WO1999024457A1 - Dna regulatory element for the expression of transgenes in neurons of the mouse forebrain - Google Patents
Dna regulatory element for the expression of transgenes in neurons of the mouse forebrain Download PDFInfo
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- WO1999024457A1 WO1999024457A1 PCT/US1998/024157 US9824157W WO9924457A1 WO 1999024457 A1 WO1999024457 A1 WO 1999024457A1 US 9824157 W US9824157 W US 9824157W WO 9924457 A1 WO9924457 A1 WO 9924457A1
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Definitions
- the present invention provides for a recombinant nucleic acid molecule comprising a region of a calcium-calmodulin dependent kinase Il promoter operatively linked to a gene of interest.
- the region of a calcium-calmodulin dependent kinase Il ⁇ promoter may comprise an 8.5 kilobase nucleic acid sequence which corresponds to the nucleic acid sequence of ATCC Accession No. 98582, designated pMM403.
- the present invention also provides a human cell line which has been stably transformed by a recombinant nucleic acid molecule comprising a gene of interest operatively linked to a nucleic acid encoding a calcium-calmodulin dependent kinase Il ⁇ promoter region which has a nucleotide sequence corresponding to the sequence of ATCC Accession No. 98581, designated pMM281.
- the present invention also provides for a transgenic nonhuman mammal whose germ or somatic cells contain a nucleic acid molecule which encodes a gene of interest under the control of a CaMKII ⁇ promoter (ATCC Accession No. 98583), introduced into the mammal, or an ancestor thereof, at an embryonic stage.
- Another embodiment of the present invention is a method of evaluating whether a compound is effective in treating symptoms of a neurological disorder in a subject which comprises: (a) administering the compound to the transgenic nonhuman mammal whose germ or somatic cells contain a nucleic acid molecule which encodes a gene of interest under the control of a CaMKII ⁇ promoter, and(b) comparing the neurological function the mammal in step (a) with neurological function of the transgenic mammal in the absence of the compound, thereby determining whether the compound is effective in treating symptoms of the neurological disorder in a subject.
- Figures 1A-1B Expression of lacZ mRNA in mouse forebrain.
- Fig. IA schematic representation of the DNA constructs used for the generation of transgenic mice.
- lac-CMK the 8.5-kbp CaMKII ⁇ promoter region, as well as 84 nucleotides of the 5' non-coding exon, was fused to the E.coli lacZ gene. The entire 3 ' -UTR of the CaMKII ⁇ mRNA was placed downstream of the lacZ coding region.
- lac-A identical to lac-CMK except that the bovine growth hormone polyadenylylation signal was substituted for the CaMKII ⁇ 3'- UTR.
- nls-lac-CMK, the tet-0 promoter (Craig et al .
- Fig. IB Northern blot analysis of poly (A) + RNA isolated from the forebrain of the lac-CMK and lac-A mice.
- FIGS 2A-2B Beta-galactosidase histoche istry.
- Figures 3A-3D In situ localization of lacZ mRNA in hippocampus.
- Fig. 3A In situ hybridization using a lacZ- specific oligonucleotide probe.
- SM stratum molecular
- SR stratum radiatum
- Fig. 3B X-gal staining of hippocampus from 20 ⁇ m horizontal sections as described in Fig. 2.
- Bar 300 ⁇ m
- FIGS 4A-4D Differential expression of beta-gal within dendrites.
- Fig.4A In situ hybridization against the nls- lac-CMK mouse using a lacZ specific probe.
- Fig. 4B Histochemical detection of ⁇ -gal in the nls-lac-CMK neuron in culture. The MAP2 antibody specifically labels microtubules along the dendritic shaft. MAP2 labeling is indicated in red. ⁇ -gal labeling is shown in green. Arrows denote 3-gal in presumptive dendritic spines. Arrowheads indicate areas of punctate ⁇ -gal staining along the dendrite.
- FIGS 5A-5B Regulation of the CaMKII-Asp286 transgene with the tTA system.
