Background: b-Agonists are used for relief and control of asthma symptoms by reversing bronchocon... more Background: b-Agonists are used for relief and control of asthma symptoms by reversing bronchoconstriction. They might also have anti-inflammatory properties, but the underpinning mechanisms remain poorly understood. Recently, a direct interaction between formoterol and protein phosphatase 2A (PP2A) has been described in vitro. Objective: We sought to elucidate the molecular mechanisms by which b-agonists exert anti-inflammatory effects in allergendriven and rhinovirus 1B-exacerbated allergic airways disease (AAD). Methods: Mice were sensitized and then challenged with house dust mite to induce AAD while receiving treatment with salmeterol, formoterol, or salbutamol. Mice were also infected with rhinovirus 1B to exacerbate lung inflammation and therapeutically administered salmeterol, dexamethasone, or the PP2A-activating drug (S)-2-amino-4-(4-[heptyloxy]phenyl)-2methylbutan-1-ol (AAL[S]). Results: Systemic or intranasal administration of salmeterol protected against the development of allergen-and rhinovirusinduced airway hyperreactivity and decreased eosinophil recruitment to the lungs as effectively as dexamethasone. Formoterol and salbutamol also showed anti-inflammatory properties. Salmeterol, but not dexamethasone, increased PP2A activity, which reduced CCL11, CCL20, and CXCL2 expression and reduced levels of phosphorylated extracellular signalregulated kinase 1 and active nuclear factor kB subunits in the lungs. The anti-inflammatory effect of salmeterol was blocked by targeting the catalytic subunit of PP2A with small RNA interference. Conversely, increasing PP2A activity with AAL(S) abolished rhinovirus-induced airway hyperreactivity, eosinophil influx, and CCL11, CCL20, and CXCL2 expression. Salmeterol also directly activated immunoprecipitated PP2A in vitro isolated from human airway epithelial cells. Conclusions: Salmeterol exerts anti-inflammatory effects by increasing PP2A activity in AAD and rhinovirus-induced lung inflammation, which might potentially account for some of its clinical benefits. (J Allergy Clin Immunol 2013;nnn:nnn-nnn.)
The functional maturation of mammalian spermatozoa is accomplished as the cells descend through t... more The functional maturation of mammalian spermatozoa is accomplished as the cells descend through the highly specialized microenvironment of the epididymis. This dynamic environment is, in turn, created by the combined secretory and absorptive activity of the surrounding epithelium and displays an extraordinary level of regionalization. Although the regulatory network responsible for spatial coordination of epididymal function remains unclear, recent evidence has highlighted a novel role for the RNA interference pathway. Indeed, as noncanonical regulators of gene expression, small noncoding RNAs have emerged as key elements of the circuitry involved in regulating epididymal function and hence sperm maturation. Herein we have employed next generation sequencing technology to profile the genome-wide miRNA signatures of mouse epididymal cells and characterize segmental patterns of expression. An impressive profile of some 370 miRNAs were detected in the mouse epididymis, with a subset of...
Rapid input-restricted change in gene expression is an important aspect of synaptic plasticity re... more Rapid input-restricted change in gene expression is an important aspect of synaptic plasticity requiring complex mechanisms of post-transcriptional mRNA trafficking and regulation. Small non-coding miRNA are uniquely poised to support these functions by providing a nucleic-acid-based specificity component for universal-sequence-dependent RNA binding complexes. We investigated the subcellular distribution of these molecules in resting and potassium chloride depolarized human neuroblasts, and found both selective enrichment and depletion in neurites. Depolarization was associated with a neurite-restricted decrease in miRNA expression; a subset of these molecules was recovered from the depolarization medium in nuclease resistant extracellular exosomes. These vesicles were enriched with primate specific miRNA and the synaptic-plasticity-associated protein MAP1b. These findings further support a role for miRNA as neural plasticity regulators, as they are compartmentalized in neurons and ...
At the moment of insemination, millions of mammalian sperm cells are released into the female rep... more At the moment of insemination, millions of mammalian sperm cells are released into the female reproductive tract with the single goal of finding the oocyte. The spermatozoa subsequently ignore the thousands of cells they make contact with during their journey to the site of fertilization, until they reach the surface of the oocyte. At this point, they bind tenaciously to the acellular coat, known as the zona pellucida, which surrounds the oocyte and orchestrate a cascade of cellular interactions that culminate in fertilization. These exquisitely cell- and species- specific recognition events are among the most strategically important cellular interactions in biology. Understanding the cellular and molecular mechanisms that underpin them has implications for the etiology of human infertility and the development of novel targets for fertility regulation. Herein we describe our current understanding of the molecular basis of successful sperm-zona pellucida binding.
