Bazbek Davletov - Academia.edu (original) (raw)
Papers by Bazbek Davletov
There is an urgent need for new pain-relieving therapies. We have previously shown using mouse mo... more There is an urgent need for new pain-relieving therapies. We have previously shown using mouse models of persistent pain that a single intrathecal injection of substance P conjugated to the light chain of botulinum toxin (SP-BOT) silenced neurons in the dorsal horn of the spinal cord and alleviated mechanical hypersensitivity. The SP-BOT construct selectively silenced neurokinin 1 receptor positive (NK1R+) neurons in the superficial dorsal horn of the spinal cord. A subset of these NK1R+ neurons are nociceptive projection neurons and convey injury-related information to the brainstem, initiating and maintaining programmes of escape and recovery essential for healing. Previously, we observed a reduction in mechanical hypersensitivity in a spared nerve injury (SNI) model of neuropathic pain state after intrathecal injection of SP-BOT over the lumbar spinal cord and lasting for up to 40 days. In this latest study, we have extended these observations and now show that thermal and affect...
In the recent past about 40 botulinum neurotoxin (BoNT) subtypes belonging to serotypes A, B, E, ... more In the recent past about 40 botulinum neurotoxin (BoNT) subtypes belonging to serotypes A, B, E, and F pathogenic to humans were identified among hundreds of independent isolates. BoNTs are the etiological factors of botulism and represent potential bioweapons, but are also recognized pharmaceuticals for efficient counteraction of hyperactive nerve terminals in a variety of human diseases. The detailed biochemical characterization of subtypes as the basis for development of suitable countermeasures and possible novel therapeutic applications is lagging behind the increase in new subtypes. Here we report the primary structure of a ninth subtype of BoNT/F. Its amino acid sequence diverges by at least 8.4% at the holotoxin and 13.4% on the enzymatic domain level from all other known BoNT/F subtypes. We found that BoNT/F9 shares the scissile Q58/K59 bond in its substrate vesicle associated membrane protein 2 with the prototype BoNT/F1. Comparative biochemical analyses of four BoNT/F enz...
FEBS letters, 2018
Membrane fusion is a key event in exocytosis of neurotransmitters and hormones stored in intracel... more Membrane fusion is a key event in exocytosis of neurotransmitters and hormones stored in intracellular vesicles. In this process, SNARE proteins are essential components of the exocytotic molecular machinery, while lipids have been seen traditionally as structural elements. However, the so-called signalling lipids, such as sphingosine and arachidonic acid, interact with SNAREs and directly modulate the frequency and mode of fusion events. Interestingly, recent work has proved that the sphingosine analogue FTY-720, used in the treatment of multiple sclerosis, mimics the effects of signalling lipids. In the present Review, we discuss recent investigations suggesting that endogenous signalling lipids and synthetic analogues can modulate important physiological aspects of secretion, such as quantal release, vesicle recruitment into active sites, vesicle transport and even organelle fusion in the cytosol. Therefore, these compounds are far from being merely structural components of cellu...
Scientific reports, Jan 20, 2017
Neurotransmission and secretion of hormones involve a sequence of protein/lipid interactions with... more Neurotransmission and secretion of hormones involve a sequence of protein/lipid interactions with lipid turnover impacting on vesicle trafficking and ultimately fusion of secretory vesicles with the plasma membrane. We previously demonstrated that sphingosine, a sphingolipid metabolite, promotes formation of the SNARE complex required for membrane fusion and also increases the rate of exocytosis in isolated nerve terminals, neuromuscular junctions, neuroendocrine cells and in hippocampal neurons. Recently a fungi-derived sphingosine homologue, FTY720, has been approved for treatment of multiple sclerosis. In its non-phosphorylated form FTY720 accumulates in the central nervous system, reaching high levels which could affect neuronal function. Considering close structural similarity of sphingosine and FTY720 we investigated whether FTY720 has an effect on regulated exocytosis. Our data demonstrate that FTY720 can activate vesicular synaptobrevin for SNARE complex formation and enhanc...
