Alzheimer's disease (AD) is a genetically heterogeneous disorder characterized by early hippocampal atrophy and cerebral amyloid-β (Aβ) peptide deposition. Using TissueInfo to screen for genes ...preferentially expressed in the hippocampus and located in AD linkage regions, we identified a gene on 10q24.33 that we call
CALHM1. We show that
CALHM1 encodes a multipass transmembrane glycoprotein that controls cytosolic Ca
2+ concentrations and Aβ levels. CALHM1 homomultimerizes, shares strong sequence similarities with the selectivity filter of the NMDA receptor, and generates a large Ca
2+ conductance across the plasma membrane. Importantly, we determined that the CALHM1 P86L polymorphism (rs2986017) is significantly associated with AD in independent case-control studies of 3404 participants (allele-specific OR = 1.44, p = 2 × 10
−10). We further found that the P86L polymorphism increases Aβ levels by interfering with CALHM1-mediated Ca
2+ permeability. We propose that
CALHM1 encodes an essential component of a previously uncharacterized cerebral Ca
2+ channel that controls Aβ levels and susceptibility to late-onset AD.
The type 1 inositol 1,4,5-trisphosphate receptor (InsP(3)R1) is a ubiquitous intracellular Ca(2+) release channel that is vital to intracellular Ca(2+) signaling. InsP(3)R1 is a proteolytic target of ...calpain, which cleaves the channel to form a 95-kDa carboxyl-terminal fragment that includes the transmembrane domains, which contain the ion pore. However, the functional consequences of calpain proteolysis on channel behavior and Ca(2+) homeostasis are unknown. In the present study we have identified a unique calpain cleavage site in InsP(3)R1 and utilized a recombinant truncated form of the channel (capn-InsP(3)R1) corresponding to the stable, carboxyl-terminal fragment to examine the functional consequences of channel proteolysis. Single-channel recordings of capn-InsP(3)R1 revealed InsP(3)-independent gating and high open probability (P(o)) under optimal cytoplasmic Ca(2+) concentration (Ca(2+)(i)) conditions. However, some Ca(2+)(i) regulation of the cleaved channel remained, with a lower P(o) in suboptimal and inhibitory Ca(2+)(i). Expression of capn-InsP(3)R1 in N2a cells reduced the Ca(2+) content of ionomycin-releasable intracellular stores and decreased endoplasmic reticulum Ca(2+) loading compared with control cells expressing full-length InsP(3)R1. Using a cleavage-specific antibody, we identified calpain-cleaved InsP(3)R1 in selectively vulnerable cerebellar Purkinje neurons after in vivo cardiac arrest. These findings indicate that calpain proteolysis of InsP(3)R1 generates a dysregulated channel that disrupts cellular Ca(2+) homeostasis. Furthermore, our results demonstrate that calpain cleaves InsP(3)R1 in a clinically relevant injury model, suggesting that Ca(2+) leak through the proteolyzed channel may act as a feed-forward mechanism to enhance cell death.
E1/E3-deleted adenoviral vectors expressing an N-terminal green fluorescent protein (GFP) reporter gene fused to either wtCFTR (H5.040CMVEGFP-wtCFTR) or deltaF508-CFTR (H5.040CMVEGFP-deltaF508CFTR) ...were generated. To characterize the expression and activity, A549 cells were infected with vectors expressing GFP-tagged and non-tagged forms of CFTR and deltaF508CFTR. CFTR activity was assayed in cell-attached and excised patches. For H5.040CMVEGFP-wtCFTR, forskolin-dependent outward current was observed in cell-attached patches from 56 of 67 GFP-positive cells. Single-channel conductances, open probability, mean open and mean closed time values for GFP-CFTR and CFTR were not significantly different. After excision, GFP-CFTR activity required ATP and exhibited a linear I-V relationship. For H5.040CMVEGFP-deltaF508CFTR, media were supplemented with 5 mM butyrate 16 h after infection. Forskolin-dependent outward current was observed in cell-attached patches from 21 of 30 butyrate-treated GFP-positive cells and 0 of 8 GFP-positive cells without butyrate. Single-channel conductances, open probability, mean open and mean closed time values for GFP-deltaF508CFTR and deltaF508CFTR were not significantly different. However, the increase in open probability with genistein was significantly smaller for GFP-deltaF508CFTR than for deltaF508CFTR. In excised patches, GFP-deltaF508CFTR activity required ATP and exhibited a linear I-V relationship. Despite the consistent detection of GFP-CFTR and GFP-deltaF508CFTR channels in the plasma membrane by patch clamping, GFP fluorescence was observed only in intracellular regions and was not altered by butyrate. The data show that high levels of functional GFP-tagged CFTR channels can be expressed with these adenoviral vector constructs.