- Fig. 5A Strategy used to obtain forebrain-specific doxycycline-regulated transgene expression. Two independent lines of transgenic mice are obtained, and the two transgenes are introduced into a single mouse through mating.
- Fig. 5B Quantitation by RT- PCR Southern blot of CaMKII-Asp 286 expression from the tet-0 promoter, RT-PCR was performed on total forebrain RNA and probed for expression of the CaMKII-Asp 286 mutant mRNA as described (7, 21) .
- Tgl mouse carrying only the CaMKII promoter-tTA transgene (line B) .
- Tg2 mouse carrying only the tet-O-CaMKII-Asp 286 transgene (line 21) .
- Tgq/Tg2 double transgenic mouse carrying both the CaMKII promoter-tTA transgene (line B) and tet-O-CaMKII-Asp 286 (line 21) transgenes.
- FIGS 6A-6B Forebrain-specific activation of a tet-O-lacZ transgene.
- Fig. 6A Coronal section of double transgenic line B lacl stained with X-Gal as described (Mayford et al . , 1996) .
- Ctx cerebral cortex
- Str striatum
- Hip hippocampus
- Amy amygdala
- Fig. 6B X-Gal- stained coronal section of the hippocampus from double transgenic lines B lacl and B lac2.
- FIGS 7A-7D Regional distribution of the CaMKII-Asp 286 mRNA determined by in situ hybridization (Mayford et al . , 1995) . Medial sagittal sections of double transgenic lines B13 , B21 and B22 showing CaMKII-Asp 286 transgene expression. B2l/Amygdala shows a close-up view of a coronal section from the B21 double transgenic line of mouse.
- Figure 8. Reversal of 10-Hz LTP deficit in CA1 of hippocampal slices. Field EPSP slopes before and after 1- Hz tetanic stimulation were recorded and expressed as the percentage of pre-tetanus baseline.
- Transverse slices 400 ⁇ m thick) of mouse hippocampus were prepared and placed in an interface slice chamber perfused with artificial cerebrospinal fluid as described (Mayford et al . , 1995).
- Field excitatory postsynaptic potentials (EPSPs) were elicited once per minute with fine tungsten bipolar stimulation electrodes (0.05-ms pulse duration).
- Stainless steel recording electrodes were placed in striatum radiatum. The stimulation strength was set to produce 50% of the maximum obtainable EPSP in each slice.
- Baseline synaptic response was collected for 20 min. Before the tetanus. The 10-Hz tetanus was delivered for 1.5 min at the same intensity as used in the baseline recording.
- animals were administered doxycycline
- FIGS 9A-9D Reversible deficits in explicit learning and memory in mice expressing the CaMKII ⁇ transgene.
- FIG. 9A The Barnes circular maze.
- FIG. 9B Percentage of B22 transgenic and wilt-type mice that met the learning criterion on the Barnes circular maze. On the Barnes circular maze (Bach et al . , 1995) the mice (2.5 to 6 months of age) were tested once a day until they met the criterion (Five out of six sessions with three or fewer errors or until 40 days had elapsed) . The order of holes searched was recorded by an observer who was blind to genotype and doxycycline condition, and from these data the number of errors was determined.
- Errors were defined as searches of any hole that did not have the tunnel beneath it . Searches included nose pokes and head deflections over the hole. At the end of each session the search strategy used was recorded by the observer. The spatial search strategy was operationally defined as reaching the escape tunnel with both error and distance scores ⁇ . 3. Distance was calculated by counting the number of holes between the first hole searched within a session and the escape tunnel. A one- factor analysis of variance (ANOVA) (gender) revealed no significant effect of gender for either transgenic or wild- type mice, so the data were collapsed across this variable. For the error data, a three-factor ANOVA (genotype, doxycycline, and session block) with one repeated measure was used.
- ANOVA analysis of variance
- mice were compared with a two-way ANOVA (doxycycline and session block) with one repeated measure.
- mice Percentage of time spent freezing to context (Fig. 10A) and to cue (Fig. 10B) 24 hours after training in the B22 and B21 lines. Values represent group means ⁇ SEM.