Oncotarget, 2016
Neuroblastomas constitute a major cause of cancer-related deaths in young children. In recent yea... more Neuroblastomas constitute a major cause of cancer-related deaths in young children. In recent years, a number of translation-inhibiting enzymes have been evaluated for killing neuroblastoma cells. Here we investigated the potential vulnerability of human neuroblastoma cells to protease activity derived from botulinum neurotoxin type C. We show that following retinoic acid treatment, human neuroblastoma cells, SiMa and SH-SY5Y, acquire a neuronal phenotype evidenced by axonal growth and expression of neuronal markers. Botulinum neurotoxin type C which cleaves neuron-specific SNAP25 and syntaxin1 caused apoptotic death only in differentiated neuroblastoma cells. Direct comparison of translation-inhibiting enzymes and the type C botulinum protease revealed one order higher cytotoxic potency of the latter suggesting a novel neuroblastoma-targeting pathway. Our mechanistic insights revealed that loss of ubiquitous SNAP23 due to differentiation coupled to SNAP25 cleavage due to botulinum activity may underlie the apoptotic death of human neuroblastoma cells.
Pain, 2016
Local injections of botulinum toxins have been reported to be useful not only for the treatment o... more Local injections of botulinum toxins have been reported to be useful not only for the treatment of peripheral neuropathic pain and migraine but also to cause long-lasting muscle paralysis, a potentially serious side effect. Recently, a botulinum A-based molecule ("BiTox") has been synthesized that retains neuronal silencing capacity without triggering muscle paralysis. In this study, we examined whether BiTox delivered peripherally was able to reduce or prevent the increased nociceptive sensitivity found in animal models of inflammatory, surgical, and neuropathic pain. Plasma extravasation and edema were also measured as well as keratinocyte proliferation. No motor deficits were seen and acute thermal and mechanical nociceptive thresholds were unimpaired by BiTox injections. We found reduced plasma extravasation and inflammatory edema as well as lower levels of keratinocyte proliferation in cutaneous tissue after local BiTox injection. However, we found no evidence that BiTox was transported to the dorsal root ganglia or dorsal horn and no deficits in formalin-elicited behaviors or capsaicin or formalin-induced c-Fos expression within the dorsal horn. In contrast, Bitox treatment strongly reduced A-nociceptor-mediated secondary mechanical hyperalgesia associated with either complete Freund's adjuvant (CFA)-induced joint inflammation or capsaicin injection and the hypersensitivity associated with spared nerve injury. These results imply that although local release of neuromodulators from C-fibers was inhibited by BiTox injection, C-nociceptive signaling function was not impaired. Taken together with recent clinical data the results suggest that BiTox should be considered for treatment of pain conditions in which A-nociceptors are thought to play a significant role.
Introduction Many disease states are caused by miss-regulated neurotransmission. A small fraction... more Introduction Many disease states are caused by miss-regulated neurotransmission. A small fraction of these diseases can currently be treated with botulinum neurotoxin type A (BoNT/A). BoNT/A is composed of three functional domains – the light chain (Lc) is a zinc metalloprotease that cleaves intracellular SNAP25 which inhibits exocytosis, the translocation domain (Td) that enables the export of the light chain from the endosome to the cytosol, and the receptor binding domain (Rbd) that binds to extracellular gangliosides and synaptic vesicle glycoproteins while awaiting internalisation [1]. Current endeavours are directed towards retargeting Bont/A as well as finding safer methods of preparation and administration. Recently, our laboratory has developed a SNARE based linking strategy to recombine non-toxic BoNT/A fragments into a functional protein by simple mixing [2]. This SNARE based linking strategy permits the step-wise assembly of highly stable macromolecular complexes [2,3]. ...
Proceedings of the National Academy of Sciences, 2010
Generation of supramolecular architectures through controlled linking of suitable building blocks... more Generation of supramolecular architectures through controlled linking of suitable building blocks can offer new perspectives to medicine and applied technologies. Current linking strategies often rely on chemical methods that have limitations and cannot take full advantage of the recombinant technologies. Here we used SNARE proteins, namely, syntaxin, SNAP25, and synaptobrevin, which form stable tetrahelical complexes that drive fusion of intracellular membranes, as versatile tags for irreversible linking of recombinant and synthetic functional units. We show that SNARE tagging allows stepwise production of a functional modular medicinal toxin, namely, botulinum neurotoxin type A, commonly known as BOTOX. This toxin consists of three structurally independent units: Receptor-binding domain (Rbd), Translocation domain (Td), and the Light chain (Lc), the last being a proteolytic enzyme. Fusing the receptor-binding domain with synaptobrevin SNARE motif allowed delivery of the active par...