One of the most common lesions present in the spermatozoa of human infertility patients is an idi... more One of the most common lesions present in the spermatozoa of human infertility patients is an idiopathic failure of sperm-egg recognition. Although this unique cellular interaction can now be readily by-passed by assisted reproductive strategies such as intracytoplasmic sperm injection (ICSI), recent large-scale epidemiological studies have encouraged the cautious use of this technology and highlighted the need for further research into the mechanisms responsible for defective sperm-egg recognition. Previous work in this field has established that the sperm domains responsible for oocyte interaction are formed during spermatogenesis prior to being dynamically modified during epididymal maturation and capacitation in female reproductive tract. While the factors responsible for the regulation of these sequential maturational events are undoubtedly complex, emerging research has identified the molecular chaperone, heat shock protein A2 (HSPA2), as a key regulator of these events in human spermatozoa. HSPA2 is a testis-enriched member of the 70 kDa heat shock protein family that promotes the folding, transport, and assembly of protein complexes and has been positively correlated with in vitro fertilization (IVF) success. Furthermore, reduced expression of HSPA2 from the human sperm proteome leads to an impaired capacity for cumulus matrix dispersal, sperm-egg recognition and fertilization following both IVF and ICSI. In this review, we consider the evidence supporting the role of HSPA2 in sperm function and explore the potential mechanisms by which it is depleted in the spermatozoa of infertile patients. Such information offers novel insights into the molecular mechanisms governing sperm function.
Proteogenomics, or the integration of proteomics with genomics and transcriptomics, is emerging a... more Proteogenomics, or the integration of proteomics with genomics and transcriptomics, is emerging as the next step towards a unified understanding of cellular functions. Looking globally and simultaneously at gene structure, RNA expression, protein synthesis and posttranslational modifications have become technically feasible and offer a new perspective to molecular processes. Recent publications have highlighted the value of proteogenomics in oncology for defining the molecular signature of human tumors, and translation to other areas of biomedicine and life sciences is anticipated. This minireview will discuss recent developments, challenges and perspectives in proteogenomics.
DNA repair has long been considered impossible in human spermatozoa due to the high level of DNA ... more DNA repair has long been considered impossible in human spermatozoa due to the high level of DNA compaction observed in these cells. However, detailed examination of the base excision repair pathway in human spermatozoa has revealed the presence of an enzyme critical to this pathway, 8-oxoguanine DNA glycosylase 1 (OGG1). This glycosylase was associated with the sperm nucleus and mitochondria and could actively excise 8-hydroxy-29-deoxyguanosine (8OHdG), releasing this adduct into the extracellular space. This activity was significantly reduced in the presence of cadmium (II), a recognized inhibitor of OGG1, in a time-and dose-dependent manner (P,0.001). Remarkably, spermatozoa do not possess the downstream components of the base excision repair pathway, apurinic endonuclease 1 (APE1) and X-ray repair complementing defective repair in Chinese hamster cells 1 (XRCC1). The absence of these proteins was particularly significant, as APE1 is required to create a 39-hydroxyl (39-OH) terminus at the apurinic site created by OGG1, which would be recognized by the terminal deoxynucleotidyl transferase dUTP nick end labelling (TUNEL) assay. As a result, TUNEL was unable to detect oxidatively induced DNA damage in spermatozoa following exposure to hydrogen peroxide. In the same cells, intracellular and extracellular 8OHdG could be clearly detected in a manner that was highly correlated with the outcome of the sperm chromatin structure assay (SCSA). However, incubation of these cells for 48 hours revealed a time-dependent increase in TUNEL positivity, suggesting the perimortem activation of a nuclease. These results emphasize the limited capacity of mature spermatozoa to mount a DNA repair response to oxidative stress, and highlight the importance of such mechanisms in the oocyte in order to protect the embryo from paternally mediated genetic damage.
Background: Mammalian fertilization is initiated by sperm-zona pellucida (ZP) interactions. Resul... more Background: Mammalian fertilization is initiated by sperm-zona pellucida (ZP) interactions. Results: The chaperonin-containing TCP1 complex (CCT/TRiC) was identified on the surface of mouse spermatozoa and shown to have an indirect role in ZP adhesion.
