–based strategy was used to identify novel granulocyte-specific kinases. A novel protein kinase complementary DNA with an open reading frame of 357 amino acids was identified with homology to calcium-calmodulin–dependent kinase I (CaMKI). This has been termed CaMKI-like kinase (CKLiK). Analysis of CKLiK messenger RNA (mRNA) expression in hematopoietic cells demonstrated an almost exclusive expression in human polymorphonuclear leukocytes (PMN). Up-regulation of CKLiK mRNA occurs during neutrophilic differentiation of CD34+ stem cells. CKLiK kinase activity was dependent on Ca++ and calmodulin as analyzed by in vitro phosphorylation of cyclic adenosine monophosphate responsive element modulator (CREM). Furthermore, CKLiK- transfected cells treated with ionomycin demonstrated an induction of CRE- binding protein (CREB) transcriptional activity compared to control cells. Additionally, CaMK-kinaseα enhanced CKLiK activity. In vivo activation of CKLiK was shown by addition of interleukin (IL)-8 to a myeloid cell line stably expressing CKLiK. Furthermore inducible activation of CKLiK was sufficient to induce extracellular signal-related kinase (ERK) mitogen-activated protein (MAP) kinase activity. These data identify a novel Ca++/calmodulin-dependent PMN- specific kinase that may play a role in Ca++-mediated regulation of human granulocyte functions.