Nature Neuroscience, 2012
Journal of Neurochemistry, 2014
Glia, 2012
In the brain, astrocytes signal to the neighboring cells by the release of chemical messengers (g... more In the brain, astrocytes signal to the neighboring cells by the release of chemical messengers (gliotransmitters) via regulated exocytosis. Recent studies uncovered a potential role of signaling lipids in modulation of exocytosis. Hence, we investigated whether sphingosine and the structural analog fingolimod/FTY720, a recently introduced therapeutic for multiple sclerosis, affect (i) intracellular vesicle mobility and (ii) vesicle cargo discharge from cultured rat astrocytes. Distinct types of vesicles, peptidergic, glutamatergic, and endosomes/lysosomes, were fluorescently prelabeled by cell transfection with plasmids encoding atrial natriuretic peptide tagged with mutant green fluorescent protein and vesicular glutamate transporter tagged with enhanced green fluorescent protein or by LysoTracker staining, respectively. The confocal and total internal reflection fluorescence microscopies were used to monitor vesicle mobility in the cytoplasm and near the basal plasma membrane, respectively. Sphingosine and FTY720, but not the membrane impermeable lipid analogs, dose-dependently attenuated vesicle mobility in the subcellular regions studied, and significantly inhibited stimulated exocytotic peptide and glutamate release. We conclude that in astrocytes, cell permeable sphingosine-like lipids affect regulated exocytosis by attenuating vesicle mobility, thereby preventing effective vesicle access/interaction with the plasma membrane docking/release sites. V
EMBO reports, 2010
a-Synuclein is a synaptic modulatory protein implicated in the pathogenesis of Parkinson disease.... more a-Synuclein is a synaptic modulatory protein implicated in the pathogenesis of Parkinson disease. The precise functions of this small cytosolic protein are still under investigation. a-Synuclein has been proposed to regulate soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) proteins involved in vesicle fusion. Interestingly, a-synuclein fails to interact with SNARE proteins in conventional protein-binding assays, thus suggesting an indirect mode of action. As the structural and functional properties of both a-synuclein and the SNARE proteins can be modified by arachidonic acid, a common lipid regulator, we analysed this possible tripartite link in detail. Here, we show that the ability of arachidonic acid to stimulate SNARE complex formation and exocytosis can be controlled by a-synuclein, both in vitro and in vivo. a-Synuclein sequesters arachidonic acid and thereby blocks the activation of SNAREs. Our data provide mechanistic insights into the action of a-synuclein in the modulation of neurotransmission.
Bioconjugate Chemistry, 2012
Combining proteins or their defined domains offers new enhanced functions. Conventionally, two pr... more Combining proteins or their defined domains offers new enhanced functions. Conventionally, two proteins are either fused into a single polypeptide chain by recombinant means or chemically cross-linked. However, these strategies can have drawbacks such as poor expression (recombinant fusions) or aggregation and inactivation (chemical crosslinking), especially in the case of large multifunctional proteins. We developed a new linking method which allows site-oriented, noncovalent, yet irreversible stapling of modified proteins at neutral pH and ambient temperature. This method is based on two distinct polypeptide linkers which self-assemble in the presence of a specific peptide staple allowing on-demand and irreversible combination of protein domains. Here we show that linkers can either be expressed or be chemically conjugated to proteins of interest, depending on the source of the proteins. We also show that the peptide staple can be shortened to 24 amino acids still permitting an irreversible combination of functional proteins. The versatility of this modular technique is demonstrated by stapling a variety of proteins either in solution or to surfaces.