- FIG. 10C Time line illustrating administration of doxycycline and behavioral training and testing.
- FIG. 10D Retention of context and cued conditioning. Percentage of time spent freezing to context and cue 6 weeks after training. Values represent group means ⁇ SEM.
- Fig 10E The percentage of time spent freezing to an intruder during the first 120 s after the mouse was exposed to a rat. Values represent group means ⁇ SEM.
- FIGS 11A-D Calcineurin transgene is expressed in the hippocampus of CN98 mutant mice forebrain.
- Fig 11A Schematic representation of the calcineurin transgene construct used to generate the CN98 mice.
- Fig 11B Northern blot analysis of total RNA from CN98 mice .
- Fig 11D Regional distribution of calcineurin transgene in CN98 mice determined by in situ hybridization.
- FIGS 12A-12F Basal synaptic transmission and short-term forms of synaptic plasticity are not dramatically altered by overexpression of calcineurin.
- Fig 12A Input-output curve of fEPSP slope (mV/ms) versus stimulus intensity (V) at the Schaffer collateral-CAl pyramidal cell synapse in CN98 mutant and wild-type mice. Data are presented as mean ⁇ SEM.
- Fig 12B Plot of presynaptic fiber volley amplitude (PSFV, mV) versus fEPSP slope at the Schaffer collateral-CAl pyramidal cell synapse from a random sample of slices from CN98 mutant and wild-type mice.
- Fig 12C Input-output curve of fEPSP slope (mV/ms) versus intensity (V) at the Schaffer collateral-CAl pyramidal cell synapse in CN98 mutant (13 slices, 4 mice) and wild-type (16 slices, 4 mice) mice in the presence of the non-NMDA glutamate receptor antagonist DNQX (10 ⁇ M) and reduced MgS0 4 (50 ⁇ M) . Data are presented as mean ⁇ SEM. Inset shows representative NMDA receptor-mediated synaptic responses during a one second, 100 Hz tetanus in wild-type and mutant slices. Scale bar is 50ms and 5mV.
- Fig 12D Comparision of PTP in CN98 mutant and wild-type mice. PTP was evoked by a single 100 Hz, one second train administered in the presence of 50 ⁇ M DL-AP5. Data are presented as mean ⁇ SEM of the nomalized fEPSP slope.
- Fig 12E Comparison of PPF in CN98 mutant and wild-type mice with interstimulus intervals of 20, 50. 100 and 250 ms . Data are presented as the mean ⁇ SEM of the facilitation of the second response relative to the first response of 16 slices from 7 wild-type mice and 15 slices from 6 mutant mice .
- Fig 12F Comparison of LTD induced by 15 minutes of 1 Hz stimulation in CN98 wild-type and mutant mice aged 3-4 weeks . Data are presented as mean + SEM of the normalized fEPSP slope.
- FIGS 13A-13D Overexpression of calcineurin inhibits L- LTP induced by four 100 Hz trains but not E-LTP induced by one 100 Hz train.
- LTP elicited by (A) a single 100 Hz train of one second duration, or (B) four 100 Hz trains spaced by five minute intervals. Each point in the time courses represents the mean fEPSP slope ⁇ SEM normalized to the average of the pretetanus fEPSP slope. Insets show representative fEPSP traces just before tetanus and Fig 13A) 1 hour or Fig 13B) 3 hours after.
- Fig 13C) and Fig 13D) Drug was added at the time indicated in both panels at a concentration of 100 ⁇ M. Each point in the time courses represents the mean fEPSP slope ⁇ SEM normalized to the average of the predrug fEPSP slope. Insets show representative fEPSP traces just before drug addition and 3 hours after.
- (C) the decrease in the fEPSP slopes elicited towards the end of Sp-cAMPS application has been previously demonstrated to reflect a transient Al-adenosine receptor-mediated decrease in glutamate release (Frey et al . , 1993).
- Figures 14A-F Effects of protein synthesis and PKA inhibitors on four train and two train LTP.