Background: b-Agonists are used for relief and control of asthma symptoms by reversing bronchocon... more Background: b-Agonists are used for relief and control of asthma symptoms by reversing bronchoconstriction. They might also have anti-inflammatory properties, but the underpinning mechanisms remain poorly understood. Recently, a direct interaction between formoterol and protein phosphatase 2A (PP2A) has been described in vitro. Objective: We sought to elucidate the molecular mechanisms by which b-agonists exert anti-inflammatory effects in allergendriven and rhinovirus 1B-exacerbated allergic airways disease (AAD). Methods: Mice were sensitized and then challenged with house dust mite to induce AAD while receiving treatment with salmeterol, formoterol, or salbutamol. Mice were also infected with rhinovirus 1B to exacerbate lung inflammation and therapeutically administered salmeterol, dexamethasone, or the PP2A-activating drug (S)-2-amino-4-(4-[heptyloxy]phenyl)-2methylbutan-1-ol (AAL[S]). Results: Systemic or intranasal administration of salmeterol protected against the development of allergen-and rhinovirusinduced airway hyperreactivity and decreased eosinophil recruitment to the lungs as effectively as dexamethasone. Formoterol and salbutamol also showed anti-inflammatory properties. Salmeterol, but not dexamethasone, increased PP2A activity, which reduced CCL11, CCL20, and CXCL2 expression and reduced levels of phosphorylated extracellular signalregulated kinase 1 and active nuclear factor kB subunits in the lungs. The anti-inflammatory effect of salmeterol was blocked by targeting the catalytic subunit of PP2A with small RNA interference. Conversely, increasing PP2A activity with AAL(S) abolished rhinovirus-induced airway hyperreactivity, eosinophil influx, and CCL11, CCL20, and CXCL2 expression. Salmeterol also directly activated immunoprecipitated PP2A in vitro isolated from human airway epithelial cells. Conclusions: Salmeterol exerts anti-inflammatory effects by increasing PP2A activity in AAD and rhinovirus-induced lung inflammation, which might potentially account for some of its clinical benefits. (J Allergy Clin Immunol 2013;nnn:nnn-nnn.)
table of contents † Introduction † Methods † Results: families of molecular chaperones implicated... more table of contents † Introduction † Methods † Results: families of molecular chaperones implicated in spermatogenesis and/or the post-testicular maturation of mammalian spermatozoa Chaperonin containing T-complex/TCP1-ring complex Heat shock protein 60 Heat shock protein 70 family Calnexin/Calsperin Calreticulin Heat shock protein 90 Protein disulphide isomerases † Conclusion
Please cite this article as: E. Sadeqzadeh, et al., Furin processing dictates ectodomain shedding... more Please cite this article as: E. Sadeqzadeh, et al., Furin processing dictates ectodomain shedding of human FAT1 cadherin, Exp Cell Res (2014), http://dx.Please cite this article as: E. Sadeqzadeh, et al., Furin processing dictates ectodomain shedding of human FAT1 cadherin, Exp Cell Res (2014), http://dx.
The recognition and binding of a free-swimming spermatozoon to an ovulated oocyte is one of the m... more The recognition and binding of a free-swimming spermatozoon to an ovulated oocyte is one of the most important cellular interactions in biology. While traditionally viewed as a simple lock and key mechanism, emerging evidence suggests that this event may require the concerted action of several sperm proteins. In this study we examine the hypothesis that the activity of such proteins may be coordinated by their assembly into multimeric recognition complexes on the sperm surface. Through the novel application of blue native polyacrylamide gel electrophoresis (BN-PAGE), we tender the first direct evidence that human spermatozoa do indeed express a number of high molecular weight protein complexes on their surface. Furthermore, we demonstrate that a subset of these complexes displays affinity for homologous zonae pellucidae. Proteomic analysis of two such complexes using electrospray ionization mass spectrometry identified several of the components of the multimeric 20S proteasome and chaperonin-containing TCP-1 (CCT) complexes. The latter complex was also shown to harbor at least one putative zona pellucida binding protein, ZPBP2. Consistent with a role in the mediation of sperm-zona pellucida interaction we demonstrated that antibodies directed against individual subunits of these complexes were able to inhibit sperm binding to zona-intact oocytes. Similarly, these results were able to be recapitulated using native sperm lysates, the zona affinity of which was dramatically reduced by antibody labeling of the complex receptors, or in the case of the 20S proteasome the ubiquitinated zonae ligands. Overall, the strategies employed in this study have provided novel, causal insights into the molecular mechanisms that govern sperm-egg interaction.