Biochemistry, 2009
The monoclonal antibody SMI81 binds SNAP-25, a major player in neurotransmitter release, with hig... more The monoclonal antibody SMI81 binds SNAP-25, a major player in neurotransmitter release, with high affinity and has previously been used to follow changes in the levels of this protein in neuropsychiatric disorders. We report here that the SMI81 epitope is present at the extreme N-terminus of SNAP-25 and, unusually, cannot be recognized when present as an internal sequence. Although it is known that SNAP-25 can be palmitoylated and phosphorylated in brain, we now reveal the existence of a third modification, acetylation of the N-terminus. This acetylation event greatly increases the efficiency of SMI81 antibody binding. We show that this highly specific antibody can be used for studying brain function in many vertebrate organisms.
Analytical Biochemistry, 2008
The C2 domain is a common protein module which mediates calcium-dependent phospholipid binding. S... more The C2 domain is a common protein module which mediates calcium-dependent phospholipid binding. Several assays have previously been developed to measure membrane association. However, these assays either have technical drawbacks or are laborious to carry out. We now present a simple solution-based turbidity method for rapidly assaying membrane association of single lipid-binding domains in real time. We used the first C2 domain of synaptotagmin1 (C2A) as a model lipid-binding moiety. Our use of the common dimeric glutathione-S-transferase (GST) fusion tag allowed two C2A domains to be brought into close proximity. Consequently, calcium-triggered phospholipid binding by this artificially dimerized C2A resulted in liposomal aggregation, easily assayed by following absorbance of the solution at 350 nm. The assay is simple and sensitive and can be scaled up conveniently for use in a multiwell plate format, allowing high-throughput screening. In our screens, we identified nickel as a novel activator of synaptotagmin1 C2A domain membrane association. Finally, we show that the turbidity method can be applied to the study of other GSTtagged lipid-binding proteins such as epsin, protein kinase C-b, and synaptobrevin.
Journal of Neurochemistry, 2013
The Journal of General Physiology, 1997
Journal of Biological Chemistry, 1993
Synaptotagmin I is a Ca2+-and phospholipid-binding protein of synaptic vesicles with an essential... more Synaptotagmin I is a Ca2+-and phospholipid-binding protein of synaptic vesicles with an essential function in neurotransmission. Ca2+/phospholipid binding by synaptotagmin I may be mediated by its C2 domains, sequence motifs that have been implicated in the Ca2+ regulation of a variety of proteins. However, it is currently unknown if C2 domains are sufficient for Ca2V phospholipid binding or if they even directly participate in Ca2+/phospholipid binding. In order to address this question, we have studied the Ca2'/phospholipid-binding properties of the first Cz domain of synaptotagmin I. Our results show that this C2 domain by itself binds Ca2+ and phospholipids with high affinity (half-maximal binding at 4-6 p~ free Ca2') and exhibits strong positive cooperativity. The C2 domain is specific for negatively charged phospholipids and for those divalent cations that are known to stimulate synaptic vesicle exocytosis (Caz+ > SS+, Ba2+ >>> M e). These studies establish that C2 domains can serve as independently folding Ca2+/ phospholipid-binding domains. Furthermore, the cation specificity and the cooperativity of Ca2+ binding by the C2 domain from synaptotagmin I support a role for this protein in mediating the Caz+ signal in neurotransmitter release.
Journal of cellular biochemistry, 2014
Transfection of DNA has been invaluable for biological sciences, yet the effects upon membrane ho... more Transfection of DNA has been invaluable for biological sciences, yet the effects upon membrane homeostasis are far from negligible. Here, we demonstrate that Neuro2A cells transfected using Lipofectamine LTX with the fluorescently coupled Botulinum serotype A holoenzyme (EGFP-LcA) cDNA express this SNAP25 protease that can, once translated, escape the transfected host cytosol and become endocytosed into untransfected cells, without its innate binding and translocation domains. Fluorescent readouts revealed moderate transfection rates (30-50%) while immunoblotting revealed a surprisingly total enzymatic cleavage of SNAP25; the transgenic protein acted beyond the confines of its host cell. Using intracellular dyes, no important cytotoxic effects were observed from reagent treatment alone, which excluded the possibility of membrane ruptures, though noticeably, intracellular acidic organelles were redistributed towards the plasma membrane. This drastic, yet frequently unobserved, change...