- Fig 14A LTP induced by four 100 Hz trains, with a five minute intertetanus interval in the presence of anisomycin
- Fig 14B Effects of prolonged anisomycin pretreatment on LTP induced by four 100 Hz trains.
- Anisomycin (o, 30 ⁇ M) was added 60 minutes prior to the first tetanus, and was washed out 15 minutes after the last tetanus .
- Each point in the time course represents the mean fEPSP slope ⁇ SEM normalized to the average of the pretetanus fEPSP slope .
- No drug 10 slices, 8 mice; Anisomycin 4 slices, 4 mice.
- Fig 14C LTP introduced by two 100 Hz trains, with a 20 second interstimulus interval, in the presence or absence of anisomycin (o, 30 ⁇ M) in wild-type hippocampal slices.
- Each point in the time course represents the mean fEPSP slope ⁇ SEM normalized to the average of the pretetanus fEPSP slope.
- No drug 8 slices, 5 mice; Anisomycin: 7 slices, 4 mice.
- Fig 14D Effect of the PKA inhibitor KT5720 (o, ⁇ ⁇ M) on LTP induced by two 100 Hz trains in wild-type hippocampal slices. Each point in the time course represents the mean fEPSP slope ⁇ SEM normalized to the average of the pretetanus fEPSP slope.
- Fig 14E LTP induced by two 100 Hz trains in hippocampal slices from CN98 mutant (o) and wild-type (•) mice. Each point in the time course represents the mean fEPSP slope ⁇ SEM normalized to the average of the pretetanus fEPSP slope.
- Fig 14F Effect of the PKA inhibitor KT5720 (o, ⁇ ⁇ M) on LTP induced by two 100 Hz trains hippocampal slices from CN98 mutant mice. Each point in the time course represents the mean fEPSP slope + SEM normalized to the average of the pretetanus fEPSP slope.
- FIGs 15A-C LTP induced by two and four train (Fig 15B and 15C) , but not one train (Fig 15A) , protocols is reduced in wild-type mice (•) and mice overexpressing the calcineurin transgene with the tTA system (o) .
- Fig 14A LTP induced by two and four train (Fig 15B and 15C) , but not one train (Fig 15A) , protocols is reduced in wild-type mice (•) and mice overexpressing the calcineurin transgene with the tTA system (o) .
- Wild-type (•) 14 slices, 9 mice, Tet-CN279 mutants (D) : 6 slices, 3 mice; Tet-CN273 mutants (o) : 4 slices, 3 mice; Fig
- Wild-type (•) 7 slices, 4 mice; Tet-CN273 mutants
- FIGS 16A-D Basal synaptic transmission and short term forms of synaptic plasticity are not altered by overexpression of calcineurin with the tTA system.
- Fig 16A Input-output curve of fEPSP slope (mV/ms) versus stimulus intensity (V) at the Schaffer collateral-CAl pyramidal cell synapse in Tet-CN279 (9 slices, 4 mice) and Tet-CN273 (20 slices, 7 mice) mutant and wild-type (21 slices, 9 mice) mice. Data are presented as mean ⁇ SEM.
- Fig 16B Input-output curve of fEPSP slope (mV/ms) versus intensity (V) at the Schaffer collateral-CAl pyramidal cell syhapse in Tet-CN279 (8 slices, 4 mice) and Tet-CN273 (8 slices, 4 mice) mutant and wild-type (21 slices, 8 mice) mice in the presence of the non-NMDA glutamate receptor antagonist DNQX (10 ⁇ M) and reduced MgS0 4 (50 ⁇ M) . Data are presented as mean ⁇ SEM.
- Fig 16C Comparison of PTP in Tet-CN278 (6 slices, 3 mice) and Tet-CN273 (8 slices, 4 mice) mutant and wild-types (15 slices, 8 mice) mice. PTP was evoked by a single 100 Hz, one second train administered in the presence of 50 ⁇ M DL- AP5. Data are presented as mean ⁇ SEM of the normalized fEPSP slope.