Brain metastases are a devastating consequence of cancer and currently there are no specific biom... more Brain metastases are a devastating consequence of cancer and currently there are no specific biomarkers or therapeutic targets for risk prediction, diagnosis, and treatment. Here the proteome of the brain metastatic breast cancer cell line 231-BR has been compared with that of the parental cell line MDA-MB-231, which is also metastatic but has no organ selectivity. Using SILAC and nanoLC-MS/MS, 1957 proteins were identified in reciprocal labeling experiments and 1584 were quantified in the two cell lines. A total of 152 proteins were confidently determined to be up-or down-regulated by more than twofold in 231-BR. Of note, 112/152 proteins were decreased as compared with only 40/152 that were increased, suggesting that down-regulation of specific proteins is an important part of the mechanism underlying the ability of breast cancer cells to metastasize to the brain. When matched against transcriptomic data, 43% of individual protein changes were associated with corresponding changes in mRNA, indicating that the transcript level is a limited predictor of protein level. In addition, differential miRNA analyses showed that most miRNA changes in 231-BR were up-(36/45) as compared with down-regulations (9/45). Pathway analysis revealed that proteome changes were mostly related to cell signaling and cell cycle, metabolism and extracellular matrix remodeling. The major protein changes in 231-BR were confirmed by parallel reaction monitoring mass spectrometry and con-sisted in increases (by more than fivefold) in the matrix metalloproteinase-1, ephrin-B1, stomatin, myc target-1, and decreases (by more than 10-fold) in transglutaminase-2, the S100 calcium-binding protein A4, and L-plastin. The clinicopathological significance of these major proteomic changes to predict the occurrence of brain metastases, and their potential value as therapeutic targets, warrants further investigation. Brain metastases affect 10 -20% of cancer patients with disseminated disease (1). Even small lesions can cause neurological disability, and the median survival time of patients with brain metastases is short, with about 80% mortality within one year of diagnosis. The molecular basis of cancer metastases to the brain remains unknown and with advances in the control of systemic disease, the incidence of brain metastases is increasing (1, 2). In the case of breast cancer, brain relapse typically occurs years after primary tumor excision, suggesting that disseminated breast cancer cells must first acquire specialized functions to invade and grow in this organ (3). Retrospective studies of breast cancer patients with brain metastases found that a young age at diagnosis, primary tumors that are estrogen receptor negative or overexpressing the human epidermal growth factor receptor 2 (HER2) 1 and/or epidermal growth factor receptor, and the From the ‡School
Brain metastases are a devastating consequence of cancer and currently there are no specific biom... more Brain metastases are a devastating consequence of cancer and currently there are no specific biomarkers or therapeutic targets for risk prediction, diagnosis, and treatment. Here the proteome of the brain metastatic breast cancer cell line 231-BR has been compared with that of the parental cell line MDA-MB-231, which is also metastatic but has no organ selectivity. Using SILAC and nanoLC-MS/MS, 1957 proteins were identified in reciprocal labeling experiments and 1584 were quantified in the two cell lines. A total of 152 proteins were confidently determined to be up-or down-regulated by more than twofold in 231-BR. Of note, 112/152 proteins were decreased as compared with only 40/152 that were increased, suggesting that down-regulation of specific proteins is an important part of the mechanism underlying the ability of breast cancer cells to metastasize to the brain. When matched against transcriptomic data, 43% of individual protein changes were associated with corresponding changes in mRNA, indicating that the transcript level is a limited predictor of protein level. In addition, differential miRNA analyses showed that most miRNA changes in 231-BR were up-(36/45) as compared with down-regulations (9/45). Pathway analysis revealed that proteome changes were mostly related to cell signaling and cell cycle, metabolism and extracellular matrix remodeling. The major protein changes in 231-BR were confirmed by parallel reaction monitoring mass spectrometry and con-sisted in increases (by more than fivefold) in the matrix metalloproteinase-1, ephrin-B1, stomatin, myc target-1, and decreases (by more than 10-fold) in transglutaminase-2, the S100 calcium-binding protein A4, and L-plastin. The clinicopathological significance of these major proteomic changes to predict the occurrence of brain metastases, and their potential value as therapeutic targets, warrants further investigation. Brain metastases affect 10 -20% of cancer patients with disseminated disease (1). Even small lesions can cause neurological disability, and the median survival time of patients with brain metastases is short, with about 80% mortality within one year of diagnosis. The molecular basis of cancer metastases to the brain remains unknown and with advances in the control of systemic disease, the incidence of brain metastases is increasing (1, 2). In the case of breast cancer, brain relapse typically occurs years after primary tumor excision, suggesting that disseminated breast cancer cells must first acquire specialized functions to invade and grow in this organ (3). Retrospective studies of breast cancer patients with brain metastases found that a young age at diagnosis, primary tumors that are estrogen receptor negative or overexpressing the human epidermal growth factor receptor 2 (HER2) 1 and/or epidermal growth factor receptor, and the From the ‡School