There is an urgent need for new pain-relieving therapies. We have previously shown using mouse mo... more There is an urgent need for new pain-relieving therapies. We have previously shown using mouse models of persistent pain that a single intrathecal injection of substance P conjugated to the light chain of botulinum toxin (SP-BOT) silenced neurons in the dorsal horn of the spinal cord and alleviated mechanical hypersensitivity. The SP-BOT construct selectively silenced neurokinin 1 receptor positive (NK1R+) neurons in the superficial dorsal horn of the spinal cord. A subset of these NK1R+ neurons are nociceptive projection neurons and convey injury-related information to the brainstem, initiating and maintaining programmes of escape and recovery essential for healing. Previously, we observed a reduction in mechanical hypersensitivity in a spared nerve injury (SNI) model of neuropathic pain state after intrathecal injection of SP-BOT over the lumbar spinal cord and lasting for up to 40 days. In this latest study, we have extended these observations and now show that thermal and affect...
In the recent past about 40 botulinum neurotoxin (BoNT) subtypes belonging to serotypes A, B, E, ... more In the recent past about 40 botulinum neurotoxin (BoNT) subtypes belonging to serotypes A, B, E, and F pathogenic to humans were identified among hundreds of independent isolates. BoNTs are the etiological factors of botulism and represent potential bioweapons, but are also recognized pharmaceuticals for efficient counteraction of hyperactive nerve terminals in a variety of human diseases. The detailed biochemical characterization of subtypes as the basis for development of suitable countermeasures and possible novel therapeutic applications is lagging behind the increase in new subtypes. Here we report the primary structure of a ninth subtype of BoNT/F. Its amino acid sequence diverges by at least 8.4% at the holotoxin and 13.4% on the enzymatic domain level from all other known BoNT/F subtypes. We found that BoNT/F9 shares the scissile Q58/K59 bond in its substrate vesicle associated membrane protein 2 with the prototype BoNT/F1. Comparative biochemical analyses of four BoNT/F enz...
FEBS letters, 2018
Membrane fusion is a key event in exocytosis of neurotransmitters and hormones stored in intracel... more Membrane fusion is a key event in exocytosis of neurotransmitters and hormones stored in intracellular vesicles. In this process, SNARE proteins are essential components of the exocytotic molecular machinery, while lipids have been seen traditionally as structural elements. However, the so-called signalling lipids, such as sphingosine and arachidonic acid, interact with SNAREs and directly modulate the frequency and mode of fusion events. Interestingly, recent work has proved that the sphingosine analogue FTY-720, used in the treatment of multiple sclerosis, mimics the effects of signalling lipids. In the present Review, we discuss recent investigations suggesting that endogenous signalling lipids and synthetic analogues can modulate important physiological aspects of secretion, such as quantal release, vesicle recruitment into active sites, vesicle transport and even organelle fusion in the cytosol. Therefore, these compounds are far from being merely structural components of cellu...
Scientific reports, Jan 20, 2017
Neurotransmission and secretion of hormones involve a sequence of protein/lipid interactions with... more Neurotransmission and secretion of hormones involve a sequence of protein/lipid interactions with lipid turnover impacting on vesicle trafficking and ultimately fusion of secretory vesicles with the plasma membrane. We previously demonstrated that sphingosine, a sphingolipid metabolite, promotes formation of the SNARE complex required for membrane fusion and also increases the rate of exocytosis in isolated nerve terminals, neuromuscular junctions, neuroendocrine cells and in hippocampal neurons. Recently a fungi-derived sphingosine homologue, FTY720, has been approved for treatment of multiple sclerosis. In its non-phosphorylated form FTY720 accumulates in the central nervous system, reaching high levels which could affect neuronal function. Considering close structural similarity of sphingosine and FTY720 we investigated whether FTY720 has an effect on regulated exocytosis. Our data demonstrate that FTY720 can activate vesicular synaptobrevin for SNARE complex formation and enhanc...