E1/E3-deleted adenoviral vectors expressing an N-terminal green fluorescent protein (GFP) reporter gene fused to either wtCFTR (H5.040CMVEGFP-wtCFTR) or ΔF508-CFTR (H5.040CMVEGFP-ΔF508CFTR) were ...generated. To characterize the expression and activity, A549 cells were infected with vectors expressing GFP-tagged and non-tagged forms of CFTR and ΔF508CFTR. CFTR activity was assayed in cell-attached and excised patches. For H5.040CMVEGFP-wtCFTR, forskolin-dependent outward current was observed in cell-attached patches from 56 of 67 GFP-positive cells. Single-channel conductances, open probability, mean open and mean closed time values for GFP-CFTR and CFTR were not significantly different. After excision, GFP-CFTR activity required ATP and exhibited a linear I-V relationship. For H5.040CMVEGFP-ΔF508CFTR, media were supplemented with 5 mM butyrate 16 h after infection. Forskolin-dependent outward current was observed in cell-attached patches from 21 of 30 butyrate-treated GFP-positive cells and 0 of 8 GFP-positive cells without butyrate. Single-channel conductances, open probability, mean open and mean closed time values for GFP-ΔF508CFTR and ΔF508CFTR were not significantly different. However, the increase in open probability with genistein was significantly smaller for GFP-ΔF508CFTR than for ΔF508CFTR. In excised patches, GFP-ΔF508CFTR activity required ATP and exhibited a linear I-V relationship. Despite the consistent detection of GFP-CFTR and GFP-ΔF508CFTR channels in the plasma membrane by patch clamping, GFP fluorescence was observed only in intracellular regions and was not altered by butyrate. The data show that high levels of functional GFP-tagged CFTR channels can be expressed with these adenoviral vector constructs. PUBLICATION ABSTRACT
The venom of the black widow spider (BWSV) (Latrodectus mactans tredecimguttatus) contains several potent, high molecular mass (110 kDa) neurotoxins that cause neurotransmitter release in a ...phylum-specific manner. The molecular mechanism of action of these proteins is poorly understood because their structures are largely unknown, and they have not been functionally expressed. This study reports on the primary structure of delta-latroinsectotoxin (delta-LIT), a novel insect-specific toxin from BWSV, that contains 1214 amino acids. delta-LIT comprises four structural domains: a signal peptide followed by an N-terminal domain that exhibits the highest degree of identity with other latrotoxins, a central region composed of 15 ankyrin-like repeats, and a C-terminal domain. The domain organization of delta-LIT is similar to that of other latrotoxins, suggesting that these toxins are a family of related proteins. The predicted molecular mass and apparent mobility of the protein (approximately 130 kDa) encoded in the delta-LIT gene differs from that of native delta-LIT purified from BWSV (approximately 110 kDa), suggesting that the toxin is produced by proteolytic processing of a precursor. MALDI-MS of purified native delta-LIT revealed a molecular ion with m/z+ of 110916 +/- 100, indicating that the native delta-LIT is 991 amino acids in length. When the full-length delta-LIT cDNA was expressed in bacteria the protein product was inactive, but expression of a C-terminally truncated protein containing 991 residues produced a protein that caused massive neurotransmitter release at the locust neuromuscular junction at nanomolar concentrations. Channels formed in locust muscle membrane and artificial lipid bilayers by the native delta-LIT have a high Ca2+ permeability, whereas those formed by truncated, recombinant protein do not