Background: b-Agonists are used for relief and control of asthma symptoms by reversing bronchocon... more Background: b-Agonists are used for relief and control of asthma symptoms by reversing bronchoconstriction. They might also have anti-inflammatory properties, but the underpinning mechanisms remain poorly understood. Recently, a direct interaction between formoterol and protein phosphatase 2A (PP2A) has been described in vitro. Objective: We sought to elucidate the molecular mechanisms by which b-agonists exert anti-inflammatory effects in allergendriven and rhinovirus 1B-exacerbated allergic airways disease (AAD). Methods: Mice were sensitized and then challenged with house dust mite to induce AAD while receiving treatment with salmeterol, formoterol, or salbutamol. Mice were also infected with rhinovirus 1B to exacerbate lung inflammation and therapeutically administered salmeterol, dexamethasone, or the PP2A-activating drug (S)-2-amino-4-(4-[heptyloxy]phenyl)-2methylbutan-1-ol (AAL[S]). Results: Systemic or intranasal administration of salmeterol protected against the development of allergen-and rhinovirusinduced airway hyperreactivity and decreased eosinophil recruitment to the lungs as effectively as dexamethasone. Formoterol and salbutamol also showed anti-inflammatory properties. Salmeterol, but not dexamethasone, increased PP2A activity, which reduced CCL11, CCL20, and CXCL2 expression and reduced levels of phosphorylated extracellular signalregulated kinase 1 and active nuclear factor kB subunits in the lungs. The anti-inflammatory effect of salmeterol was blocked by targeting the catalytic subunit of PP2A with small RNA interference. Conversely, increasing PP2A activity with AAL(S) abolished rhinovirus-induced airway hyperreactivity, eosinophil influx, and CCL11, CCL20, and CXCL2 expression. Salmeterol also directly activated immunoprecipitated PP2A in vitro isolated from human airway epithelial cells. Conclusions: Salmeterol exerts anti-inflammatory effects by increasing PP2A activity in AAD and rhinovirus-induced lung inflammation, which might potentially account for some of its clinical benefits. (J Allergy Clin Immunol 2013;nnn:nnn-nnn.)
The functional maturation of mammalian spermatozoa is accomplished as the cells descend through t... more The functional maturation of mammalian spermatozoa is accomplished as the cells descend through the highly specialized microenvironment of the epididymis. This dynamic environment is, in turn, created by the combined secretory and absorptive activity of the surrounding epithelium and displays an extraordinary level of regionalization. Although the regulatory network responsible for spatial coordination of epididymal function remains unclear, recent evidence has highlighted a novel role for the RNA interference pathway. Indeed, as noncanonical regulators of gene expression, small noncoding RNAs have emerged as key elements of the circuitry involved in regulating epididymal function and hence sperm maturation. Herein we have employed next generation sequencing technology to profile the genome-wide miRNA signatures of mouse epididymal cells and characterize segmental patterns of expression. An impressive profile of some 370 miRNAs were detected in the mouse epididymis, with a subset of...
Rapid input-restricted change in gene expression is an important aspect of synaptic plasticity re... more Rapid input-restricted change in gene expression is an important aspect of synaptic plasticity requiring complex mechanisms of post-transcriptional mRNA trafficking and regulation. Small non-coding miRNA are uniquely poised to support these functions by providing a nucleic-acid-based specificity component for universal-sequence-dependent RNA binding complexes. We investigated the subcellular distribution of these molecules in resting and potassium chloride depolarized human neuroblasts, and found both selective enrichment and depletion in neurites. Depolarization was associated with a neurite-restricted decrease in miRNA expression; a subset of these molecules was recovered from the depolarization medium in nuclease resistant extracellular exosomes. These vesicles were enriched with primate specific miRNA and the synaptic-plasticity-associated protein MAP1b. These findings further support a role for miRNA as neural plasticity regulators, as they are compartmentalized in neurons and ...
At the moment of insemination, millions of mammalian sperm cells are released into the female rep... more At the moment of insemination, millions of mammalian sperm cells are released into the female reproductive tract with the single goal of finding the oocyte. The spermatozoa subsequently ignore the thousands of cells they make contact with during their journey to the site of fertilization, until they reach the surface of the oocyte. At this point, they bind tenaciously to the acellular coat, known as the zona pellucida, which surrounds the oocyte and orchestrate a cascade of cellular interactions that culminate in fertilization. These exquisitely cell- and species- specific recognition events are among the most strategically important cellular interactions in biology. Understanding the cellular and molecular mechanisms that underpin them has implications for the etiology of human infertility and the development of novel targets for fertility regulation. Herein we describe our current understanding of the molecular basis of successful sperm-zona pellucida binding.