- Fig 16D Comparison of PPF in Tet-CN273 (9 slices, 4 mice) and Tet-CN279 (13 slices, 4 mice) mutant and wild-type mice with interstimulus intervals of 20, 50, 100 and 250 ms . Data are presented as the mean ⁇ SEM of the facilitation of the second response relative to the first response.
- FIG. 17A-B Figures 17A-B.
- Fig 17A Calyculin A (750 nM) rescues the deficit in LTP induced by two 100 Hz trains in Tet-CN279 mutant mice. Each point in the time course represents the mean fEPSP slope + SEM normalized to the average of the pretetanus slope. Wildtype (•) , 7 slices, 4 mice), Mutant with calyculin A pretreatment (°) , 6 slices, 3 mice) , wildtdype with cayculin A pretreatment ( ⁇ ) , 6 slices, 3 mice) .
- Fig 17B The LTP deficit seen in slices from Tet-CN279 mutants can be reversed be suppressing expression of the transgene with doxycycline.
- Each point in the time course represents the mean fEPSP slope ⁇ SEM normalized to the average of the pretetanus slope.
- FIGS 18A-B A PKA-dependent, protein synthesis independent phase of LTP, I-LTP exists in mouse hippocampus.
- Figs 18A-B Schematic representation of the time course of potentiation induced by one train (lower panel, Fig 18B) and four-train (upper panel, Fig 18A) protocols.
- Figures 19A-C CN98 mutant mice have impaired spatial memory on the Barnes maze when tested with one trial a day, but have normal memory on a cued version of the maze.
- Fig 19A Percentage of CN98 mice that acquired the spatial and cued versions of the Barnes maze with 1 trial a day.
- Fig 19B Mean number of errors made by CN98 mice on the spatial version of the Barnes maze with 1 trial a day.
- Fig 19C Mean number of errors made by CN98 mice on the cued version of the Barnes maze with 1 trial a day.
- FIGS. 20A-C CN98 mutant mice have a normal memory on the Barnes maze with four trials a day.
- Fig 20A Percentage of CN98 mice that acquired the spatial version of the Barnes maze with four trials a day.
- Fig 20B Mean number of trials and days to acquisition for
- mice on the spatial version of the Barnes maze with either one or four trials a day.
- Fig 20C Mean number of errors made by CN98 mice on the spatial version of the Barnes maze with four trials a day.
- PI PI
- a PI equal to 100 indicates no preference whereas a PI inferior to 100 indicates a preference for the familiar object.
- FIGS 22A-C Regulated expression of calcineurin transgene with the tTA system.
- Fig 22A Strategy to obtain doxycycline-regulated expression of calcineurin transgene in mice.
- Mice from line B carry the CaMKII ⁇ promoter-tTA transgene and mice from lines CN279 and CN273, the tetO promoter- ⁇ CaM-AI transgene. Both transgenes are introduced into the same mouse through mating to generate Tet-CN279 and Tet-CN273 mice.
- Tet- CN279 and Tet-CN273 mice expression of the calcineurin transgene is activated by tTA and can be repressed by doxycycline .
- Fig 22B Northern blot analysis of total forebrain RNA from Tet-CN279 and Tet-CN273 wild-type and mutant mice on or off doxycycline and RT-PCR of total forebrain RNA from Tet-CN279 and Tet-CN273 wild-type, CN279 and CN273 mice, Tet-CN279 and Tet-CN273 mutant mice on or off doxycycline.
- Fig 22C Enzyme activity determined in hippocampal extracts from Tet-CN279 and Tet-CN273 mice on or off doxycycline. Dephosphorylation of a radiolabeled peptide substrate was measured in absence or presence of the Ca 2+ chelator EGTA in Tet-CN279 and Tet-CN273 wild-type and mutant mice on or off doxycycline. Values are mean ⁇ SEM.
