Your search keyword '"Calcilytic"' showing total 209 results

1. In vivo treatment with calcilytic of CaSR knock‐in mice ameliorates renal phenotype reversing downregulation of the vasopressin‐AQP2 pathway.

Author

Ranieri, Marianna, Angelini, Ines, D'Agostino, Mariagrazia, Di Mise, Annarita, Centrone, Mariangela, Venneri, Maria, Ferrulli, Angela, Mastrodonato, Maria, Tamma, Grazia, Endo, Itsuro, Fukumoto, Seiji, Matsumoto, Toshio, and Valenti, Giovanna

Subjects

*PHENOTYPES, *CALCIUM, *ALKALINE earth metals, *PHOSPHORYLATION, *MICRORNA

Abstract

High concentrations of urinary calcium counteract vasopressin action via the activation of the Calcium‐Sensing Receptor (CaSR) expressed in the luminal membrane of the collecting duct cells, which impairs the trafficking of aquaporin‐2 (AQP2). In line with these findings, we provide evidence that, with respect to wild‐type mice, CaSR knock‐in (KI) mice mimicking autosomal dominant hypocalcaemia, display a significant decrease in the total content of AQP2 associated with significantly higher levels of AQP2 phosphorylation at Ser261, a phosphorylation site involved in AQP2 degradation. Interestingly, KI mice also had significantly higher levels of phosphorylated p38MAPK, a downstream effector of CaSR and known to phosphorylate AQP2 at Ser261. Moreover, ATF1 phosphorylated at Ser63, a transcription factor downstream of p38MAPK, was significantly higher in KI. In addition, KI mice had significantly higher levels of AQP2‐targeting miRNA137 consistent with a post‐transcriptional downregulation of AQP2. In vivo treatment of KI mice with the calcilytic JTT‐305, a CaSR antagonist, increased AQP2 expression and reduced AQP2‐targeting miRNA137 levels in KI mice. Together, these results provide direct evidence for a critical role of CaSR in impairing both short‐term vasopressin response by increasing AQP2‐pS261, as well as AQP2 abundance, via the p38MAPK‐ATF1‐miR137 pathway. Key points: Calcium‐Sensing Receptor (CaSR) activating mutations are the main cause of autosomal dominant hypocalcaemia (ADH) characterized by inappropriate renal calcium excretion leading to hypocalcaemia and hypercalciuria. Current treatments of ADH patients with parathyroid hormone, although improving hypocalcaemia, do not improve hypercalciuria or nephrocalcinosis.In vivo treatment with calcilytic JTT‐305/MK‐5442 ameliorates most of the ADH phenotypes of the CaSR knock‐in mice including hypercalciuria or nephrocalcinosis and reverses the downregulation of the vasopressin‐sensitive aquaporin‐2 (AQP2) expression, providing direct evidence for a critical role of CaSR in impairing vasopressin response.The beneficial effect of calcilytic in reducing the risk of renal calcification may occur in a parathyroid hormone‐independent action through vasopressin‐dependent inhibition of cAMP synthesis in the thick ascending limb and in the collecting duct.The amelioration of most of the abnormalities in calcium metabolism including hypercalciuria, renal calcification, and AQP2‐mediated osmotic water reabsorption makes calcilytic a good candidate as a novel therapeutic agent for ADH. [ABSTRACT FROM AUTHOR]

Published

2024

2. The calcium-sensing receptor modulates the prostaglandin E2 pathway in intestinal inflammation.

Author

Gushchina, Valeriya, Kupper, Nadja, Schwarzkopf, Michael, Frisch, Gitta, Piatek, Karina, Aigner, Cornelia, Michel, Alexandra, Schueffl, Hemma, Iamartino, Luca, Elajnaf, Taha, Manhardt, Teresa, Vlasaty, Andrea, Heffeter, Petra, Bassetto, Marcella, Kállay, Enikö, and Schepelmann, Martin

Subjects

PROSTAGLANDIN receptors, CALCIUM-sensing receptors, INFLAMMATORY bowel diseases, INFLAMMATORY mediators, GENE expression, CYCLOOXYGENASES

Abstract

Introduction: The prostaglandin E2 (PGE2) pathway is one of the main mediators of intestinal inflammation. As activation of the calcium-sensing receptor (CaSR) induces expression of inflammatory markers in the colon, we assessed the impact of the CaSR on the PGE2 pathway regulation in colon cancer cells and the colon in vitro and in vivo. Methods and Results: We treated CaSR-transfected HT29 and Caco-2 colon cancer cell lines with different orthosteric ligands or modulators of the CaSR and measured gene expression and PGE2 levels. In CaSR-transfected HT29CaSR-GFP and Caco-2CaSR-GFP cells, the orthosteric CaSR ligand spermine and the positive allosteric CaSR modulator NPS R-568 both induced an inflammatory state as measured by IL-8 gene expression and significantly increased the expression of the PGE2 pathway key enzymes cyclooxygenase (COX)-2 and/or prostaglandin E2 synthase 1 (PGES-1). Inhibition of the CaSR with the calcilytic NPS 2143 abolished the spermine- and NPS R-568-induced pro-inflammatory response. Interestingly, we observed cell-line specific responses as e.g. PGES-1 expression was affected only in HT29CaSR-GFP but not in Caco-2CaSR-GFP cells. Other genes involved in the PGE2 pathway (COX-1, or the PGE2 receptors) were not responsive to the treatment. None of the studied genes were affected by any CaSR agonist in GFP-only transfected HT29GFP and Caco-2GFP cells, indicating that the observed gene-inducing effects of spermine and R-568 were indeed mediated by the CaSR. In vivo, we had previously determined that treatment with the clinically approved calcimimetic cinacalcet worsened symptoms in a dextran sulfate sodium (DSS)-induced colitis mouse model. In the colons of these mice, cinacalcet significantly induced gene expression of PGES-2 and the EP3 receptor, but not COX-2; while NPS 2143 increased the expression of the PGE2-degrading enzyme 15-hydroxyprostaglandin dehydrogenase (15-PGDH). Importantly, neither treatment had any effect on the colons of non-DSS treated mice. Discussion: Overall, we show that activation of the CaSR induces the PGE2 pathway, albeit with differing effects in vitro and in vivo. This may be due to the different microenvironment in vivo compared to in vitro, specifically the presence of a CaSR-responsive immune system. Since calcilytics inhibit ligand-mediated CaSR signaling, they may be considered for novel therapies against inflammatory bowel disease. [ABSTRACT FROM AUTHOR]

Published

2023

3. The calcium-sensing receptor modulates the prostaglandin E2 pathway in intestinal inflammation

Author

Valeriya Gushchina, Nadja Kupper, Michael Schwarzkopf, Gitta Frisch, Karina Piatek, Cornelia Aigner, Alexandra Michel, Hemma Schueffl, Luca Iamartino, Taha Elajnaf, Teresa Manhardt, Andrea Vlasaty, Petra Heffeter, Marcella Bassetto, Enikö Kállay, and Martin Schepelmann

Subjects

calcium-sensing receptor (CaSR), prostaglandins, inflammation, colitis, calcimimetic, calcilytic, Therapeutics. Pharmacology, RM1-950

Abstract

Introduction: The prostaglandin E2 (PGE2) pathway is one of the main mediators of intestinal inflammation. As activation of the calcium-sensing receptor (CaSR) induces expression of inflammatory markers in the colon, we assessed the impact of the CaSR on the PGE2 pathway regulation in colon cancer cells and the colon in vitro and in vivo.Methods and Results: We treated CaSR-transfected HT29 and Caco-2 colon cancer cell lines with different orthosteric ligands or modulators of the CaSR and measured gene expression and PGE2 levels. In CaSR-transfected HT29CaSR-GFP and Caco-2CaSR-GFP cells, the orthosteric CaSR ligand spermine and the positive allosteric CaSR modulator NPS R-568 both induced an inflammatory state as measured by IL-8 gene expression and significantly increased the expression of the PGE2 pathway key enzymes cyclooxygenase (COX)-2 and/or prostaglandin E2 synthase 1 (PGES-1). Inhibition of the CaSR with the calcilytic NPS 2143 abolished the spermine- and NPS R-568-induced pro-inflammatory response. Interestingly, we observed cell-line specific responses as e.g. PGES-1 expression was affected only in HT29CaSR-GFP but not in Caco-2CaSR-GFP cells. Other genes involved in the PGE2 pathway (COX-1, or the PGE2 receptors) were not responsive to the treatment. None of the studied genes were affected by any CaSR agonist in GFP-only transfected HT29GFP and Caco-2GFP cells, indicating that the observed gene-inducing effects of spermine and R-568 were indeed mediated by the CaSR.In vivo, we had previously determined that treatment with the clinically approved calcimimetic cinacalcet worsened symptoms in a dextran sulfate sodium (DSS)-induced colitis mouse model. In the colons of these mice, cinacalcet significantly induced gene expression of PGES-2 and the EP3 receptor, but not COX-2; while NPS 2143 increased the expression of the PGE2-degrading enzyme 15-hydroxyprostaglandin dehydrogenase (15-PGDH). Importantly, neither treatment had any effect on the colons of non-DSS treated mice. Discussion: Overall, we show that activation of the CaSR induces the PGE2 pathway, albeit with differing effects in vitro and in vivo. This may be due to the different microenvironment in vivo compared to in vitro, specifically the presence of a CaSR-responsive immune system. Since calcilytics inhibit ligand-mediated CaSR signaling, they may be considered for novel therapies against inflammatory bowel disease.

Published

2023

4. Autosomal Dominant Hypocalcemia Type 1: A Systematic Review.

Author

Roszko, Kelly L, Stapleton Smith, Lyndsay M, Sridhar, Ananth V, Roberts, Mary Scott, Hartley, Iris R, Gafni, Rachel I, Collins, Michael T, Fox, Jonathan C, and Nemeth, Edward F

Abstract

Autosomal dominant hypocalcemia type 1 (ADH1) is a rare form of hypoparathyroidism due to activating variants of the calcium‐sensing receptor gene (CASR). Inherited or de novo activating variants of the CASR alter the set point for extracellular calcium, resulting in inadequate parathyroid hormone (PTH) secretion and inappropriate renal calcium excretion leading to hypocalcemia and hypercalciuria. Conventional therapy includes calcium and activated vitamin D, which can worsen hypercalciuria, resulting in renal complications. A systematic literature review, using published reports from 1994 to 2021, was conducted to catalog CASR variants, to define the ADH1 clinical spectrum, and to determine the effect of treatment on patients with ADH1. There were 113 unique CASR variants reported, with a general lack of genotype/phenotype correlation. Clinical data were available in 191 patients; 27% lacked symptoms, 32% had mild/moderate symptoms, and 41% had severe symptoms. Seizures, the most frequent clinical presentation, occurred in 39% of patients. In patients with blood and urine chemistries available at the time of diagnosis (n = 91), hypocalcemia (99%), hyperphosphatemia (59%), low PTH levels (57%), and hypercalciuria (34%) were observed. Blood calcium levels were significantly lower in patients with severe symptoms compared with asymptomatic patients (6.8 ± 0.7 versus 7.6 ± 0.7 mg/dL [mean ± SD]; p < 0.0001), and the age of presentation was significantly lower in severely symptomatic patients (9.1 ± 15.0 versus 19.3 ± 19.4 years; p < 0.01). Assessments for complications including nephrocalcinosis, nephrolithiasis, renal impairment, and brain calcifications in 57 patients on conventional therapy showed that 75% had at least one complication. Hypercalciuria was associated with nephrocalcinosis, nephrolithiasis, renal impairment, or brain calcifications (odds ratio [OR] = 9.3; 95% confidence interval [CI] 2.4–37.2; p < 0.01). In 27 patients with urine calcium measures before and after starting conventional therapy, the incidence of hypercalciuria increased by 91% (p < 0.05) after therapy initiation. ADH1 is a condition often associated with severe symptomatology at presentation with an increase in the risk of renal complications after initiation of conventional therapy. © 2022 The Authors. Journal of Bone and Mineral Research published by Wiley Periodicals LLC on behalf of American Society for Bone and Mineral Research (ASBMR). [ABSTRACT FROM AUTHOR]

Published

2022

5. Stereo-Specific Modulation of the Extracellular Calcium-Sensing Receptor in Colon Cancer Cells

Author

Martin Schepelmann, Nadja Kupper, Marta Sladczyk, Bethan Mansfield, Teresa Manhardt, Karina Piatek, Luca Iamartino, Daniela Riccardi, Benson M. Kariuki, Marcella Bassetto, and Enikö Kallay

Subjects

calcium-sensing receptor, enantiomer, calcimimetic, calcilytic, colon cancer, stereospecificity, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Pharmacological allosteric agonists (calcimimetics) of the extracellular calcium-sensing receptor (CaSR) have substantial gastro-intestinal side effects and induce the expression of inflammatory markers in colon cancer cells. Here, we compared the effects of both CaSR-specific (R enantiomers) and -unspecific (S enantiomers) enantiomers of a calcimimetic (NPS 568) and a calcilytic (allosteric CaSR antagonists; NPS 2143) to prove that these effects are indeed mediated via the CaSR, rather than via off-target effects, e.g., on β-adrenoceptors or calcium channels, of these drugs. The unspecific S enantiomer of NPS 2143 and NPS S-2143 was prepared using synthetic chemistry and characterized using crystallography. NPS S-2143 was then tested in HEK-293 cells stably transfected with the human CaSR (HEK-CaSR), where it did not inhibit CaSR-mediated intracellular Ca2+ signals, as expected. HT29 colon cancer cells transfected with the CaSR were treated with both enantiomers of NPS 568 and NPS 2143 alone or in combination, and the expression of CaSR and the pro-inflammatory cytokine interleukin 8 (IL-8) was measured by RT-qPCR and ELISA. Only the CaSR-selective enantiomers of the calcimimetic NPS 568 and NPS 2143 were able to modulate CaSR and IL-8 expression. We proved that pro-inflammatory effects in colon cancer cells are indeed mediated through CaSR activation. The non-CaSR selective enantiomer NPS S-2143 will be a valuable tool for investigations in CaSR-mediated processes.