One of the most common lesions present in the spermatozoa of human infertility patients is an idi... more One of the most common lesions present in the spermatozoa of human infertility patients is an idiopathic failure of sperm-egg recognition. Although this unique cellular interaction can now be readily by-passed by assisted reproductive strategies such as intracytoplasmic sperm injection (ICSI), recent large-scale epidemiological studies have encouraged the cautious use of this technology and highlighted the need for further research into the mechanisms responsible for defective sperm-egg recognition. Previous work in this field has established that the sperm domains responsible for oocyte interaction are formed during spermatogenesis prior to being dynamically modified during epididymal maturation and capacitation in female reproductive tract. While the factors responsible for the regulation of these sequential maturational events are undoubtedly complex, emerging research has identified the molecular chaperone, heat shock protein A2 (HSPA2), as a key regulator of these events in human spermatozoa. HSPA2 is a testis-enriched member of the 70 kDa heat shock protein family that promotes the folding, transport, and assembly of protein complexes and has been positively correlated with in vitro fertilization (IVF) success. Furthermore, reduced expression of HSPA2 from the human sperm proteome leads to an impaired capacity for cumulus matrix dispersal, sperm-egg recognition and fertilization following both IVF and ICSI. In this review, we consider the evidence supporting the role of HSPA2 in sperm function and explore the potential mechanisms by which it is depleted in the spermatozoa of infertile patients. Such information offers novel insights into the molecular mechanisms governing sperm function.
Proteogenomics, or the integration of proteomics with genomics and transcriptomics, is emerging a... more Proteogenomics, or the integration of proteomics with genomics and transcriptomics, is emerging as the next step towards a unified understanding of cellular functions. Looking globally and simultaneously at gene structure, RNA expression, protein synthesis and posttranslational modifications have become technically feasible and offer a new perspective to molecular processes. Recent publications have highlighted the value of proteogenomics in oncology for defining the molecular signature of human tumors, and translation to other areas of biomedicine and life sciences is anticipated. This minireview will discuss recent developments, challenges and perspectives in proteogenomics.
DNA repair has long been considered impossible in human spermatozoa due to the high level of DNA ... more DNA repair has long been considered impossible in human spermatozoa due to the high level of DNA compaction observed in these cells. However, detailed examination of the base excision repair pathway in human spermatozoa has revealed the presence of an enzyme critical to this pathway, 8-oxoguanine DNA glycosylase 1 (OGG1). This glycosylase was associated with the sperm nucleus and mitochondria and could actively excise 8-hydroxy-29-deoxyguanosine (8OHdG), releasing this adduct into the extracellular space. This activity was significantly reduced in the presence of cadmium (II), a recognized inhibitor of OGG1, in a time-and dose-dependent manner (P,0.001). Remarkably, spermatozoa do not possess the downstream components of the base excision repair pathway, apurinic endonuclease 1 (APE1) and X-ray repair complementing defective repair in Chinese hamster cells 1 (XRCC1). The absence of these proteins was particularly significant, as APE1 is required to create a 39-hydroxyl (39-OH) terminus at the apurinic site created by OGG1, which would be recognized by the terminal deoxynucleotidyl transferase dUTP nick end labelling (TUNEL) assay. As a result, TUNEL was unable to detect oxidatively induced DNA damage in spermatozoa following exposure to hydrogen peroxide. In the same cells, intracellular and extracellular 8OHdG could be clearly detected in a manner that was highly correlated with the outcome of the sperm chromatin structure assay (SCSA). However, incubation of these cells for 48 hours revealed a time-dependent increase in TUNEL positivity, suggesting the perimortem activation of a nuclease. These results emphasize the limited capacity of mature spermatozoa to mount a DNA repair response to oxidative stress, and highlight the importance of such mechanisms in the oocyte in order to protect the embryo from paternally mediated genetic damage.
Background: Mammalian fertilization is initiated by sperm-zona pellucida (ZP) interactions. Resul... more Background: Mammalian fertilization is initiated by sperm-zona pellucida (ZP) interactions. Results: The chaperonin-containing TCP1 complex (CCT/TRiC) was identified on the surface of mouse spermatozoa and shown to have an indirect role in ZP adhesion.