Oncotarget, 2016
Neuroblastomas constitute a major cause of cancer-related deaths in young children. In recent yea... more Neuroblastomas constitute a major cause of cancer-related deaths in young children. In recent years, a number of translation-inhibiting enzymes have been evaluated for killing neuroblastoma cells. Here we investigated the potential vulnerability of human neuroblastoma cells to protease activity derived from botulinum neurotoxin type C. We show that following retinoic acid treatment, human neuroblastoma cells, SiMa and SH-SY5Y, acquire a neuronal phenotype evidenced by axonal growth and expression of neuronal markers. Botulinum neurotoxin type C which cleaves neuron-specific SNAP25 and syntaxin1 caused apoptotic death only in differentiated neuroblastoma cells. Direct comparison of translation-inhibiting enzymes and the type C botulinum protease revealed one order higher cytotoxic potency of the latter suggesting a novel neuroblastoma-targeting pathway. Our mechanistic insights revealed that loss of ubiquitous SNAP23 due to differentiation coupled to SNAP25 cleavage due to botulinum activity may underlie the apoptotic death of human neuroblastoma cells.
Pain, 2016
Local injections of botulinum toxins have been reported to be useful not only for the treatment o... more Local injections of botulinum toxins have been reported to be useful not only for the treatment of peripheral neuropathic pain and migraine but also to cause long-lasting muscle paralysis, a potentially serious side effect. Recently, a botulinum A-based molecule ("BiTox") has been synthesized that retains neuronal silencing capacity without triggering muscle paralysis. In this study, we examined whether BiTox delivered peripherally was able to reduce or prevent the increased nociceptive sensitivity found in animal models of inflammatory, surgical, and neuropathic pain. Plasma extravasation and edema were also measured as well as keratinocyte proliferation. No motor deficits were seen and acute thermal and mechanical nociceptive thresholds were unimpaired by BiTox injections. We found reduced plasma extravasation and inflammatory edema as well as lower levels of keratinocyte proliferation in cutaneous tissue after local BiTox injection. However, we found no evidence that BiTox was transported to the dorsal root ganglia or dorsal horn and no deficits in formalin-elicited behaviors or capsaicin or formalin-induced c-Fos expression within the dorsal horn. In contrast, Bitox treatment strongly reduced A-nociceptor-mediated secondary mechanical hyperalgesia associated with either complete Freund's adjuvant (CFA)-induced joint inflammation or capsaicin injection and the hypersensitivity associated with spared nerve injury. These results imply that although local release of neuromodulators from C-fibers was inhibited by BiTox injection, C-nociceptive signaling function was not impaired. Taken together with recent clinical data the results suggest that BiTox should be considered for treatment of pain conditions in which A-nociceptors are thought to play a significant role.
Introduction Many disease states are caused by miss-regulated neurotransmission. A small fraction... more Introduction Many disease states are caused by miss-regulated neurotransmission. A small fraction of these diseases can currently be treated with botulinum neurotoxin type A (BoNT/A). BoNT/A is composed of three functional domains – the light chain (Lc) is a zinc metalloprotease that cleaves intracellular SNAP25 which inhibits exocytosis, the translocation domain (Td) that enables the export of the light chain from the endosome to the cytosol, and the receptor binding domain (Rbd) that binds to extracellular gangliosides and synaptic vesicle glycoproteins while awaiting internalisation [1]. Current endeavours are directed towards retargeting Bont/A as well as finding safer methods of preparation and administration. Recently, our laboratory has developed a SNARE based linking strategy to recombine non-toxic BoNT/A fragments into a functional protein by simple mixing [2]. This SNARE based linking strategy permits the step-wise assembly of highly stable macromolecular complexes [2,3]. ...
Proceedings of the National Academy of Sciences, 2010
Generation of supramolecular architectures through controlled linking of suitable building blocks... more Generation of supramolecular architectures through controlled linking of suitable building blocks can offer new perspectives to medicine and applied technologies. Current linking strategies often rely on chemical methods that have limitations and cannot take full advantage of the recombinant technologies. Here we used SNARE proteins, namely, syntaxin, SNAP25, and synaptobrevin, which form stable tetrahelical complexes that drive fusion of intracellular membranes, as versatile tags for irreversible linking of recombinant and synthetic functional units. We show that SNARE tagging allows stepwise production of a functional modular medicinal toxin, namely, botulinum neurotoxin type A, commonly known as BOTOX. This toxin consists of three structurally independent units: Receptor-binding domain (Rbd), Translocation domain (Td), and the Light chain (Lc), the last being a proteolytic enzyme. Fusing the receptor-binding domain with synaptobrevin SNARE motif allowed delivery of the active par...