Published

2021

6. Calcilytic NPS 2143 Reduces Amyloid Secretion and Increases sAβPPα Release from PSEN1 Mutant iPSC-Derived Neurons.

Author

Lo Giudice, Maria, Mihalik, Balázs, Turi, Zsófia, Dinnyés, András, and Kobolák, Julianna

Subjects

*COMPARATIVE studies, *HYDROCARBONS, *RESEARCH methodology, *MEDICAL cooperation, *MEMBRANE proteins, *GENETIC mutation, *NEURONS, *PEPTIDES, *PROTEIN precursors, *RESEARCH, *STEM cells, *EVALUATION research, *CHEMICAL inhibitors

Abstract

Despite numerous efforts and studies over the last three decades, Alzheimer's disease (AD) remains a disorder not fully understood and incurable so far. Development of induced pluripotent stem cell (iPSC) technology to obtain terminally differentiated neurons from adult somatic cells revolutionized the study of AD, providing a powerful tool for modelling the disease and for screening candidate drugs. Indeed, iPSC reprogramming allowed generation of neurons from both sporadic and familial AD patients with the promise to recapitulate the early pathological mechanisms in vitro and to identify novel targets. Interestingly, NPS 2143, a negative allosteric modulator of the calcium sensing receptor, has been indicated as a possible therapeutic for AD. In the present study, we assessed the potential of our iPSC-based familial AD cellular model as a platform for drug testing. We found that iPSC-derived neurons respond to treatment with γ-secretase inhibitor, modifying the physiological amyloid-β protein precursor (AβPP) processing and amyloid-β (Aβ) secretion. Moreover, we demonstrated the expression of calcium sensing receptor (CaSR) protein in human neurons derived from healthy and familial AD subjects. Finally, we showed that calcilytic NPS 2143 induced a changing of Aβ and sAβPPα secreted into conditioned media and modulation of CaSR and PSEN1 expression at the plasma membrane of AD neurons. Overall, our findings suggest that NPS 2143 affects important AD processes in a relevant in vitro system of familial AD. [ABSTRACT FROM AUTHOR]

Published

2019

7. Treatment of Autosomal Dominant Hypocalcemia Type 1 With the Calcilytic NPSP795 (SHP635).

Author

Roberts, Mary Scott, Gafni, Rachel I, Brillante, Beth, Guthrie, Lori C, Streit, Jamie, Gash, David, Gelb, Jeff, Krusinska, Eva, Brennan, Sarah C, Schepelmann, Martin, Riccardi, Daniela, Bin Khayat, Mohd Ezuan, Ward, Donald T, Nemeth, Edward F, Rosskamp, Ralf, and Collins, Michael T

Abstract

Autosomal dominant hypocalcemia type 1 (ADH1) is a rare form of hypoparathyroidism caused by heterozygous, gain‐of‐function mutations of the calcium‐sensing receptor gene (CAR). Individuals are hypocalcemic with inappropriately low parathyroid hormone (PTH) secretion and relative hypercalciuria. Calcilytics are negative allosteric modulators of the extracellular calcium receptor (CaR) and therefore may have therapeutic benefits in ADH1. Five adults with ADH1 due to four distinct CAR mutations received escalating doses of the calcilytic compound NPSP795 (SHP635) on 3 consecutive days. Pharmacokinetics, pharmacodynamics, efficacy, and safety were assessed. Parallel in vitro testing with subject CaR mutations assessed the effects of NPSP795 on cytoplasmic calcium concentrations (Ca2+i), and ERK and p38MAPK phosphorylation. These effects were correlated with clinical responses to administration of NPSP795. NPSP795 increased plasma PTH levels in a concentration‐dependent manner up to 129% above baseline (p = 0.013) at the highest exposure levels. Fractional excretion of calcium (FECa) trended down but not significantly so. Blood ionized calcium levels remained stable during NPSP795 infusion despite fasting, no calcitriol supplementation, and little calcium supplementation. NPSP795 was generally safe and well‐tolerated. There was significant variability in response clinically across genotypes. In vitro, all mutant CaRs were half‐maximally activated (EC50) at lower concentrations of extracellular calcium (Ca2+o) compared to wild‐type (WT) CaR; NPSP795 exposure increased the EC50 for all CaR activity readouts. However, the in vitro responses to NPSP795 did not correlate with any clinical parameters. NPSP795 increased plasma PTH levels in subjects with ADH1 in a dose‐dependent manner, and thus, serves as proof‐of‐concept that calcilytics could be an effective treatment for ADH1. Albeit all mutations appear to be activating at the CaR, in vitro observations were not predictive of the in vivo phenotype or the response to calcilytics, suggesting that other parameters impact the response to the drug. © 2019 American Society for Bone and Mineral Research. [ABSTRACT FROM AUTHOR]

Published

2019

8. Nogo-A expression dynamically varies after spinal cord injury

Author

Jian-wei Wang, Jun-feng Yang, Yong Ma, Zhen Hua, Yang Guo, Xiao-lin Gu, and Ya-feng Zhang

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Neurology. Diseases of the nervous system, RC346-429

Abstract

The mechanism involved in neural regeneration after spinal cord injury is unclear. The myelin-derived protein Nogo-A, which is specific to the central nervous system, has been identified to negatively affect the cytoskeleton and growth program of axotomized neurons. Studies have shown that Nogo-A exerts immediate and chronic inhibitory effects on neurite outgrowth. In vivo, inhibitors of Nogo-A have been shown to lead to a marked enhancement of regenerative axon extension. We established a spinal cord injury model in rats using a free-falling weight drop device to subsequently investigate Nogo-A expression. Nogo-A mRNA and protein expression and immunoreactivity were detected in spinal cord tissue using real-time quantitative PCR, immunohistochemistry and western blot analysis. At 24 hours after spinal cord injury, Nogo-A protein and mRNA expression was low in the injured group compared with control and sham-operated groups. The levels then continued to drop further and were at their lowest at 3 days, rapidly rose to a peak after 7 days, and then gradually declined again after 14 days. These changes were observed at both the mRNA and protein level. The transient decrease observed early after injury followed by high levels for a few days indicates Nogo-A expression is time dependent. This may contribute to the lack of regeneration in the central nervous system after spinal cord injury. The dynamic variation of Nogo-A should be taken into account in the treatment of spinal cord injury.

Published

2015

9. MicroRNA-9 promotes the neuronal differentiation of rat bone marrow mesenchymal stem cells by activating autophagy

Author

Guang-yu Zhang, Jun Wang, Yan-jie Jia, Rui Han, Ping Li, and Deng-na Zhu

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, earthquake, peripheral nerve injury, LSUHSC score, compartment syndrome, surgery therapy, physiotherapy, nerve decompression, brachial plexus injury, human amniotic epithelial cells, forepaw function, stress relaxation, creep, viscoelasticity, injection injury, cyclosporine A, penicillin G potassium, Wallerian degeneration, neuroelectrophysiology, Oenanthe javanica extract, cell proliferation, neuroblast differentiation, brain-derived neurotrophic factor, vascular endothelial growth factor, rat, middle cerebral artery occlusion, brain injury, oligodendrocytes, neural progenitor cells, proliferation, differentiation, neurogenesis, cerebral ischemia, point application, Angong Niuhuang sticker, neurological functions, acupuncture, traditional Chinese medicine, neuroimaging, resting-state functional magnetic resonance imaging, Taichong (LR3), Taixi (KI3), amplitude of low-frequency fluctuation, Brodmann area 11, Brodmann area 18, Brodmann area 19, Brodmann area 44, posterior lobe of the cerebellum, functional magnetic resonance imaging, resting state, task state, brain network, module division, feature binding, Fisher′s Z transform, connectivity, visual stimuli, polysaccharide from Spirulina platensis, Parkinson′s disease, MPTP, dopaminergic neurons, antioxidation, microRNA-9, bone marrow mesenchymal stem cells, neuron-like cells, autophagy, neuron specific enolase, microtubule-associated protein, LC3, Neurology. Diseases of the nervous system, RC346-429

Abstract

MicroRNA-9 (miR-9) has been shown to promote the differentiation of bone marrow mesenchymal stem cells into neuronal cells, but the precise mechanism is unclear. Our previous study confirmed that increased autophagic activity improved the efficiency of neuronal differentiation in bone marrow mesenchymal stem cells. Accumulating evidence reveals that miRNAs adjust the autophagic pathways. This study used miR-9-1 lentiviral vector and miR-9-1 inhibitor to modulate the expression level of miR-9. Autophagic activity and neuronal differentiation were measured by the number of light chain-3 (LC3)-positive dots, the ratio of LC3-II/LC3, and the expression levels of the neuronal markers enolase and microtubule-associated protein 2. Results showed that LC3-positive dots, the ratio of LC3-II/LC3, and expression of neuron specific enolase and microtubule-associated protein 2 increased in the miR-9 + group. The above results suggest that autophagic activity increased and bone marrow mesenchymal stem cells were prone to differentiate into neuronal cells when miR-9 was overexpressed, demonstrating that miR-9 can promote neuronal differentiation by increasing autophagic activity.

Published

2015

10. Phrenic nerve transfer to the musculocutaneous nerve for the repair of brachial plexus injury: electrophysiological characteristics

Author

Ying Liu, Xun-cheng Xu, Yi Zou, Su-rong Li, Bin Zhang, and Yue Wang

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, earthquake, peripheral nerve injury, LSUHSC score, compartment syndrome, surgery therapy, physiotherapy, nerve decompression, brachial plexus injury, human amniotic epithelial cells, forepaw function, stress relaxation, creep, viscoelasticity, injection injury, cyclosporine A, penicillin G potassium, Wallerian degeneration, neuroelectrophysiology, Oenanthe javanica extract, cell proliferation, neuroblast differentiation, brain-derived neurotrophic factor, vascular endothelial growth factor, rat, middle cerebral artery occlusion, brain injury, oligodendrocytes, neural progenitor cells, proliferation, differentiation, neurogenesis, cerebral ischemia, point application, Angong Niuhuang sticker, neurological functions, acupuncture, traditional Chinese medicine, neuroimaging, resting-state functional magnetic resonance imaging, Taichong (LR3), Taixi (KI3), amplitude of low-frequency fluctuation, Brodmann area 11, Brodmann area 18, Brodmann area 19, Brodmann area 44, posterior lobe of the cerebellum, functional magnetic resonance imaging, resting state, task state, brain network, module division, feature binding, Fisher′s Z transform, connectivity, visual stimuli, polysaccharide from Spirulina platensis, Parkinson′s disease, MPTP, dopaminergic neurons, antioxidation, microRNA-9, bone marrow mesenchymal stem cells, neuron-like cells, autophagy, neuron specific enolase, microtubule-associated protein, LC3, lower limb apraxia, supplementary motor area, cerebral infarct, transcranial magnetic stimulation, corticospinal tract, stroke, phrenic nerve, nerve transfer, nerve repair, musculocutaneous nerve, nerve function test, bibliometrics, Neurology. Diseases of the nervous system, RC346-429

Abstract

Phrenic nerve transfer is a major dynamic treatment used to repair brachial plexus root avulsion. We analyzed 72 relevant articles on phrenic nerve transfer to repair injured brachial plexus that were indexed by Science Citation Index. The keywords searched were brachial plexus injury, phrenic nerve, repair, surgery, protection, nerve transfer, and nerve graft. In addition, we performed neurophysiological analysis of the preoperative condition and prognosis of 10 patients undergoing ipsilateral phrenic nerve transfer to the musculocutaneous nerve in our hospital from 2008 to 201 3 and observed the electromyograms of the biceps brachii and motor conduction function of the musculocutaneous nerve. Clinically, approximately 28% of patients had brachial plexus injury combined with phrenic nerve injury, and injured phrenic nerve cannot be used as a nerve graft. After phrenic nerve transfer to the musculocutaneous nerve, the regenerated potentials first appeared at 3 months. Recovery of motor unit action potential occurred 6 months later and became more apparent at 12 months. The percent of patients recovering ′excellent′ and ′good′ muscle strength in the biceps brachii was 80% after 18 months. At 12 months after surgery, motor nerve conduction potential appeared in the musculocutaneous nerve in seven cases. These data suggest that preoperative evaluation of phrenic nerve function may help identify the most appropriate nerve graft in patients with an injured brachial plexus. The functional recovery of a transplanted nerve can be dynamically observed after the surgery.