Background: b-Agonists are used for relief and control of asthma symptoms by reversing bronchocon... more Background: b-Agonists are used for relief and control of asthma symptoms by reversing bronchoconstriction. They might also have anti-inflammatory properties, but the underpinning mechanisms remain poorly understood. Recently, a direct interaction between formoterol and protein phosphatase 2A (PP2A) has been described in vitro. Objective: We sought to elucidate the molecular mechanisms by which b-agonists exert anti-inflammatory effects in allergendriven and rhinovirus 1B-exacerbated allergic airways disease (AAD). Methods: Mice were sensitized and then challenged with house dust mite to induce AAD while receiving treatment with salmeterol, formoterol, or salbutamol. Mice were also infected with rhinovirus 1B to exacerbate lung inflammation and therapeutically administered salmeterol, dexamethasone, or the PP2A-activating drug (S)-2-amino-4-(4-[heptyloxy]phenyl)-2methylbutan-1-ol (AAL[S]). Results: Systemic or intranasal administration of salmeterol protected against the development of allergen-and rhinovirusinduced airway hyperreactivity and decreased eosinophil recruitment to the lungs as effectively as dexamethasone. Formoterol and salbutamol also showed anti-inflammatory properties. Salmeterol, but not dexamethasone, increased PP2A activity, which reduced CCL11, CCL20, and CXCL2 expression and reduced levels of phosphorylated extracellular signalregulated kinase 1 and active nuclear factor kB subunits in the lungs. The anti-inflammatory effect of salmeterol was blocked by targeting the catalytic subunit of PP2A with small RNA interference. Conversely, increasing PP2A activity with AAL(S) abolished rhinovirus-induced airway hyperreactivity, eosinophil influx, and CCL11, CCL20, and CXCL2 expression. Salmeterol also directly activated immunoprecipitated PP2A in vitro isolated from human airway epithelial cells. Conclusions: Salmeterol exerts anti-inflammatory effects by increasing PP2A activity in AAD and rhinovirus-induced lung inflammation, which might potentially account for some of its clinical benefits. (J Allergy Clin Immunol 2013;nnn:nnn-nnn.)
table of contents † Introduction † Methods † Results: families of molecular chaperones implicated... more table of contents † Introduction † Methods † Results: families of molecular chaperones implicated in spermatogenesis and/or the post-testicular maturation of mammalian spermatozoa Chaperonin containing T-complex/TCP1-ring complex Heat shock protein 60 Heat shock protein 70 family Calnexin/Calsperin Calreticulin Heat shock protein 90 Protein disulphide isomerases † Conclusion
Please cite this article as: E. Sadeqzadeh, et al., Furin processing dictates ectodomain shedding... more Please cite this article as: E. Sadeqzadeh, et al., Furin processing dictates ectodomain shedding of human FAT1 cadherin, Exp Cell Res (2014), http://dx.Please cite this article as: E. Sadeqzadeh, et al., Furin processing dictates ectodomain shedding of human FAT1 cadherin, Exp Cell Res (2014), http://dx.
The recognition and binding of a free-swimming spermatozoon to an ovulated oocyte is one of the m... more The recognition and binding of a free-swimming spermatozoon to an ovulated oocyte is one of the most important cellular interactions in biology. While traditionally viewed as a simple lock and key mechanism, emerging evidence suggests that this event may require the concerted action of several sperm proteins. In this study we examine the hypothesis that the activity of such proteins may be coordinated by their assembly into multimeric recognition complexes on the sperm surface. Through the novel application of blue native polyacrylamide gel electrophoresis (BN-PAGE), we tender the first direct evidence that human spermatozoa do indeed express a number of high molecular weight protein complexes on their surface. Furthermore, we demonstrate that a subset of these complexes displays affinity for homologous zonae pellucidae. Proteomic analysis of two such complexes using electrospray ionization mass spectrometry identified several of the components of the multimeric 20S proteasome and chaperonin-containing TCP-1 (CCT) complexes. The latter complex was also shown to harbor at least one putative zona pellucida binding protein, ZPBP2. Consistent with a role in the mediation of sperm-zona pellucida interaction we demonstrated that antibodies directed against individual subunits of these complexes were able to inhibit sperm binding to zona-intact oocytes. Similarly, these results were able to be recapitulated using native sperm lysates, the zona affinity of which was dramatically reduced by antibody labeling of the complex receptors, or in the case of the 20S proteasome the ubiquitinated zonae ligands. Overall, the strategies employed in this study have provided novel, causal insights into the molecular mechanisms that govern sperm-egg interaction.