Nature Neuroscience, 2012
Journal of Neurochemistry, 2014
Glia, 2012
In the brain, astrocytes signal to the neighboring cells by the release of chemical messengers (g... more In the brain, astrocytes signal to the neighboring cells by the release of chemical messengers (gliotransmitters) via regulated exocytosis. Recent studies uncovered a potential role of signaling lipids in modulation of exocytosis. Hence, we investigated whether sphingosine and the structural analog fingolimod/FTY720, a recently introduced therapeutic for multiple sclerosis, affect (i) intracellular vesicle mobility and (ii) vesicle cargo discharge from cultured rat astrocytes. Distinct types of vesicles, peptidergic, glutamatergic, and endosomes/lysosomes, were fluorescently prelabeled by cell transfection with plasmids encoding atrial natriuretic peptide tagged with mutant green fluorescent protein and vesicular glutamate transporter tagged with enhanced green fluorescent protein or by LysoTracker staining, respectively. The confocal and total internal reflection fluorescence microscopies were used to monitor vesicle mobility in the cytoplasm and near the basal plasma membrane, respectively. Sphingosine and FTY720, but not the membrane impermeable lipid analogs, dose-dependently attenuated vesicle mobility in the subcellular regions studied, and significantly inhibited stimulated exocytotic peptide and glutamate release. We conclude that in astrocytes, cell permeable sphingosine-like lipids affect regulated exocytosis by attenuating vesicle mobility, thereby preventing effective vesicle access/interaction with the plasma membrane docking/release sites. V
EMBO reports, 2010
a-Synuclein is a synaptic modulatory protein implicated in the pathogenesis of Parkinson disease.... more a-Synuclein is a synaptic modulatory protein implicated in the pathogenesis of Parkinson disease. The precise functions of this small cytosolic protein are still under investigation. a-Synuclein has been proposed to regulate soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) proteins involved in vesicle fusion. Interestingly, a-synuclein fails to interact with SNARE proteins in conventional protein-binding assays, thus suggesting an indirect mode of action. As the structural and functional properties of both a-synuclein and the SNARE proteins can be modified by arachidonic acid, a common lipid regulator, we analysed this possible tripartite link in detail. Here, we show that the ability of arachidonic acid to stimulate SNARE complex formation and exocytosis can be controlled by a-synuclein, both in vitro and in vivo. a-Synuclein sequesters arachidonic acid and thereby blocks the activation of SNAREs. Our data provide mechanistic insights into the action of a-synuclein in the modulation of neurotransmission.
Bioconjugate Chemistry, 2012
Combining proteins or their defined domains offers new enhanced functions. Conventionally, two pr... more Combining proteins or their defined domains offers new enhanced functions. Conventionally, two proteins are either fused into a single polypeptide chain by recombinant means or chemically cross-linked. However, these strategies can have drawbacks such as poor expression (recombinant fusions) or aggregation and inactivation (chemical crosslinking), especially in the case of large multifunctional proteins. We developed a new linking method which allows site-oriented, noncovalent, yet irreversible stapling of modified proteins at neutral pH and ambient temperature. This method is based on two distinct polypeptide linkers which self-assemble in the presence of a specific peptide staple allowing on-demand and irreversible combination of protein domains. Here we show that linkers can either be expressed or be chemically conjugated to proteins of interest, depending on the source of the proteins. We also show that the peptide staple can be shortened to 24 amino acids still permitting an irreversible combination of functional proteins. The versatility of this modular technique is demonstrated by stapling a variety of proteins either in solution or to surfaces.