Published

2015

11. Ethanol extract of Oenanthe javanica increases cell proliferation and neuroblast differentiation in the adolescent rat dentate gyrus

Author

Bai Hui Chen, Joon Ha Park, Jeong Hwi Cho, In Hye Kim, Bich Na Shin, Ji Hyeon Ahn, Seok Joon Hwang, Bing Chun Yan, Hyun Jin Tae, Jae Chul Lee, Eun Joo Bae, Yun Lyul Lee, Jong Dai Kim, Moo-Ho Won, and Il Jun Kang

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, earthquake, peripheral nerve injury, LSUHSC score, compartment syndrome, surgery therapy, physiotherapy, nerve decompression, brachial plexus injury, human amniotic epithelial cells, forepaw function, stress relaxation, creep, viscoelasticity, injection injury, cyclosporine A, penicillin G potassium, Wallerian degeneration, neuroelectrophysiology, Oenanthe javanica extract, cell proliferation, neuroblast differentiation, brain-derived neurotrophic factor, vascular endothelial growth factor, rat, Neurology. Diseases of the nervous system, RC346-429

Abstract

Oenanthe javanica is an aquatic perennial herb that belongs to the Oenanthe genus in Apiaceae family, and it displays well-known medicinal properties such as protective effects against glutamate-induced neurotoxicity. However, few studies regarding effects of Oenanthe javanica on neurogenesis in the brain have been reported. In this study, we examined the effects of a normal diet and a diet containing ethanol extract of Oenanthe javanica on cell proliferation and neuroblast differentiation in the subgranular zone of the hippocampal dentate gyrus of adolescent rats using Ki-67 (an endogenous marker for cell proliferation) and doublecortin (a marker for neuroblast). Our results showed that Oenanthe javanica extract significantly increased the number of Ki-67-immunoreactive cells and doublecortin-immunoreactive neuroblasts in the subgranular zone of the dentate gyrus in the adolescent rats. In addition, the immunoreactivity of brain-derived neurotrophic factor was significantly increased in the dentate gyrus of the Oenanthe javanica extract-treated group compared with the control group. However, we did not find that vascular endothelial growth factor expression was increased in the Oenanthe javanica extract-treated group compared with the control group. These results indicate that Oenanthe javanica extract improves cell proliferation and neuroblast differentiation by increasing brain-derived neurotrophic factor immunoreactivity in the rat dentate gyrus.

Published

2015

12. Electroacupuncture improves microcirculation and neuronal morphology in the spinal cord of a rat model of intervertebral disc extrusion

Author

Dai-xun Jiang, Zhi-song Lu, Ge-bin Li, Sheng-yong Sun, Xiang Mu, Peter Lee, and Wu Chen

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, Neurology. Diseases of the nervous system, RC346-429

Abstract

Most studies on spinal cord neuronal injury have focused on spinal cord tissue histology and the expression of nerve cell damage and repair-related genes. The importance of the microcirculation is often ignored in spinal cord injury and repair research. Therefore, in this study, we established a rat model of intervertebral disc extrusion by inserting a silica gel pad into the left ventral surface of T 13 . Electroacupuncture was used to stimulate the bilateral Zusanli point (ST36) and Neiting point (ST44) for 14 days. Compared with control animals, blood flow in the first lumbar vertebra (L 1 ) was noticeably increased in rats given electroacupuncture. Microvessel density in the T 13 segment of the spinal cord was increased significantly as well. The number of normal neurons was higher in the ventral horn of the spinal cord. In addition, vacuolation in the white matter was lessened. No obvious glial cell proliferation was visible. Furthermore, hindlimb motor function was improved significantly. Collectively, our results suggest that electroacupuncture can improve neuronal morphology and microcirculation, and promote the recovery of neurological functions in a rat model of intervertebral disc extrusion.

Published

2015

13. Early cyclosporin A treatment retards axonal degeneration in an experimental peripheral nerve injection injury model

Author

Ibrahim Erkutlu, Mehmet Alptekin, Sirma Geyik, Abidin Murat Geyik, Inan Gezgin, and Abdulvahap Gök

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, earthquake, peripheral nerve injury, LSUHSC score, compartment syndrome, surgery therapy, physiotherapy, nerve decompression, brachial plexus injury, human amniotic epithelial cells, forepaw function, stress relaxation, creep, viscoelasticity, injection injury, cyclosporine A, penicillin G potassium, Wallerian degeneration, neuroelectrophysiology, Neurology. Diseases of the nervous system, RC346-429

Abstract

Injury to peripheral nerves during injections of therapeutic agents such as penicillin G potassium is common in developing countries. It has been shown that cyclosporin A, a powerful immunosuppressive agent, can retard Wallerian degeneration after peripheral nerve crush injury. However, few studies are reported on the effects of cyclosporin A on peripheral nerve drug injection injury. This study aimed to assess the time-dependent efficacy of cyclosporine-A as an immunosuppressant therapy in an experimental rat nerve injection injury model established by penicillin G potassium injection. The rats were randomly divided into three groups based on the length of time after nerve injury induced by penicillin G potassium administration (30 minutes, 8 or 24 hours). The compound muscle action potentials were recorded pre-injury, early post-injury (within 1 hour) and 4 weeks after injury and compared statistically. Tissue samples were taken from each animal for histological analysis. Compared to the control group, a significant improvement of the compound muscle action potential amplitude value was observed only when cyclosporine-A was administered within 30 minutes of the injection injury (P < 0.05); at 8 or 24 hours after cyclosporine-A administration, compound muscle action potential amplitude was not changed compared with the control group. Thus, early immunosuppressant drug therapy may be a good alternative neuroprotective therapy option in experimental nerve injection injury induced by penicillin G potassium injection.

Published

2015

14. Edaravone combined with Schwann cell transplantation may repair spinal cord injury in rats

Author

Shu-quan Zhang, Min-fei Wu, Zhe Piao, Jin Yao, Ji-hai Li, Xin-gang Wang, and Jun Liu

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, Neurology. Diseases of the nervous system, RC346-429

Abstract

Edaravone has been shown to delay neuronal apoptosis, thereby improving nerve function and the microenvironment after spinal cord injury. Edaravone can provide a favorable environment for the treatment of spinal cord injury using Schwann cell transplantation. This study used rat models of complete spinal cord transection at T 9. Six hours later, Schwann cells were transplanted in the head and tail ends of the injury site. Simultaneously, edaravone was injected through the caudal vein. Eight weeks later, the PKH-26-labeled Schwann cells had survived and migrated to the center of the spinal cord injury region in rats after combined treatment with edaravone and Schwann cells. Moreover, the number of PKH-26-labeled Schwann cells in the rat spinal cord was more than that in rats undergoing Schwann cell transplantation alone or rats without any treatment. Horseradish peroxidase retrograde tracing revealed that the number of horseradish peroxidase-positive nerve fibers was greater in rats treated with edaravone combined withSchwann cells than in rats with Schwann cell transplantation alone. The results demonstrated that lower extremity motor function and neurophysiological function were better in rats treated with edaravone and Schwann cells than in rats with Schwann cell transplantation only. These data confirmed that Schwann cell transplantation combined with edaravone injection promoted the regeneration of nerve fibers of rats with spinal cord injury and improved neurological function.

Published

2015

15. Brain functional network connectivity based on a visual task: visual information processing-related brain regions are significantly activated in the task state

Author

Yan-li Yang, Hong-xia Deng, Gui-yang Xing, Xiao-luan Xia, and Hai-fang Li

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, earthquake, peripheral nerve injury, LSUHSC score, compartment syndrome, surgery therapy, physiotherapy, nerve decompression, brachial plexus injury, human amniotic epithelial cells, forepaw function, stress relaxation, creep, viscoelasticity, injection injury, cyclosporine A, penicillin G potassium, Wallerian degeneration, neuroelectrophysiology, Oenanthe javanica extract, cell proliferation, neuroblast differentiation, brain-derived neurotrophic factor, vascular endothelial growth factor, rat, middle cerebral artery occlusion, brain injury, oligodendrocytes, neural progenitor cells, proliferation, differentiation, neurogenesis, cerebral ischemia, point application, Angong Niuhuang sticker, neurological functions, acupuncture, traditional Chinese medicine, neuroimaging, resting-state functional magnetic resonance imaging, Taichong (LR3), Taixi (KI3), amplitude of low-frequency fluctuation, Brodmann area 11, Brodmann area 18, Brodmann area 19, Brodmann area 44, posterior lobe of the cerebellum, functional magnetic resonance imaging, resting state, task state, brain network, module division, feature binding, Fisher′s Z transform, connectivity, visual stimuli, Neurology. Diseases of the nervous system, RC346-429

Abstract

It is not clear whether the method used in functional brain-network related research can be applied to explore the feature binding mechanism of visual perception. In this study, we investigated feature binding of color and shape in visual perception. Functional magnetic resonance imaging data were collected from 38 healthy volunteers at rest and while performing a visual perception task to construct brain networks active during resting and task states. Results showed that brain regions involved in visual information processing were obviously activated during the task. The components were partitioned using a greedy algorithm, indicating the visual network existed during the resting state. Z-values in the vision-related brain regions were calculated, confirming the dynamic balance of the brain network. Connectivity between brain regions was determined, and the result showed that occipital and lingual gyri were stable brain regions in the visual system network, the parietal lobe played a very important role in the binding process of color features and shape features, and the fusiform and inferior temporal gyri were crucial for processing color and shape information. Experimental findings indicate that understanding visual feature binding and cognitive processes will help establish computational models of vision, improve image recognition technology, and provide a new theoretical mechanism for feature binding in visual perception.

Published

2015

16. Protective effects of a polysaccharide from Spirulina platensis on dopaminergic neurons in an MPTP-induced Parkinson′s disease model in C57BL/6J mice

Author

Fang Zhang, Jian Lu, Ji-guo Zhang, and Jun-xia Xie

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, earthquake, peripheral nerve injury, LSUHSC score, compartment syndrome, surgery therapy, physiotherapy, nerve decompression, brachial plexus injury, human amniotic epithelial cells, forepaw function, stress relaxation, creep, viscoelasticity, injection injury, cyclosporine A, penicillin G potassium, Wallerian degeneration, neuroelectrophysiology, Oenanthe javanica extract, cell proliferation, neuroblast differentiation, brain-derived neurotrophic factor, vascular endothelial growth factor, rat, middle cerebral artery occlusion, brain injury, oligodendrocytes, neural progenitor cells, proliferation, differentiation, neurogenesis, cerebral ischemia, point application, Angong Niuhuang sticker, neurological functions, acupuncture, traditional Chinese medicine, neuroimaging, resting-state functional magnetic resonance imaging, Taichong (LR3), Taixi (KI3), amplitude of low-frequency fluctuation, Brodmann area 11, Brodmann area 18, Brodmann area 19, Brodmann area 44, posterior lobe of the cerebellum, functional magnetic resonance imaging, resting state, task state, brain network, module division, feature binding, Fisher′s Z transform, connectivity, visual stimuli, polysaccharide from Spirulina platensis, Parkinson′s disease, MPTP, dopaminergic neurons, antioxidation, Neurology. Diseases of the nervous system, RC346-429

Abstract

The present study aimed to determine whether a polysaccharide obtained from Spirulina platensis shows protective effects on dopaminergic neurons. A Parkinson′s disease model was established through the intraperitoneal injection of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) in C57BL/6J mice. Prior to the MPTP injection, some mice were pretreated with intraperitoneal injections of a polysaccharide derived from Spirulina platensis once daily for 10 days. The results showed that the immunoreactive staining and mRNA expression of the dopamine transporter and tyrosine hydroxylase, the rate-limiting enzyme in dopamine synthesis, in the substantia nigra, were significantly increased in mice pretreated with 800 mg/kg of the polysaccharide compared with those in MPTP-treated mice. The activities of superoxide dismutase and glutathione peroxidase in the serum and midbrain were also increased significantly in mice injected with MPTP after pretreatment with the polysaccharide from Spirulina platensis. By contrast, the activity of monoamine oxidase B in serum and midbrain maintained unchanged. These experimental findings indicate that the polysaccharide obtained from Spirulina platensis plays a protective role against the MPTP-induced loss of dopaminergic neurons in C57BL/6J mice, and that the antioxidative properties of this polysaccharide likely underlie its neuroprotective effect.

Published

2015

17. Antagonizing amyloid-β/calcium-sensing receptor signaling in human astrocytes and neurons: a key to halt Alzheimer′s disease progression?