Alzheimer's disease (AD) is a genetically heterogeneous disorder characterized by early hippocampal atrophy and cerebral amyloid-beta (Abeta) peptide deposition. Using TissueInfo to screen for genes ...preferentially expressed in the hippocampus and located in AD linkage regions, we identified a gene on 10q24.33 that we call CALHM1. We show that CALHM1 encodes a multipass transmembrane glycoprotein that controls cytosolic Ca(2+) concentrations and Abeta levels. CALHM1 homomultimerizes, shares strong sequence similarities with the selectivity filter of the NMDA receptor, and generates a large Ca(2+) conductance across the plasma membrane. Importantly, we determined that the CALHM1 P86L polymorphism (rs2986017) is significantly associated with AD in independent case-control studies of 3404 participants (allele-specific OR = 1.44, p = 2 x 10(-10)). We further found that the P86L polymorphism increases Abeta levels by interfering with CALHM1-mediated Ca(2+) permeability. We propose that CALHM1 encodes an essential component of a previously uncharacterized cerebral Ca(2+) channel that controls Abeta levels and susceptibility to late-onset AD.
kdr and super-kdr are mutations in houseflies and other insects that confer 30- and 500-fold resistance to the pyrethroid deltamethrin. They correspond to single (L1014F) and double (L1014F+M918T) ...mutations in segment IIS6 and linker II(S4–S5) of Na channels. We expressed Drosophila para Na channels with and without these mutations and characterized their modification by deltamethrin. All wild-type channels can be modified by <10 nM deltamethrin, but high affinity binding requires channel opening: (a) modification is promoted more by trains of brief depolarizations than by a single long depolarization, (b) the voltage dependence of modification parallels that of channel opening, and (c) modification is promoted by toxin II from Anemonia sulcata, which slows inactivation. The mutations reduce channel opening by enhancing closed-state inactivation. In addition, these mutations reduce the affinity for open channels by 20- and 100-fold, respectively. Deltamethrin inhibits channel closing and the mutations reduce the time that channels remain open once drug has bound. The super-kdr mutations effectively reduce the number of deltamethrin binding sites per channel from two to one. Thus, the mutations reduce both the potency and efficacy of insecticide action.
The venom of the black widow spider (BWSV) ( Latrodectus mactans tredecimguttatus ) contains several potent, high molecular mass (>110 kDa) neurotoxins that cause neurotransmitter release in a ...phylum-specific
manner. The molecular mechanism of action of these proteins is poorly understood because their structures are largely unknown,
and they have not been functionally expressed. This study reports on the primary structure of -latroinsectotoxin ( -LIT), a novel insect-specific toxin from BWSV, that contains 1214 amino acids. -LIT comprises four structural domains: a signal peptide followed by an N-terminal domain that exhibits the highest degree
of identity with other latrotoxins, a central region composed of 15 ankyrin-like repeats, and a C-terminal domain. The domain
organization of -LIT is similar to that of other latrotoxins, suggesting that these toxins are a family of related proteins. The predicted
molecular mass and apparent mobility of the protein ( 130 kDa) encoded in the -LIT gene differs from that of native -LIT purified from BWSV ( 110 kDa), suggesting that the toxin is produced by proteolytic processing of a precursor. MALDI-MS of purified native -LIT revealed a molecular ion with m/z + of 110916 ± 100, indicating that the native -LIT is 991 amino acids in length. When the full-length -LIT cDNA was expressed in bacteria the protein product was inactive, but expression of a C-terminally truncated protein containing
991 residues produced a protein that caused massive neurotransmitter release at the locust neuromuscular junction at nanomolar
concentrations. Channels formed in locust muscle membrane and artificial lipid bilayers by the native -LIT have a high Ca permeability, whereas those formed by truncated, recombinant protein do not.