Brain metastases are a devastating consequence of cancer and currently there are no specific biom... more Brain metastases are a devastating consequence of cancer and currently there are no specific biomarkers or therapeutic targets for risk prediction, diagnosis, and treatment. Here the proteome of the brain metastatic breast cancer cell line 231-BR has been compared with that of the parental cell line MDA-MB-231, which is also metastatic but has no organ selectivity. Using SILAC and nanoLC-MS/MS, 1957 proteins were identified in reciprocal labeling experiments and 1584 were quantified in the two cell lines. A total of 152 proteins were confidently determined to be up-or down-regulated by more than twofold in 231-BR. Of note, 112/152 proteins were decreased as compared with only 40/152 that were increased, suggesting that down-regulation of specific proteins is an important part of the mechanism underlying the ability of breast cancer cells to metastasize to the brain. When matched against transcriptomic data, 43% of individual protein changes were associated with corresponding changes in mRNA, indicating that the transcript level is a limited predictor of protein level. In addition, differential miRNA analyses showed that most miRNA changes in 231-BR were up-(36/45) as compared with down-regulations (9/45). Pathway analysis revealed that proteome changes were mostly related to cell signaling and cell cycle, metabolism and extracellular matrix remodeling. The major protein changes in 231-BR were confirmed by parallel reaction monitoring mass spectrometry and con-sisted in increases (by more than fivefold) in the matrix metalloproteinase-1, ephrin-B1, stomatin, myc target-1, and decreases (by more than 10-fold) in transglutaminase-2, the S100 calcium-binding protein A4, and L-plastin. The clinicopathological significance of these major proteomic changes to predict the occurrence of brain metastases, and their potential value as therapeutic targets, warrants further investigation. Brain metastases affect 10 -20% of cancer patients with disseminated disease (1). Even small lesions can cause neurological disability, and the median survival time of patients with brain metastases is short, with about 80% mortality within one year of diagnosis. The molecular basis of cancer metastases to the brain remains unknown and with advances in the control of systemic disease, the incidence of brain metastases is increasing (1, 2). In the case of breast cancer, brain relapse typically occurs years after primary tumor excision, suggesting that disseminated breast cancer cells must first acquire specialized functions to invade and grow in this organ (3). Retrospective studies of breast cancer patients with brain metastases found that a young age at diagnosis, primary tumors that are estrogen receptor negative or overexpressing the human epidermal growth factor receptor 2 (HER2) 1 and/or epidermal growth factor receptor, and the From the ‡School
Brain metastases are a devastating consequence of cancer and currently there are no specific biom... more Brain metastases are a devastating consequence of cancer and currently there are no specific biomarkers or therapeutic targets for risk prediction, diagnosis, and treatment. Here the proteome of the brain metastatic breast cancer cell line 231-BR has been compared with that of the parental cell line MDA-MB-231, which is also metastatic but has no organ selectivity. Using SILAC and nanoLC-MS/MS, 1957 proteins were identified in reciprocal labeling experiments and 1584 were quantified in the two cell lines. A total of 152 proteins were confidently determined to be up-or down-regulated by more than twofold in 231-BR. Of note, 112/152 proteins were decreased as compared with only 40/152 that were increased, suggesting that down-regulation of specific proteins is an important part of the mechanism underlying the ability of breast cancer cells to metastasize to the brain. When matched against transcriptomic data, 43% of individual protein changes were associated with corresponding changes in mRNA, indicating that the transcript level is a limited predictor of protein level. In addition, differential miRNA analyses showed that most miRNA changes in 231-BR were up-(36/45) as compared with down-regulations (9/45). Pathway analysis revealed that proteome changes were mostly related to cell signaling and cell cycle, metabolism and extracellular matrix remodeling. The major protein changes in 231-BR were confirmed by parallel reaction monitoring mass spectrometry and con-sisted in increases (by more than fivefold) in the matrix metalloproteinase-1, ephrin-B1, stomatin, myc target-1, and decreases (by more than 10-fold) in transglutaminase-2, the S100 calcium-binding protein A4, and L-plastin. The clinicopathological significance of these major proteomic changes to predict the occurrence of brain metastases, and their potential value as therapeutic targets, warrants further investigation. Brain metastases affect 10 -20% of cancer patients with disseminated disease (1). Even small lesions can cause neurological disability, and the median survival time of patients with brain metastases is short, with about 80% mortality within one year of diagnosis. The molecular basis of cancer metastases to the brain remains unknown and with advances in the control of systemic disease, the incidence of brain metastases is increasing (1, 2). In the case of breast cancer, brain relapse typically occurs years after primary tumor excision, suggesting that disseminated breast cancer cells must first acquire specialized functions to invade and grow in this organ (3). Retrospective studies of breast cancer patients with brain metastases found that a young age at diagnosis, primary tumors that are estrogen receptor negative or overexpressing the human epidermal growth factor receptor 2 (HER2) 1 and/or epidermal growth factor receptor, and the From the ‡School
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