Author

Ilaria Dal Prà, Anna Chiarini, and Ubaldo Armato

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, Neurology. Diseases of the nervous system, RC346-429

Abstract

Astrocytes′ roles in late-onset Alzheimer′s disease (LOAD) promotion are important, since they survive soluble or fibrillar amyloid-β peptides (Aβs) neurotoxic effects, undergo alterations of intracellular and intercellular Ca 2+ signaling and gliotransmitters release via the Aβ/α7-nAChR (α7-nicotinic acetylcholine receptor) signaling, and overproduce/oversecrete newly synthesized Aβ42 oligomers, NO, and VEGF-A via the Aβ/CaSR (calcium-sensing receptor) signaling. Recently, it was suggested that the NMDAR (N-methyl-D-aspartate receptor) inhibitor nitromemantine would block the synapse-destroying effects of Aβ/α7-nAChR signaling. Yet, this and the progressive extracellular accrual and spreading of Aβ42 oligomers would be stopped well upstream by NPS 2143, an allosteric CaSR antagonist (calcilytic).

Published

2015

18. Brain activation and inhibition after acupuncture at Taichong and Taixi: resting-state functional magnetic resonance imaging

Author

Shao-qun Zhang, Yan-jie Wang, Ji-ping Zhang, Jun-qi Chen, Chun-xiao Wu, Zhi-peng Li, Jia-rong Chen, Huai-liang Ouyang, Yong Huang, and Chun-zhi Tang

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, earthquake, peripheral nerve injury, LSUHSC score, compartment syndrome, surgery therapy, physiotherapy, nerve decompression, brachial plexus injury, human amniotic epithelial cells, forepaw function, stress relaxation, creep, viscoelasticity, injection injury, cyclosporine A, penicillin G potassium, Wallerian degeneration, neuroelectrophysiology, Oenanthe javanica extract, cell proliferation, neuroblast differentiation, brain-derived neurotrophic factor, vascular endothelial growth factor, rat, middle cerebral artery occlusion, brain injury, oligodendrocytes, neural progenitor cells, proliferation, differentiation, neurogenesis, cerebral ischemia, point application, Angong Niuhuang sticker, neurological functions, acupuncture, traditional Chinese medicine, neuroimaging, resting-state functional magnetic resonance imaging, Taichong (LR3), Taixi (KI3), amplitude of low-frequency fluctuation, Brodmann area 11, Brodmann area 18, Brodmann area 19, Brodmann area 44, posterior lobe of the cerebellum, Neurology. Diseases of the nervous system, RC346-429

Abstract

Acupuncture can induce changes in the brain. However, the majority of studies to date have focused on a single acupoint at a time. In the present study, we observed activity changes in the brains of healthy volunteers before and after acupuncture at Taichong (LR3) and Taixi (KI3) using resting-state functional magnetic resonance imaging. Fifteen healthy volunteers underwent resting-state functional magnetic resonance imaging of the brain 15 minutes before acupuncture, then received acupuncture at Taichong and Taixi using the nail-pressing needle insertion method, after which the needle was retained in place for 30 minutes. Fifteen minutes after withdrawal of the needle, the volunteers underwent a further session of resting-state functional magnetic resonance imaging, which revealed that the amplitude of low-frequency fluctuation, a measure of spontaneous neuronal activity, increased mainly in the cerebral occipital lobe and middle occipital gyrus (Brodmann area 18/19), inferior occipital gyrus (Brodmann area 18) and cuneus (Brodmann area 18), but decreased mainly in the gyrus rectus of the frontal lobe (Brodmann area 11), inferior frontal gyrus (Brodmann area 44) and the center of the posterior lobe of the cerebellum. The present findings indicate that acupuncture at Taichong and Taixi specifically promote blood flow and activation in the brain areas related to vision, emotion and cognition, and inhibit brain areas related to emotion, attention, phonological and semantic processing, and memory.

Published

2015

19. Prevention against diffuse spinal cord astrocytoma: can the Notch pathway be a novel treatment target?

Author

Jian-jun Sun, Zhen-yu Wang, Ling-song Li, Hai-yan Yu, Yong-sheng Xu, Hai-bo Wu, Yi Luo, Bin Liu, Mei Zheng, Jin-long Mao, and Xiao-hui Lou

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, Neurology. Diseases of the nervous system, RC346-429

Abstract

This study was designed to investigate whether the Notch pathway is involved in the development of diffuse spinal cord astrocytomas. BALB/c nude mice received injections of CD133 + and CD133− cell suspensions prepared using human recurrent diffuse spinal cord astrocytoma tissue through administration into the right parietal lobe. After 7-11 weeks, magnetic resonance imaging was performed weekly. Xenografts were observed on the surfaces of the brains of mice receiving the CD133 + cell suspension, and Notch-immunopositive expression was observed in the xenografts. By contrast, no xenografts appeared in the identical position on the surfaces of the brains of mice receiving the CD133− cell suspension, and Notch-immunopositive expression was hardly detected either. Hematoxylin-eosin staining and immunohistochemical staining revealed xenografts on the convex surfaces of the brains of mice that underwent CD133 + astrocytoma transplantation. Some sporadic astroglioma cells showed pseudopodium-like structures, which extended into the cerebral white matter. However, it should be emphasized that the subcortex xenograft with Notch-immunopositive expression was found in the fourth mouse received injection of CD133− astrocytoma cells. However, these findings suggest that the Notch pathway plays an important role in the formation of astrocytomas, and can be considered a novel treatment target for diffuse spinal cord astrocytoma.

Published

2015

20. Point application with Angong Niuhuang sticker protects hippocampal and cortical neurons in rats with cerebral ischemia

Author

Dong-shu Zhang, Yuan-liang Liu, Dao-qi Zhu, Xiao-jing Huang, and Chao-hua Luo

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, earthquake, peripheral nerve injury, LSUHSC score, compartment syndrome, surgery therapy, physiotherapy, nerve decompression, brachial plexus injury, human amniotic epithelial cells, forepaw function, stress relaxation, creep, viscoelasticity, injection injury, cyclosporine A, penicillin G potassium, Wallerian degeneration, neuroelectrophysiology, Oenanthe javanica extract, cell proliferation, neuroblast differentiation, brain-derived neurotrophic factor, vascular endothelial growth factor, rat, middle cerebral artery occlusion, brain injury, oligodendrocytes, neural progenitor cells, proliferation, differentiation, neurogenesis, cerebral ischemia, point application, Angong Niuhuang sticker, neurological functions, acupuncture, traditional Chinese medicine, Neurology. Diseases of the nervous system, RC346-429

Abstract

Angong Niuhuang pill, a Chinese materia medica preparation, can improve neurological functions after acute ischemic stroke. Because of its inconvenient application and toxic components (Cinnabaris and Realgar), we used transdermal enhancers to deliver Angong Niuhuang pill by modern technology, which expanded the safe dose range and clinical indications. In this study, Angong Niuhuang stickers administered at different point application doses (1.35, 2.7, and 5.4 g/kg) were administered to the Dazhui (DU14), Qihai (RN6) and Mingmen (DU4) of rats with chronic cerebral ischemia, for 4 weeks. The Morris water maze was used to determine the learning and memory ability of rats. Hematoxylin-eosin staining and Nissl staining were used to observe neuronal damage of the cortex and hippocampal CA1 region in rats with chronic cerebral ischemia. The middle- and high-dose point application of Angong Niuhuang stickers attenuated neuronal damage in the cortex and hippocampal CA1 region, and improved the memory of rats with chronic cerebral ischemia with an efficacy similar to interventions by electroacupuncture at Dazhui (DU14), Qihai (RN6) and Mingmen (DU4). Our experimental findings indicate that point application with Angong Niuhuang stickers can improve cognitive function after chronic cerebral ischemia in rats and is neuroprotective with an equivalent efficacy to acupuncture.

Published

2015

21. A 2-year follow-up survey of 523 cases with peripheral nerve injuries caused by the earthquake in Wenchuan, China

Author

Chun-qing He, Li-hai Zhang, Xian-fei Liu, and Pei-fu Tang

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, earthquake, peripheral nerve injury, LSUHSC score, compartment syndrome, surgery therapy, physiotherapy, nerve decompression, Neurology. Diseases of the nervous system, RC346-429

Abstract

We performed a 2-year follow-up survey of 523 patients with peripheral nerve injuries caused by the earthquake in Wenchuan, Sichuan Province, China. Nerve injuries were classified into three types: type I injuries were nerve transection injuries, type II injuries were nerve compression injuries, and type III injuries displayed no direct neurological dysfunction due to trauma. In this study, 31 patients had type I injuries involving 41 nerves, 419 had type II injuries involving 823 nerves, and 73 had type III injuries involving 150 nerves. Twenty-two patients had open transection nerve injury. The restoration of peripheral nerve function after different treatments was evaluated. Surgical decompression favorably affected nerve recovery. Physiotherapy was effective for type I and type II nerve injuries, but not substantially for type III nerve injury. Pharmacotherapy had little effect on type II or type III nerve injuries. Targeted decompression surgery and physiotherapy contributed to the effective treatment of nerve transection and compression injuries. The Louisiana State University Health Sciences Center score for nerve injury severity declined with increasing duration of being trapped. In the first year after treatment, the Louisiana State University Health Sciences Center score for grades 3 to 5 nerve injury increased by 28.2% to 81.8%. If scores were still poor (0 or 1) after a 1-year period of treatment, further treatment was not effective.

Published

2015

22. Inhibition of inflammatory cytokines after early decompression may mediate recovery of neurological function in rats with spinal cord injury

Author

Jia-bing Xie, Xin Zhang, Quan-hui Li, and Zhu-jun Xu

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, Neurology. Diseases of the nervous system, RC346-429

Abstract

A variety of inflammatory cytokines are involved in spinal cord injury and influence the recovery of neuronal function. In the present study, we established a rat model of acute spinal cord injury by cerclage. The cerclage suture was released 8 or 72 hours later, to simulate decompression surgery. Neurological function was evaluated behaviorally for 3 weeks after surgery, and tumor necrosis factor α immunoreactivity and apoptosis were quantified in the region of injury. Rats that underwent decompression surgery had significantly weaker immunoreactivity of tumor necrosis factor α and significantly fewer apoptotic cells, and showed faster improvement of locomotor function than animals in which decompression surgery was not performed. Decompression at 8 hours resulted in significantly faster recovery than that at 72 hours. These data indicate that early decompression may improve neurological function after spinal cord injury by inhibiting the expression of tumor necrosis factor α.

Published

2015

23. Cortical neurogenesis in adult rats after ischemic brain injury: most new neurons fail to mature

Author

Qing-quan Li, Guan-qun Qiao, Jun Ma, Hong-wei Fan, and Ying-bin Li

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, earthquake, peripheral nerve injury, LSUHSC score, compartment syndrome, surgery therapy, physiotherapy, nerve decompression, brachial plexus injury, human amniotic epithelial cells, forepaw function, stress relaxation, creep, viscoelasticity, injection injury, cyclosporine A, penicillin G potassium, Wallerian degeneration, neuroelectrophysiology, Oenanthe javanica extract, cell proliferation, neuroblast differentiation, brain-derived neurotrophic factor, vascular endothelial growth factor, rat, middle cerebral artery occlusion, brain injury, oligodendrocytes, neural progenitor cells, proliferation, differentiation, neurogenesis, Neurology. Diseases of the nervous system, RC346-429

Abstract

The present study examines the hypothesis that endogenous neural progenitor cells isolated from the neocortex of ischemic brain can differentiate into neurons or glial cells and contribute to neural regeneration. We performed middle cerebral artery occlusion to establish a model of cerebral ischemia/reperfusion injury in adult rats. Immunohistochemical staining of the cortex 1, 3, 7, 14 or 28 days after injury revealed that neural progenitor cells double-positive for nestin and sox-2 appeared in the injured cortex 1 and 3 days post-injury, and were also positive for glial fibrillary acidic protein. New neurons were labeled using bromodeoxyuridine and different stages of maturity were identified using doublecortin, microtubule-associated protein 2 and neuronal nuclei antigen immunohistochemistry. Immature new neurons coexpressing doublecortin and bromodeoxyuridine were observed in the cortex at 3 and 7 days post-injury, and semi-mature and mature new neurons double-positive for microtubule-associated protein 2 and bromodeoxyuridine were found at 14 days post-injury. A few mature new neurons coexpressing neuronal nuclei antigen and bromodeoxyuridine were observed in the injured cortex 28 days post-injury. Glial fibrillary acidic protein/bromodeoxyuridine double-positive astrocytes were also found in the injured cortex. Our findings suggest that neural progenitor cells are present in the damaged cortex of adult rats with cerebral ischemic brain injury, and that they differentiate into astrocytes and immature neurons, but most neurons fail to reach the mature stage.