Biochemistry, 2009
The monoclonal antibody SMI81 binds SNAP-25, a major player in neurotransmitter release, with hig... more The monoclonal antibody SMI81 binds SNAP-25, a major player in neurotransmitter release, with high affinity and has previously been used to follow changes in the levels of this protein in neuropsychiatric disorders. We report here that the SMI81 epitope is present at the extreme N-terminus of SNAP-25 and, unusually, cannot be recognized when present as an internal sequence. Although it is known that SNAP-25 can be palmitoylated and phosphorylated in brain, we now reveal the existence of a third modification, acetylation of the N-terminus. This acetylation event greatly increases the efficiency of SMI81 antibody binding. We show that this highly specific antibody can be used for studying brain function in many vertebrate organisms.
Analytical Biochemistry, 2008
The C2 domain is a common protein module which mediates calcium-dependent phospholipid binding. S... more The C2 domain is a common protein module which mediates calcium-dependent phospholipid binding. Several assays have previously been developed to measure membrane association. However, these assays either have technical drawbacks or are laborious to carry out. We now present a simple solution-based turbidity method for rapidly assaying membrane association of single lipid-binding domains in real time. We used the first C2 domain of synaptotagmin1 (C2A) as a model lipid-binding moiety. Our use of the common dimeric glutathione-S-transferase (GST) fusion tag allowed two C2A domains to be brought into close proximity. Consequently, calcium-triggered phospholipid binding by this artificially dimerized C2A resulted in liposomal aggregation, easily assayed by following absorbance of the solution at 350 nm. The assay is simple and sensitive and can be scaled up conveniently for use in a multiwell plate format, allowing high-throughput screening. In our screens, we identified nickel as a novel activator of synaptotagmin1 C2A domain membrane association. Finally, we show that the turbidity method can be applied to the study of other GSTtagged lipid-binding proteins such as epsin, protein kinase C-b, and synaptobrevin.
Journal of Neurochemistry, 2013
The Journal of General Physiology, 1997
Journal of Biological Chemistry, 1993
Synaptotagmin I is a Ca2+-and phospholipid-binding protein of synaptic vesicles with an essential... more Synaptotagmin I is a Ca2+-and phospholipid-binding protein of synaptic vesicles with an essential function in neurotransmission. Ca2+/phospholipid binding by synaptotagmin I may be mediated by its C2 domains, sequence motifs that have been implicated in the Ca2+ regulation of a variety of proteins. However, it is currently unknown if C2 domains are sufficient for Ca2V phospholipid binding or if they even directly participate in Ca2+/phospholipid binding. In order to address this question, we have studied the Ca2'/phospholipid-binding properties of the first Cz domain of synaptotagmin I. Our results show that this C2 domain by itself binds Ca2+ and phospholipids with high affinity (half-maximal binding at 4-6 p~ free Ca2') and exhibits strong positive cooperativity. The C2 domain is specific for negatively charged phospholipids and for those divalent cations that are known to stimulate synaptic vesicle exocytosis (Caz+ > SS+, Ba2+ >>> M e). These studies establish that C2 domains can serve as independently folding Ca2+/ phospholipid-binding domains. Furthermore, the cation specificity and the cooperativity of Ca2+ binding by the C2 domain from synaptotagmin I support a role for this protein in mediating the Caz+ signal in neurotransmitter release.
Journal of cellular biochemistry, 2014
Transfection of DNA has been invaluable for biological sciences, yet the effects upon membrane ho... more Transfection of DNA has been invaluable for biological sciences, yet the effects upon membrane homeostasis are far from negligible. Here, we demonstrate that Neuro2A cells transfected using Lipofectamine LTX with the fluorescently coupled Botulinum serotype A holoenzyme (EGFP-LcA) cDNA express this SNAP25 protease that can, once translated, escape the transfected host cytosol and become endocytosed into untransfected cells, without its innate binding and translocation domains. Fluorescent readouts revealed moderate transfection rates (30-50%) while immunoblotting revealed a surprisingly total enzymatic cleavage of SNAP25; the transgenic protein acted beyond the confines of its host cell. Using intracellular dyes, no important cytotoxic effects were observed from reagent treatment alone, which excluded the possibility of membrane ruptures, though noticeably, intracellular acidic organelles were redistributed towards the plasma membrane. This drastic, yet frequently unobserved, change...