Published

2015

24. Human amniotic epithelial cell transplantation for the repair of injured brachial plexus nerve: evaluation of nerve viscoelastic properties

Author

Hua Jin, Qi Yang, Feng Ji, Ya-jie Zhang, Yan Zhao, and Min Luo

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, earthquake, peripheral nerve injury, LSUHSC score, compartment syndrome, surgery therapy, physiotherapy, nerve decompression, brachial plexus injury, human amniotic epithelial cells, forepaw function, stress relaxation, creep, viscoelasticity, Neurology. Diseases of the nervous system, RC346-429

Abstract

The transplantation of embryonic stem cells can effectively improve the creeping strength of nerves near an injury site in animals. Amniotic epithelial cells have similar biological properties as embryonic stem cells; therefore, we hypothesized that transplantation of amniotic epithelial cells can repair peripheral nerve injury and recover the creeping strength of the brachial plexus nerve. In the present study, a brachial plexus injury model was established in rabbits using the C 6 root avulsion method. A suspension of human amniotic epithelial cells was repeatedly injected over an area 4.0 mm lateral to the cephal and caudal ends of the C 6 brachial plexus injury site (1 × 10 6 cells/mL, 3 μL/injection, 25 injections) immediately after the injury. The results showed that the decrease in stress and increase in strain at 7,200 seconds in the injured rabbit C 6 brachial plexus nerve were mitigated by the cell transplantation, restoring the viscoelastic stress relaxation and creep properties of the brachial plexus nerve. The forepaw functions were also significantly improved at 26 weeks after injury. These data indicate that transplantation of human amniotic epithelial cells can effectively restore the mechanical properties of the brachial plexus nerve after injury in rabbits and that viscoelasticity may be an important index for the evaluation of brachial plexus injury in animals.

Published

2015

25. The Calcium-Sensing Receptor: Physiology, Pathophysiology and Car-Based Therapeutics : Physiology and pathophysiology of CaR

Author

BROWN, E.M., Harris, J. Robin, editor, Biswas, B.B., editor, Quinn, P., editor, Carafoli, Ernesto, editor, and Brini, Marisa, editor

Published

2007

26. The Nervous System Relevance of the Calcium Sensing Receptor in Health and Disease

Author

Maria Lo Giudice, Balázs Mihalik, András Dinnyés, and Julianna Kobolák

Subjects

calcium-sensing receptor, nervous system, calcilytic, calcimimetic, ischemia, Alzheimer’s disease, neuroblastoma, Organic chemistry, QD241-441

Abstract

The calcium sensing receptor (CaSR) was first identified in parathyroid glands, and its primary role in controlling systemic calcium homeostasis by the regulation of parathyroid hormone (PTH) secretion has been extensively described in literature. Additionally, the receptor has also been investigated in cells and tissues not directly involved in calcium homeostasis, e.g., the nervous system (NS), where it plays crucial roles in early neural development for the differentiation of neurons and glial cells, as well as in the adult nervous system for synaptic transmission and plasticity. Advances in the knowledge of the CaSR’s function in such physiological processes have encouraged researchers to further broaden the receptor’s investigation in the neuro-pathological conditions of the NS. Interestingly, pre-clinical data suggest that receptor inhibition by calcilytics might be effective in counteracting the pathomechanism underlying Alzheimer’s disease and ischemia, while a CaSR positive modulation with calcimimetics has been proposed as a potential approach for treating neuroblastoma. Importantly, such promising findings led to the repurposing of CaSR modulators as novel pharmacological alternatives for these disorders. Therefore, the aim of this review article is to critically appraise evidence which, so far, has been yielded from the investigation of the role of the CaSR in physiology of the nervous system and to focus on the most recent emerging concepts which have reported the receptor as a therapeutic target for neurodegeneration and neuroblastic tumors.

Published

2019

27. Right lower limb apraxia in a patient with left supplementary motor area infarction: intactness of the corticospinal tract confirmed by transcranial magnetic stimulation

Author

Min Cheol Chang and Min Ho Chun

Subjects

Alzheimer′s disease, amyloid-β, astrocytes, Ca 2+, calcilytic, calcium-sensing receptor, nitromemantine, NPS 2143, α7-nicotinic acetylcholine receptor, nerve regeneration, spinal cord injury, surgical decompression, tumor necrosis factor α, cell apoptosis, neurological function, neural regeneration, contusion, Nogo-A, axon growth, immunohistochemistry, fluorescent quantitative PCR, Schwann cells, cell transplantation, edaravone, motor function, electrophysiological function, electroacupuncture, intervertebral disc, blood circulation, inflammation, neuroprotection, neurons, NSFC grants, astrocytoma, mice, immunodeficiency (BALB/c) mice, Notch, nestin, glial fibrillary acidic protein, CD133, spinal cord, brain, MRI, earthquake, peripheral nerve injury, LSUHSC score, compartment syndrome, surgery therapy, physiotherapy, nerve decompression, brachial plexus injury, human amniotic epithelial cells, forepaw function, stress relaxation, creep, viscoelasticity, injection injury, cyclosporine A, penicillin G potassium, Wallerian degeneration, neuroelectrophysiology, Oenanthe javanica extract, cell proliferation, neuroblast differentiation, brain-derived neurotrophic factor, vascular endothelial growth factor, rat, middle cerebral artery occlusion, brain injury, oligodendrocytes, neural progenitor cells, proliferation, differentiation, neurogenesis, cerebral ischemia, point application, Angong Niuhuang sticker, neurological functions, acupuncture, traditional Chinese medicine, neuroimaging, resting-state functional magnetic resonance imaging, Taichong (LR3), Taixi (KI3), amplitude of low-frequency fluctuation, Brodmann area 11, Brodmann area 18, Brodmann area 19, Brodmann area 44, posterior lobe of the cerebellum, functional magnetic resonance imaging, resting state, task state, brain network, module division, feature binding, Fisher′s Z transform, connectivity, visual stimuli, polysaccharide from Spirulina platensis, Parkinson′s disease, MPTP, dopaminergic neurons, antioxidation, microRNA-9, bone marrow mesenchymal stem cells, neuron-like cells, autophagy, neuron specific enolase, microtubule-associated protein, LC3, lower limb apraxia, supplementary motor area, cerebral infarct, transcranial magnetic stimulation, corticospinal tract, stroke, Neurology. Diseases of the nervous system, RC346-429

Abstract

We reported a 50-year-old female patient with left supplementary motor area infarction who presented right lower limb apraxia and investigated the possible causes using transcranial magnetic stimulation. The patient was able to walk and climb stairs spontaneously without any assistance at 3 weeks after onset. However, she was unable to intentionally move her right lower limb although she understood what she supposed to do. The motor evoked potential evoked by transcranial magnetic stimulation from the right lower limb was within the normal range, indicating that the corticospinal tract innervating the right lower limb was uninjured. Thus, we thought that her motor dysfunction was not induced by motor weakness, and confirmed her symptoms as apraxia. In addition, these results also suggest that transcranial magnetic stimulation is helpful for diagnosing apraxia.

Published

2015

28. Asymmetric activation of the calcium-sensing receptor homodimer

Author

Sabrina N. Rahman, Michael J. Robertson, Alpay B. Seven, Fadil M. Hannan, Jesper Mosolff Mathiesen, Ouliana Panova, Rajesh V. Thakker, Yang Gao, Georgios Skiniotis, Chensong Zhang, Hans Bräuner-Osborne, and Justin G. Meyerowitz

Subjects

Models, Molecular, Calcimimetic, Protomer, Article, Substrate Specificity, 03 medical and health sciences, 0302 clinical medicine, Heterotrimeric G protein, Humans, Receptor, 030304 developmental biology, G protein-coupled receptor, 0303 health sciences, Multidisciplinary, Chemistry, Cryoelectron Microscopy, Rational design, Calcilytic, Biophysics, Calcium, Calcium-sensing receptor, Protein Multimerization, Peptides, Receptors, Calcium-Sensing, 030217 neurology & neurosurgery, Protein Binding

Abstract

The calcium-sensing receptor (CaSR), a cell-surface sensor for Ca2+, is the master regulator of calcium homeostasis in humans and is the target of calcimimetic drugs for the treatment of parathyroid disorders1. CaSR is a family C G-protein-coupled receptor2 that functions as an obligate homodimer, with each protomer composed of a Ca2+-binding extracellular domain and a seven-transmembrane-helix domain (7TM) that activates heterotrimeric G proteins. Here we present cryo-electron microscopy structures of near-full-length human CaSR in inactive or active states bound to Ca2+ and various calcilytic or calcimimetic drug molecules. We show that, upon activation, the CaSR homodimer adopts an asymmetric 7TM configuration that primes one protomer for G-protein coupling. This asymmetry is stabilized by 7TM-targeting calcimimetic drugs adopting distinctly different poses in the two protomers, whereas the binding of a calcilytic drug locks CaSR 7TMs in an inactive symmetric configuration. These results provide a detailed structural framework for CaSR activation and the rational design of therapeutics targeting this receptor. Cryo-EM structures of human calcium-sensing receptor reveal intrinsic asymmetry in the receptor homodimer upon activation that is stabilized by calcimimetic drugs adopting distinct poses in the two protomers, priming one protomer for G-protein coupling.

Published

2022

29. Calcilytics: a non-steroidal replacement for inhaled steroid and SABA/LABA therapy of human asthma?

Author

Christopher Corrigan

Subjects

musculoskeletal diseases, Pulmonary and Respiratory Medicine, Inhaled corticosteroids, Inflammation, Inhaled steroid, Non steroidal, Adrenal Cortex Hormones, immune system diseases, Administration, Inhalation, medicine, Humans, Immunology and Allergy, Anti-Asthmatic Agents, Asthma, business.industry, Public Health, Environmental and Occupational Health, medicine.disease, Bronchodilator Agents, respiratory tract diseases, Airway Obstruction, Bronchial hyperresponsiveness, Immunology, Calcilytic, Bronchial Hyperreactivity, medicine.symptom, Calcium-sensing receptor, business, Receptors, Calcium-Sensing, hormones, hormone substitutes, and hormone antagonists

Abstract

Asthma afflicts more than 300 million people. Contemporary mainstay therapies (inhaled corticosteroids and bronchodilators), prescribed empirically, control symptoms resulting from airways obstruction tolerably well in many patients but it is less clear that they alter the natural history of progressive airways inflammation and remodeling resulting in severe, therapy-resistant obstruction in a significant minority (5-10%), causing lifelong symptoms and elevated risk of recurrent hospital admission and death. Furthermore, no current anti-asthma drug targets bronchial smooth muscle hyperresponsiveness, a critical contributor to airways obstruction and the fundamental physiological abnormality characterizing asthma. Recent monoclonal antibody (biological) therapies reduce obstruction and exacerbations in some, but not all treated patients to an unpredictable extent, but are further limited by administration logistics and cost.An overview of the cellular and molecular immunopathology of asthma, highlighting the need and logic for the development of a novel, non-steroidal, small molecule drug for topical delivery targeting bronchial smooth muscle hyperresponsiveness and airways inflammation, particularly corticosteroid-refractory inflammation.This article elaborates evidence supporting the hypothesis that topically delivered, inhaled antagonists of the calcium-sensing receptor (CaSR) have the potential to meet these requirements, and the practicality of repurposing existing, small molecule CaSR antagonists (calcilytics) for this purpose.

Published

2020

30. Stereo-Specific Modulation of the Extracellular Calcium-Sensing Receptor in Colon Cancer Cells

Author

Schepelmann, Martin, Kupper, Nadja, Sladczyk, Marta, Mansfield, Bethan, Manhardt, Teresa, Piatek, Karina, Iamartino, Luca, Riccardi, Daniela, Kariuki, Benson M., Bassetto, Marcella, and Kallay, Enikö

Subjects

Models, Molecular, QH301-705.5, calcium-sensing receptor, Green Fluorescent Proteins, Molecular Conformation, Article, stereospecificity, enantiomer, Humans, calcilytic, Biology (General), QD1-999, IL-8, Interleukin-8, technology, industry, and agriculture, Stereoisomerism, calcimimetic, Chemistry, HEK293 Cells, Gene Expression Regulation, colon cancer, HT-29, inflammation, Colonic Neoplasms, Extracellular Space, HT29 Cells, Receptors, Calcium-Sensing

Abstract

Pharmacological allosteric agonists (calcimimetics) of the extracellular calcium-sensing receptor (CaSR) have substantial gastro-intestinal side effects and induce the expression of inflammatory markers in colon cancer cells. Here, we compared the effects of both CaSR-specific (R enantiomers) and -unspecific (S enantiomers) enantiomers of a calcimimetic (NPS 568) and a calcilytic (allosteric CaSR antagonists, NPS 2143) to prove that these effects are indeed mediated via the CaSR, rather than via off-target effects, e.g., on β-adrenoceptors or calcium channels, of these drugs. The unspecific S enantiomer of NPS 2143 and NPS S-2143 was prepared using synthetic chemistry and characterized using crystallography. NPS S-2143 was then tested in HEK-293 cells stably transfected with the human CaSR (HEK-CaSR), where it did not inhibit CaSR-mediated intracellular Ca2+ signals, as expected. HT29 colon cancer cells transfected with the CaSR were treated with both enantiomers of NPS 568 and NPS 2143 alone or in combination, and the expression of CaSR and the pro-inflammatory cytokine interleukin 8 (IL-8) was measured by RT-qPCR and ELISA. Only the CaSR-selective enantiomers of the calcimimetic NPS 568 and NPS 2143 were able to modulate CaSR and IL-8 expression. We proved that pro-inflammatory effects in colon cancer cells are indeed mediated through CaSR activation. The non-CaSR selective enantiomer NPS S-2143 will be a valuable tool for investigations in CaSR-mediated processes.

Published

2021

31. The calcium-sensing receptor modulates the prostaglandin E 2 pathway in intestinal inflammation.

Author

Gushchina V, Kupper N, Schwarzkopf M, Frisch G, Piatek K, Aigner C, Michel A, Schueffl H, Iamartino L, Elajnaf T, Manhardt T, Vlasaty A, Heffeter P, Bassetto M, Kállay E, and Schepelmann M

Abstract

Introduction: The prostaglandin E 2 (PGE 2 ) pathway is one of the main mediators of intestinal inflammation. As activation of the calcium-sensing receptor (CaSR) induces expression of inflammatory markers in the colon, we assessed the impact of the CaSR on the PGE 2 pathway regulation in colon cancer cells and the colon in vitro and in vivo . Methods and Results: We treated CaSR-transfected HT29 and Caco-2 colon cancer cell lines with different orthosteric ligands or modulators of the CaSR and measured gene expression and PGE 2 levels. In CaSR-transfected HT29 CaSR-GFP and Caco-2 CaSR-GFP cells, the orthosteric CaSR ligand spermine and the positive allosteric CaSR modulator NPS R -568 both induced an inflammatory state as measured by IL-8 gene expression and significantly increased the expression of the PGE 2 pathway key enzymes cyclooxygenase (COX)-2 and/or prostaglandin E 2 synthase 1 (PGES-1). Inhibition of the CaSR with the calcilytic NPS 2143 abolished the spermine- and NPS R -568-induced pro-inflammatory response. Interestingly, we observed cell-line specific responses as e.g . PGES-1 expression was affected only in HT29 CaSR-GFP but not in Caco-2 CaSR-GFP cells. Other genes involved in the PGE 2 pathway (COX-1, or the PGE 2 receptors) were not responsive to the treatment. None of the studied genes were affected by any CaSR agonist in GFP-only transfected HT29 GFP and Caco-2 GFP cells, indicating that the observed gene-inducing effects of spermine and R -568 were indeed mediated by the CaSR. In vivo , we had previously determined that treatment with the clinically approved calcimimetic cinacalcet worsened symptoms in a dextran sulfate sodium (DSS)-induced colitis mouse model. In the colons of these mice, cinacalcet significantly induced gene expression of PGES-2 and the EP3 receptor, but not COX-2; while NPS 2143 increased the expression of the PGE 2 -degrading enzyme 15-hydroxyprostaglandin dehydrogenase (15-PGDH). Importantly, neither treatment had any effect on the colons of non-DSS treated mice. Discussion: Overall, we show that activation of the CaSR induces the PGE 2 pathway, albeit with differing effects in vitro and in vivo . This may be due to the different microenvironment in vivo compared to in vitro , specifically the presence of a CaSR-responsive immune system. Since calcilytics inhibit ligand-mediated CaSR signaling, they may be considered for novel therapies against inflammatory bowel disease., Competing Interests: Author LI is employed by SiSaf Ltd. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Gushchina, Kupper, Schwarzkopf, Frisch, Piatek, Aigner, Michel, Schueffl, Iamartino, Elajnaf, Manhardt, Vlasaty, Heffeter, Bassetto, Kállay and Schepelmann.)

Published

2023

32. The calcilytics Calhex-231 and NPS 2143 and the calcimimetic Calindol reduce vascular reactivity via inhibition of voltage-gated Ca2+ channels.

Author

Greenberg, Harry Z.E., Jahan, Kazi S., Shi, Jian, Vanessa Ho, W.-S., and Albert, Anthony P.

Subjects

*CALCIUM-sensing receptors, *VASOCONSTRICTION, *CALCIUM channels, *VOLTAGE-gated ion channels, *ALLOSTERIC regulation, *MESENTERIC artery, *SMOOTH muscle

Abstract

The present study investigates the effect of commonly used negative and positive allosteric modulators of the calcium-sensing receptor (CaSR) on vascular reactivity. In wire myography studies, increasing [Ca 2+ ] o from 1 mM to 6 mM induced concentration-dependent relaxations of methoxamine-induced pre-contracted rabbit mesenteric arteries, with 6 mM [Ca 2+ ] o producing almost complete relaxation. [Ca 2+ ] o -induced relaxations were attenuated in the presence of the calcilytics Calhex-231 and NPS 2143, and abolished by the removal of the endothelium. In addition to their calcilytic effects, Calhex-231 and NPS 2143 also produced concentration-dependent inhibitions of methoxamine- or KCl-induced precontracted tone, which were unaffected by removal of the endothelium and unopposed in the presence of the calcimimetic Calindol. In vessels with depleted Ca 2+ stores, contractions mediated by Ca 2+ influx via voltage-gated Ca 2+ channels (VGCCs) were inhibited by Calhex231. In freshly isolated single rabbit mesenteric artery smooth muscle cells, Calhex-231 and NPS 2143 inhibited whole-cell VGCC currents. Application of Calindol also inhibited methoxamine- and KCl-induced pre-contracted tone, and inhibited whole-cell VGCC currents. In conclusion, in addition to their CaSR-mediated actions in the vasculature, Calhex-231, NPS 2143 and Calindol reduce vascular contractility via direct inhibition of VGCCs. [ABSTRACT FROM AUTHOR]

Published

2016

33. Calcilytics enhance sildenafil-induced antiproliferation in idiopathic pulmonary arterial hypertension.

Author

Yamamura, Aya, Yagi, Satomi, Ohara, Naoki, and Tsukamoto, Kikuo

Subjects

*PULMONARY hypertension treatment, *CALCIUM-sensing receptors, *PHOSPHODIESTERASE-5 inhibitors, *SILDENAFIL, *VASOCONSTRICTION, *THERAPEUTICS, PULMONARY artery diseases

Abstract

Idiopathic pulmonary arterial hypertension (IPAH) is a progressive and fatal disease of the pulmonary artery resulting from currently unidentified etiology. IPAH is pathologically characterized as sustained vasoconstriction and vascular remodeling of the pulmonary artery. Phosphodiesterase type 5 (PDE5) inhibitors have been clinically used in the treatment of IPAH. Recently, we have shown that Ca 2+ -sensing receptor (CaSR) antagonists, or calcilytics, inhibit excessive cell proliferation of pulmonary arterial smooth muscle cells (PASMCs) from IPAH patients. In this study, the additive or synergistic effect of calcilytics on antiproliferation following PDE5 inhibition was examined in IPAH-PASMCs by MTT assay. Treatment with sildenafil blocked the excessive cell proliferation of IPAH-PASMCs in a concentration-dependent manner with an IC 50 value of 16.9 μM. However, sildenafil (0.03–100 μM) did not affect the cell growth of PASMCs from normal subjects and patients with chronic thromboembolic pulmonary hypertension (CTEPH). Co-treatment with 0.3 μM NPS2143, a calcilytic, additively enhanced the antiproliferative effect induced by sildenafil (3 or 30 μM) in IPAH-PASMCs. Additionally, the inhibitory effect of calcilytics, NPS2143 or Calhex 231 (1 or 10 μM), on excessive cell proliferation of IPAH-PASMCs was synergistic increased in the presence of 1 μM sildenafil. Similar results were obtained by BrdU incorporation assay. These findings reveal that calcilytics additively/synergistically enhance the antiproliferative activity mediated by PDE5 inhibition, suggesting that a combination therapy of a PDE5 inhibitor with a calcilytic may be useful as a novel therapeutic approach for IPAH. [ABSTRACT FROM AUTHOR]

Published

2016

34. Calcium-Sensing Receptors of Human Neural Cells Play Crucial Roles in Alzheimer's Disease.

Author

Chiarini, Anna, Armato, Ubaldo, Daisong Liu, and Prà, Ilaria Dal

Subjects

ALZHEIMER'S disease, PATHOLOGICAL physiology, AMYLOID beta-protein, SECRETASES, CALCIUM-sensing receptors, CELLULAR signal transduction, NEUROTOXIC agents

Abstract

In aged subjects, late-onset Alzheimer's disease (LOAD) starts in the lateral entorhinal allocortex where a failure of clearance mechanisms triggers an accumulation of neurotoxic amyloid-β42 oligomers (Aβ42-os). In neurons and astrocytes, Aβ42-os enhance the transcription of Ab precursor protein (APP) and b-secretase/BACE1 genes. Thus, by acting together with g-secretase, the surpluses of APP and BACE1 amplify the endogenous production of Aβ42-os which pile up, damage mitochondria, and are oversecreted. At the plasmalemma, exogenous Aβ42-os bind neurons' and astrocytes' calcium-sensing receptors (CaSRs) activating a set of intracellular signaling pathways which upkeep Aβ42-os intracellular accumulation and oversecretion by hindering Aβ42-os proteolysis. In addition, Aβ42-os accumulating in the extracellular milieu spread and reach mounting numbers of adjacent and remoter teams of neurons and astrocytes which in turn are recruited, again via Aβ42-os*CaSR-governed mechanisms, to produce and release additional Aβ42-os amounts. This relentless self-sustaining mechanism drives AD progression toward upper cortical areas. Later on accumulating Aβ42-os elicit the advent of hyperphosphorylated (p)-Tau oligomers which acting together with Aβ42-os and other glial neurotoxins cooperatively destroy wider and wider cognition-related cortical areas. In parallel, Aβ42-os*CaSR signals also elicit an excess production and secretion of nitric oxide and vascular endothelial growth factor-A from astrocytes, of Aβ42-os and myelin basic protein from oligodendrocytes, and of proinflammatory cytokines, nitric oxide and (likely) Aβ42-os from microglia. Activated astrocytes and microglia survive the toxic onslaught, whereas neurons and oligodendrocytes increasingly die. However, we have shown that highly selective allosteric CaSR antagonists (calcilytics), like NPS 2143 and NPS 89626, efficiently suppress all the neurotoxic effects Aβ42-os*CaSR signaling drives in cultured cortical untransformed human neurons and astrocytes. In fact, calcilytics increase Aβ42 proteolysis and discontinue the oversecretion of Aβ42-os, nitric oxide, and vascular endothelial growth factor-A from both astrocytes and neurons. Seemingly, calcilytics would also benefit the other types of glial cells and cerebrovascular cells otherwise damaged by the effects of Aβ42-os*CaSR signaling. Thus, given at amnestic minor cognitive impairment (aMCI) or initial symptomatic stages, calcilytics could prevent or terminate the propagation of LOAD neuropathology and preserve human neurons' viability and hence patients' cognitive abilities. [ABSTRACT FROM AUTHOR]

Published

2016

35. Calcimimetic and Calcilytic Drugs: Feats, Flops, and Futures.

Author

Nemeth, E., Goodman, W., Nemeth, E F, and Goodman, W G

Subjects

*HYPERCALCEMIA, *PARATHYROID gland physiology, *KIDNEY physiology, *G protein coupled receptors, *HOMEOSTASIS, *ALLOSTERIC regulation, *THERAPEUTICS

Abstract

The actions of extracellular Ca(2+) in regulating parathyroid gland and kidney functions are mediated by the extracellular calcium receptor (CaR), a G protein-coupled receptor. The CaR is one of the essential molecules maintaining systemic Ca(2+) homeostasis and is a molecular target for drugs useful in treating bone and mineral disorders. Ligands that activate the CaR are termed calcimimetics and are classified as either agonists (type I) or positive allosteric modulators (type II); calcimimetics inhibit the secretion of parathyroid hormone (PTH). Cinacalcet is a type II calcimimetic that is used to treat secondary hyperparathyroidism in patients receiving dialysis and to treat hypercalcemia in some forms of primary hyperparathyroidism. The use of cinacalcet among patients with secondary hyperparathyroidism who are managed with dialysis effectively lowers circulating PTH levels, reduces serum phosphorus and FGF23 concentrations, improves bone histopathology, and may diminish skeletal fracture rates and the need for parathyroidectomy. A second generation type II calcimimetic (AMG 416) is currently under regulatory review. Calcilytics are CaR antagonists that stimulate the secretion of PTH. Several calcilytic compounds have been evaluated as orally active anabolic therapies for postmenopausal osteoporosis but clinical development of all of them has been abandoned because they lacked clinical efficacy. Calcilytics might be repurposed for new indications like autosomal dominant hypocalcemia or other disorders beyond those involving systemic Ca(2+) homeostasis. [ABSTRACT FROM AUTHOR]

Published

2016

36. L-Amino Acids Promote Calcitonin Release via a Calcium-Sensing Receptor: Gq/11-Mediated Pathway in Human C-Cells

Author

Arthur D. Conigrave, Katie Leach, and Hee Chang Mun

Subjects

Calcitonin, 0301 basic medicine, medicine.medical_specialty, Phenylalanine, 030209 endocrinology & metabolism, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Endocrinology, Internal medicine, Extracellular, Aromatic amino acids, medicine, Humans, Receptor, chemistry.chemical_classification, Chemistry, Tryptophan, Calcitonin secretion, Amino acid, 030104 developmental biology, Thyroid Epithelial Cells, Calcilytic, Calcium, Calcium-sensing receptor, Receptors, Calcium-Sensing, Signal Transduction

Abstract

Human calcitonin release is promoted by elevated extracellular Ca2+ (Ca2+o) concentration acting, at least in part, via the calcium-sensing receptor (CaSR). The CaSR is positively modulated by L-amino acids, including the aromatic amino acids L-phenylalanine (Phe) and L-tryptophan (Trp). To investigate the effect of L-amino acids on human calcitonin secretion, we selected thyroid TT cells and exposed them to various Ca2+o concentrations in the absence or presence of L-Phe, plasma-like mixtures of L-amino acids, or the clinically effective positive modulator (calcimimetic) cinacalcet. In the presence of L-Phe or plasma-like mixtures of amino acids, TT cells exhibited enhanced Ca2+o sensitivity in assays of calcitonin release and intracellular Ca2+ mobilization. Furthermore, the effect of elevated Ca2+o and L-Phe on calcitonin release was markedly suppressed by the calcilytic NPS-2143. These effects were dependent on CaSR-mediated activation of Gq/11 as revealed by the specific inhibitor YM-254890. The findings support the hypothesis that calcitonin release is stimulated by increases in plasma L-amino acid levels as well as elevated Ca2+o concentration. They also demonstrate that stimulated calcitonin release as well as basal levels of calcitonin secretion are mediated by a CaSR:Gq/11 signaling mechanism.

Published

2019

37. Activation of the calcium-sensing receptor in human valvular interstitial cells promotes calcification

Author

Lucie Hénaut, Cédric Boudot, Aida Ibrik, Thierry Caus, Michel Brazier, Romuald Mentaverri, Hawraa Issa, Saïd Kamel, Carine Avondo, Jeanne Bou Abdallah, Gaëlle Lenglet, Kazem Zibara, Mécanismes physiopathologiques et conséquences des calcifications vasculaires - UR UPJV 7517 (MP3CV), Université de Picardie Jules Verne (UPJV)-CHU Amiens-Picardie, and CHU Amiens-Picardie

Subjects

0301 basic medicine, medicine.medical_specialty, Calcification inhibitor, Calcimimetic, [SDV]Life Sciences [q-bio], Down-Regulation, 030204 cardiovascular system & hematology, 03 medical and health sciences, 0302 clinical medicine, Osteogenesis, Internal medicine, medicine, Cardiac valve calcification, Humans, Osteopontin, Receptor, Molecular Biology, ComputingMilieux_MISCELLANEOUS, Minerals, biology, Chemistry, Calcinosis, Aortic Valve Stenosis, medicine.disease, 3. Good health, 030104 developmental biology, Endocrinology, Aortic Valve, Calcilytic, biology.protein, Calcium, Tricuspid Valve, Calcium-sensing receptor, Cardiology and Cardiovascular Medicine, Receptors, Calcium-Sensing, Calcification

Abstract

Introduction and aims Calcific aortic valve disease (CAVD) is the most common heart valve disease in western countries. It has been reported that activation of the calcium-sensing receptor(CaSR) expressed by vascular smooth muscle cells prevents vascular calcification. However, to date, the CaSR's expression and function in cardiac valves have not been studied. The present study sought to evaluate the presence of the CaSR within human valvular interstitial cells (hVICs), assess the CaSR's functionality, and ascertain its involvement in hVIC calcification. Methods and results Data from Western blot, flow cytometry and immunocytochemistry experiments demonstrated that primary hVICs express the CaSR. The receptor was functional, since the incubation of hVICs with the calcimimetic R-568 significantly increased Ca2+-induced ERK1/2 phosphorylation, and exposure to the calcilytic NPS2143 reduced ERK1/2 activation. A reduction in endogenous CaSR expression by hVICs (using siRNA) was associated with significantly lower levels of Ca2+-induced mineralization (quantified using Alizarin Red staining). Similar data were obtained after the pharmacological inhibition of CaSR activity by the calcilytic NPS2143. In contrast, overexpression of a functional CaSR amplified Ca2+-induced calcification. Pharmacological activation of the CaSR with the calcimimetic R-568 showed similar effects. CaSR's procalcific properties are associated with increased osteogenic transition (as characterized by elevated mRNA expression of bone morphogenetic protein 2 and osterix), and reduced the expression of the calcification inhibitor osteopontin. Histological analysis of 12 human aortic tricuspid valves showed that CaSR expression was greater in calcified areas than in non-calcified areas. These data were confirmed by Western blots. Conclusions To the best of our knowledge, this study is the first to have demonstrated that hVICs express a functional CaSR. Taken as a whole, our data suggest that activation of the CaSR expressed by hVICs might be a key promoter of CAVD progression.

Published

2019

38. Calcilytics inhibit the proliferation and migration of human prostate cancer PC-3 cells

Author

Aya Yamamura, Motohiko Sato, and Junayed Nayeem

Subjects

Male, 0301 basic medicine, Down-Regulation, Naphthalenes, medicine.disease_cause, Inhibitory Concentration 50, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, Cell Movement, medicine, Humans, Receptor, Cell Proliferation, Pharmacology, Cyclohexylamines, Cell growth, Chemistry, lcsh:RM1-950, Prostatic Neoplasms, Cancer, medicine.disease, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, Benzamides, PC-3 Cells, Cancer cell, Calcilytic, Cancer research, Molecular Medicine, Calcium, Calcium-sensing receptor, Carcinogenesis, Receptors, Calcium-Sensing, 030217 neurology & neurosurgery

Abstract

The carcinogenesis and development of prostate cancer are mediated by enhanced Ca2+ signaling. In the present study, the pharmacological profile of the Ca2+-sensing receptor (CaSR) antagonists (calcilytics) was examined in human prostate cancer PC-3 cells. NPS2143 and Calhex 231 blocked extracellular Ca2+-induced increases in cytosolic [Ca2+]. NPS2143 and Calhex 231 inhibited cell proliferation (IC50 = 7.4 and 10.3 μM, respectively) and migration. The exposure to NPS2143 or Calhex 231 down-regulated CaSR protein expression. These results demonstrated that calcilytics inhibited cell proliferation/migration and down-regulated CaSR expression in human prostate cancer cells, suggesting their potential as novel therapeutic drugs for prostate cancer. Keywords: Calcium-sensing receptor, Calcilytic, Prostate cancer

Published

2019

39. New Directions in Treatment of Hypoparathyroidism

Author

John P. Bilezikian and Gaia Tabacco

Subjects

0301 basic medicine, endocrine system, medicine.medical_specialty, Hormone Replacement Therapy, Hypoparathyroidism, Endocrinology, Diabetes and Metabolism, Parathyroid hormone, 030209 endocrinology & metabolism, Endogeny, law.invention, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, law, Internal medicine, medicine, Humans, Secretion, Receptor, business.industry, medicine.disease, Recombinant Proteins, 030104 developmental biology, Parathyroid Hormone, Autosomal dominant hypocalcemia, Calcilytic, Recombinant DNA, business, hormones, hormone substitutes, and hormone antagonists

Abstract

The history of parathyroid hormone (PTH) replacement therapy for hypoparathyroidism begins in 1929. In 2015, the Food and Drug Administration approved recombinant human PTH(1-84) [rhPTH(1-84)] as a treatment for hypoparathyroidism. Long-term studies of rhPTH(1-84), up to 6 years, have demonstrated continued efficacy of this replacement agent. Approaches to optimize PTH treatment in hypoparathyroidism include subcutaneous pump delivery systems, long-lived carrier molecules, and long-acting PTH analogues that show promise to prolong efficacy. Calcilytic compounds have been explored as a treatment for autosomal dominant hypocalcemia. Calcilytics are negative modulators of the calcium-sensing receptor and may present a therapeutic opportunity to increase endogenous PTH synthesis and secretion.

Published

2018

40. Calcium-Sensing Receptor Contributes to Hyperoxia Effects on Human Fetal Airway Smooth Muscle

Author

Anne M. Roesler, Jovanka Ravix, Colleen M. Bartman, Brijeshkumar S. Patel, Marta Schiliro, Benjamin Roos, Lisa Nesbitt, Christina M. Pabelick, Richard J. Martin, Peter M. MacFarlane, and Y. S. Prakash

Subjects

0301 basic medicine, MAPK/ERK pathway, medicine.medical_specialty, smooth muscle contractility and remodeling, Physiology, chemistry.chemical_element, Calcium, lcsh:Physiology, Contractility, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), Internal medicine, medicine, Extracellular, fetal airway, Original Research, Hyperoxia, calcium, Class C GPCR, lcsh:QP1-981, Chemistry, respiratory system, respiratory tract diseases, 030104 developmental biology, Endocrinology, 030228 respiratory system, Calcilytic, Calcium-sensing receptor, medicine.symptom, oxygen, Intracellular

Abstract

Supplemental O2 (hyperoxia), necessary for maintenance of oxygenation in premature infants, contributes to neonatal and pediatric airway diseases including asthma. Airway smooth muscle (ASM) is a key resident cell type, responding to hyperoxia with increased contractility and remodeling [proliferation, extracellular matrix (ECM) production], making the mechanisms underlying hyperoxia effects on ASM significant. Recognizing that fetal lungs experience a higher extracellular Ca2+ ([Ca2+]o) environment, we previously reported that the calcium sensing receptor (CaSR) is expressed and functional in human fetal ASM (fASM). In this study, using fASM cells from 18 to 22 week human fetal lungs, we tested the hypothesis that CaSR contributes to hyperoxia effects on developing ASM. Moderate hyperoxia (50% O2) increased fASM CaSR expression. Fluorescence [Ca2+]i imaging showed hyperoxia increased [Ca2+]i responses to histamine that was more sensitive to altered [Ca2+]o, and promoted IP3 induced intracellular Ca2+ release and store-operated Ca2+ entry: effects blunted by the calcilytic NPS2143. Hyperoxia did not significantly increase mitochondrial calcium which was regulated by CaSR irrespective of oxygen levels. Separately, fASM cell proliferation and ECM deposition (collagens but not fibronectin) showed sensitivity to [Ca2+]o that was enhanced by hyperoxia, but blunted by NPS2143. Effects of hyperoxia involved p42/44 ERK via CaSR and HIF1α. These results demonstrate functional CaSR in developing ASM that contributes to hyperoxia-induced contractility and remodeling that may be relevant to perinatal airway disease.

Published

2021

41. The calcium-sensing receptor: A promising target for prevention of colorectal cancer.

Author

Aggarwal, Abhishek, Prinz-Wohlgenannt, Maximilian, Tennakoon, Samawansha, Höbaus, Julia, Boudot, Cedric, Mentaverri, Romuald, Brown, Edward M., Baumgartner-Parzer, Sabina, and Kállay, Enikö

Subjects

*CALCIUM-sensing receptors, *COLON cancer prevention, *CALCIUM-binding proteins, *G protein coupled receptors, *TUMOR suppressor proteins, *ALLOSTERIC regulation

Abstract

The inverse correlation between dietary calcium intake and the risk of colorectal cancer (CRC) is well known, but poorly understood. Expression of the calcium-sensing receptor (CaSR), a calcium-binding G protein-coupled receptor is downregulated in CRC leading us to hypothesize that the CaSR has tumor suppressive roles in the colon. The aim of this study was to understand whether restoration of CaSR expression could reduce the malignant phenotype in CRC. In human colorectal tumors, expression of the CaSR negatively correlated with proliferation markers whereas loss of CaSR correlated with poor tumor differentiation and reduced apoptotic potential. In vivo , dearth of CaSR significantly increased expression of proliferation markers and decreased levels of differentiation and apoptotic markers in the colons of CaSR / PTH double knock-out mice confirming the tumor suppressive functions of CaSR. In vitro CRC cells stably overexpressing wild-type CaSR showed significant reduction in proliferation, as well as increased differentiation and apoptotic potential. The positive allosteric modulator of CaSR, NPS R-568 further enhanced these effects, whereas treatment with the negative allosteric modulator, NPS 2143 inhibited these functions. Interestingly, the dominant-negative mutant (R185Q) was able to abrogate these effects. Our results demonstrate a critical tumor suppressive role of CaSR in the colon. Restoration of CaSR expression and function is linked to regulation of the balance between proliferation, differentiation, and apoptosis and provides a rationale for novel strategies in CRC therapy. [ABSTRACT FROM AUTHOR]

Published

2015

42. Towards tissue-specific pharmacology: insights from the calcium-sensing receptor as a paradigm for GPCR (patho)physiological bias.

Author

Leach, Katie, Conigrave, Arthur D., Sexton, Patrick M., and Christopoulos, Arthur

Subjects

*CALCIUM-sensing receptors, *G protein coupled receptors, *GENE expression, *LIGANDS (Biochemistry), *CELLULAR signal transduction, *ALLOSTERIC regulation

Abstract

The calcium-sensing receptor (CaSR) is a widely expressed G protein-coupled receptor (GPCR) that mediates numerous tissue-specific functions. Its multiple ligands and diverse roles attest to the need for exquisite control over the signaling pathways that mediate its effects. ‘Biased signaling’ is the phenomenon by which distinct ligands stabilize preferred receptor signaling states. The CaSR is subject to biased signaling in response to its endogenous ligands. Interestingly, the ‘natural’ bias of the CaSR is altered in disease states, and small molecule drugs engender biased allosteric modulation of downstream signaling pathways. Thus, biased signaling from the CaSR also has important implications pathophysiologically and therapeutically. As outlined in this review, this novel paradigm extends to other GPCRs, making the CaSR a model for studies of ligand-biased signaling and for understanding how it may be used to foster selective drug activity in different tissues. [ABSTRACT FROM AUTHOR]

Published

2015

43. The Aβ Peptides-Activated Calcium-Sensing Receptor Stimulates the Production and Secretion of Vascular Endothelial Growth Factor-A by Normoxic Adult Human Cortical Astrocytes.

Author

Dal Prà, Ilaria, Armato, Ubaldo, Chioffi, Franco, Pacchiana, Raffaella, Whitfield, James, Chakravarthy, Balu, Gui, Li, and Chiarini, Anna

Abstract

The excess vascular endothelial growth factor (VEGF) produced in the Alzheimer's disease (AD) brain can harm neurons, blood vessels, and other components of the neurovascular units (NVUs). But could astrocytes partaking in networks of astrocyte-neuron teams and connected to blood vessels of NVUs contribute to VEGF production? We have shown with cultured cerebral cortical normal (i.e., untransformed) adult human astrocytes (NAHAs) that exogenous amyloid-β peptides (Aβs) stimulate the astrocytes to make and secrete large amounts of Aβs and nitric oxide by a mechanism mediated through the calcium-sensing receptor (CaSR). Here, we report that exogenous Aβs stimulate the NAHAs to produce and secrete even VEGF-A through a CaSR-mediated mechanism. This is indicated by the ability of Aβs to specifically bind the CaSR, and the capability of a CaSR activator, the 'calcimimetic' NPS R-568, to imitate, and of the CaSR antagonist, 'calcilytic' NPS 2143, to inhibit, the Aβs stimulation of VEGF-A production and secretion by the NAHAs. Thus, Aβs that accumulate in the AD brain may make the astrocytes that envelop and functionally collaborate with neurons into multi-agent AD-driving 'machines' via a CaSR signaling mechanism(s). These observations suggest the possibility that CaSR allosteric antagonists such as NPS 2143 might impede AD progression. [ABSTRACT FROM AUTHOR]

Published

2014

44. The calcilytic drug Calhex-231 ameliorates vascular hyporesponsiveness in traumatic hemorrhagic shock by inhibiting oxidative stress and mitochondrial fission

Author

Lei Y, Li T, Peng X, Yang G, and Liu L

Subjects

Drug, business.industry, media_common.quotation_subject, Hemorrhagic shock, Calcilytic, Medicine, Mitochondrial fission, Pharmacology, business, medicine.disease_cause, Oxidative stress, media_common

Abstract

Background The calcium-sensing receptor (CaSR) plays a fundamental role in extracellular calcium homeostasis in humans. Surprisingly, CaSR is also expressed in non-homeostatic tissues and is involved in regulating diverse cellular functions. The objective of this study was to determine if Calhex-231 (Cal), a negative modulator of CaSR, may be beneficial in the treatment of traumatic hemorrhagic shock (THS) by improving cardiovascular function, and investigated its relationship to oxidative stress and the mitochondrial fusion-fission pathway. Methods Rats that had been subjected to traumatic hemorrhagic shock were used as models in this study. Hypoxia-treated vascular smooth muscle cells (VSMCs) were also used. The effects of Cal on cardiovascular function, animal survival, hemodynamic parameters, and vital organ function in THS rats were observed, and the relationship to oxidative stress and mitochondrial fusion-fission was investigated. Results Cal significantly improved hemodynamics, elevated blood pressure, increased vital organ blood perfusion and local oxygen supply, and markedly improved the survival outcomes of THS rats. Furthermore, Cal significantly improved vascular reactivity after THS, including the pressor response of THS rats to norepinephrine (NE), and also the contractile response of superior mesenteric arteries, mesenteric arterioles, and isolated VSMCs to NE. Cal also restored the THS-induced decrease in myosin light chain (MLC) phosphorylation, which is the principal mechanism responsible for VSMC contraction and vascular reactivity. Inhibition of MLC phosphorylation antagonized the Cal-induced restoration of vascular reactivity following THS. Cal decreased oxidative stress indexes and increased antioxidant enzyme levels in THS rats, and also reduced reactive oxygen species levels in hypoxic VSMCs. In addition, THS induced expression of mitochondrial fission proteins Drp1 and Fis1, and decreased expression of mitochondrial fusion protein Mfn1 in vascular tissues. Cal reduced expression of Drp1 and Fis1, but did not affect Mfn1 expression. In hypoxic VSMCs, Cal inhibited hypoxia-induced mitochondrial fragmentation and preserved mitochondrial morphology. Conclusions Calhex-231 exhibits outstanding potential for effective therapy of traumatic hemorrhagic shock, due to its ability to improve hemodynamics, increase vital organ blood perfusion, and markedly prolong animal survival. These beneficial effects result from its protection of vascular function via inhibition of oxidative stress and mitochondrial fission.

Published

2020

45. Calcimimetic and calcilytic therapies for inherited disorders of the calcium-sensing receptor signalling pathway

Author

Mie K Olesen, Rajesh V. Thakker, and Fadil M. Hannan

Subjects

0301 basic medicine, Pharmacology, business.industry, Calcimimetic, Molecular Pharmacology, 03 medical and health sciences, 030104 developmental biology, Germline mutation, Cancer research, Calcilytic, Medicine, Signal transduction, Calcium-sensing receptor, Receptor, business, G protein-coupled receptor

Abstract

The calcium-sensing receptor (CaS receptor) plays a pivotal role in extracellular calcium homeostasis, and germline loss-of-function and gain-of-function mutations cause familial hypocalciuric hypercalcaemia (FHH) and autosomal dominant hypocalcaemia (ADH), respectively. CaS receptor signal transduction in the parathyroid glands is probably regulated by G-protein subunit α11 (Gα11 ) and adaptor-related protein complex-2 σ-subunit (AP2σ), and recent studies have identified germline mutations of these proteins as a cause of FHH and/or ADH. Calcimimetics and calcilytics are positive and negative allosteric modulators of the CaS receptor that have potential efficacy for symptomatic forms of FHH and ADH. Cellular studies have demonstrated that these compounds correct signalling and/or trafficking defects caused by mutant CaS receptor, Gα11 or AP2σ proteins. Moreover, mouse model studies indicate that calcilytics can rectify the hypocalcaemia and hypercalciuria associated with ADH, and patient-based studies reveal calcimimetics to ameliorate symptomatic hypercalcaemia caused by FHH. Thus, calcimimetics and calcilytics represent targeted therapies for inherited disorders of the CaS receptor signalling pathway. Linked articles This article is part of a themed section on Molecular Pharmacology of GPCRs. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v175.21/issuetoc.

Published

2017

46. The Role of the Calcium-sensing Receptor in Cancer

Author

Rodland, Karin

Published

2004

47. Characterization of the effect of chronic administration of a calcium-sensing receptor antagonist, ronacaleret, on renal calcium excretion and serum calcium in postmenopausal women.

Author

Caltabiano, Stephen, Dollery, Colin T., Hossain, Mohammad, Kurtinecz, Milena T., Desjardins, John P., Favus, Murray J., Kumar, Rajiv, and Fitzpatrick, Lorraine A.

Subjects

*CALCIUM-sensing receptors, *SERUM, *POSTMENOPAUSE, *PARATHYROID hormone, *BONE density, *CALCIUM metabolism

Abstract

Abstract: Ronacaleret is an orally-active calcium-sensing receptor (CaSR) antagonist that has the potential for therapeutic utility in the stimulation of PTH release, notably as a bone anabolic agent comparable to recombinant human PTH(1–34) (rhPTH(1–34)). A recent study has shown that, despite the ability to increase circulating PTH levels in postmenopausal women in a dose-dependent manner, minimal effects of ronacaleret on bone mineral density have been observed. Therefore, the purpose of this study was to characterize the PTH profile as well as calcium metabolism parameters as a marker of PTH biological activity following the administration of ronacaleret or rhPTH(1–34). Administration of ronacaleret led to lower peak levels of PTH than were observed with rhPTH(1–34), however, greater total PTH exposure was observed. Further, chronic administration of either agent was associated with increases in urinary calcium excretion and serum calcium levels, with the magnitude of the changes following ronacaleret significantly greater than that for rhPTH(1–34). The greater magnitude of effects observed with ronacaleret is likely due to the greater total PTH exposure, and is potentially reflective of a state comparable to mild hyperparathyroidism. It is not clear whether the administration of all calcilytics would lead to a similar result, or is due to characteristics specific to ronacaleret. [Copyright &y& Elsevier]

Published

2013

48. A semimechanistic model of the time-course of release of PTH into plasma following administration of the calcilytic JTT-305/MK-5442 in humans.

Author

Cabal, Antonio, Mehta, Khamir, Ross, David S, Shrestha, Rajiv P, Comisar, Wendy, Denker, Andrew, Pai, Sudhakar M, and Ishikawa, Tomohiro

Abstract

ABSTRACT JTT-305/MK-5442 is a calcium-sensing receptor (CaSR) allosteric antagonist being investigated for the treatment of osteoporosis. JTT-305/MK-5442 binds to CaSRs, thus preventing receptor activation by Ca2+. In the parathyroid gland, this results in the release of parathyroid hormone (PTH). Sharp spikes in PTH secretion followed by rapid returns to baseline are associated with bone formation, whereas sustained elevation in PTH is associated with bone resorption. We have developed a semimechanistic, nonpopulation model of the time-course relationship between JTT-305/MK-5442 and whole plasma PTH concentrations to describe both the secretion of PTH and the kinetics of its return to baseline levels. We obtained mean concentration data for JTT-305/MK-5442 and whole PTH from a multiple dose study in U.S. postmenopausal women at doses of 5, 10, 15, and 20 mg. We hypothesized that PTH is released from two separate sources: a reservoir that is released rapidly (within minutes) in response to reduction in Ca2+ binding, and a second source released more slowly following hours of reduced Ca2+ binding. We modeled the release rates of these reservoirs as maximum pharmacologic effect (Emax) functions of JTT-305/MK-5442 concentration. Our model describes both the dose-dependence of PTH time of occurrence for maximum drug concentration (Tmax) and maximum concentration of drug (Cmax), and the extent and duration of the observed nonmonotonic return of PTH to baseline levels following JTT-305/MK-5442 administration. [ABSTRACT FROM AUTHOR]

Published

2013

49. Calcimimetic and calcilytic drugs for treating bone and mineral-related disorders.

Author

Nemeth, Edward F. and Shoback, Dolores

Abstract

The calcium-sensing receptor (CaSR) plays a pivotal role in regulating systemic Ca2+ homeostasis and is a target for drugs designed to treat certain disorders of bone and mineral metabolism. Calcimimetics are agonists or positive allosteric modulators of the CaSR; they inhibit parathyroid hormone (PTH) secretion and stimulate renal Ca2+ excretion. The first calcimimetic drug is cinacalcet, a positive allosteric modulator of the CaSR that is approved for treating secondary hyperparathyroidism (HPT) in patients on renal replacement therapy and for some forms of primary HPT characterized by clinically significant hypercalcemia. Cinacalcet is also being investigated as a therapy for other hypercalcemic conditions and certain hypophosphatemic disorders. Calcilytics are CaSR inhibitors that stimulate the secretion of PTH and decrease renal excretion of Ca2+. Although calcilytics have failed thus far as anabolic therapies for osteoporosis, they are currently being evaluated as novel therapies for new indications involving hypocalcemia and/or hypercalciuria. [Copyright &y& Elsevier]

Published

2013

50. Calcium-sensing receptor (CaSR): Pharmacological properties and signaling pathways.

Author

Conigrave, Arthur D. and Ward, Donald T.

Abstract

In this article we consider the mechanisms by which the calcium-sensing receptor (CaSR) induces its cellular responses via the control (activation or inhibition) of signaling pathways. We consider key features of CaSR-mediated signaling including its control of the heterotrimeric G-proteins Gq/11, Gi/o and G12/13 and the downstream consequences recognizing that very few CaSR-mediated cell phenomena have been fully described. We also consider the manner in which the CaSR contributes to the formation of specific signaling scaffolds via peptide recognition sequences in its intracellular C-terminal along with the origins of its high level of cooperativity, particularly for Ca2+ o, and its remarkable resistance to desensitization. We also consider the nature of the mechanisms by which the CaSR controls oscillatory and sustained Ca2+ i mobilizing responses and inhibits or elevates cyclic adenosine monophosphate (cAMP) levels dependent on the cellular and signaling context. Finally, we consider the diversity of the receptor's ligands, ligand binding sites and broader compartment-dependent physiological roles leading to the identification of pronounced ligand-biased signaling for agonists including Sr2+ and modulators including l-amino acids and the clinically effective calcimimetic cinacalcet. We note the implications of these findings for the development of new designer drugs that might target the CaSR in pathophysiological contexts beyond those established for the treatment of disorders of calcium metabolism. [Copyright &y& Elsevier]

Published

2013