- FIGs 23A-D The expression of calcineurin transgene is primarily restricted to CA1 subfield in the hippocampus of Tet-CN279 and Tet-CN273 mutant mice and is repressed by doxycycline. Regional distribution of calcineurin transgene determined by in situ hybridization on mouse brain sagital sections from Tet-CN279 wild-type, Tet-CN279 and Tet-CN273 mutant on or off doxycycline.
- Figures 24A-G CN98 and Tet-CN279 mutant mice do not use the spatial search strategy.
- Fig 24A Representative examples of the search strategies employed on the spatial version of the Barnes circular maze task.
- Figs 24B-G Use of random search strategy by CN98 (B) and Tet-CN279 (C) mice, of serial search strategy by CN98 (D) and Tet-CN279 (E) mice and of spatial search strategy by CN98 (F) and Tet-CN279 (G) mice.
- the present invention provides for a recombinant nucleic acid molecule comprising a region of a calcium-calmodulin dependent kinase Il ⁇ promoter operatively linked to a gene of interest.
- the region of a calcium-calmodulin dependent kinase Il ⁇ promoter may comprise an 8.5 kilobase nucleic acid sequence which corresponds to the nucleic acid sequence of ATCC Accession No. 98582, which was deposited on November 11, 1997 under provisions of the Budapest Treaty with the American Type Culture Collection (see details hereinbelow) .
- the gene of interest may comprise an acalcinurin gene, a gene involved in brain function, a growth factor gene, an ion channel gene, a kinase gene, a neurotransmitter gene, a neurotrophic factor gene, a phosphatase gene, a recombinase gene, a reporter gene, a receptor gene, a transactivator transcription factor gene, a transcription factor gene.
- the neurotrophic factor may comprise ciliary neurotrophic factor; nerve growth factor; neurotrophic factor 4/5; brain- derived neurotrophic factor; or glial-derived neurotrophic factor.
- the neurotransmitter gene may comprises a serotonin gene, a dopamine gene, or an epinepherine gene.
- One embodiment of the present invention is a human cell line which has been stably transformed by a recombinant nucleic acid molecule comprising a gene of interest operatively linked to a nucleic acid encoding a calcium-calmodulin dependent kinase Il ⁇ promoter region which has a nucleotide sequence corresponding to the sequence of ATCC Accession No. 98581 or 98582, deposited November 11, 1997.
- the gene of interest may be an acalcinurin gene, a gene involved in brain function, a growth factor gene, an ion channel gene, a kinase gene, a neurotransmitter gene, a neurotrophic factor gene, a phosphatase gene, a recombinase gene, a reporter gene, a receptor gene, a transactivator transcription factor gene, a transcription factor gene.
- the cell line may be a human neuronal cell line.
- the present invention also provides for a transgenic nonhuman mammal whose germ or somatic cells contain a nucleic acid molecule which encodes a gene of interest under the control of a CaMKII ⁇ promoter (ATCC Accession No. 98583) , introduced into the mammal, or an ancestor thereof, at an embryonic stage .
- the gene of interest may be an acalcinurin gene, a gene involved in brain function, a growth factor gene, an ion channel gene, a kinase gene, a neurotransmitter gene, a neurotrophic factor gene, a phosphatase gene, a recombinase gene, a reporter gene, a receptor gene, a transactivator transcription factor gene, a transcription factor gene.
- the gene of interest may be any gene.
- the nucleic acid molecule which is the transgene of the transgenic nonhuman mammal may contain an appropriate piece of genomic clone DNA from the mammal designed for homologous recomb
- Another embodiment of the present invention is a method of treating a neurological disorder in a subject which comprises administering to the subject an effective amount of the recombinant nucleic acid comprising a region of a calcium-calmodulin dependent kinase Il ⁇ promoter operatively linked to a gene of interest so as to express the gene of interest in the subject and thereby treat the neurological disorder.
- the neurological disorder may be amnesia, Alzheimer's disease, amyotrophic lateral sclerosis, a brain injury, cerebral senility, chronic peripheral neuropathy, a cognitive disability, a degenerative disorder associated with learning, Down's Syndrome, dyslexia, electric shock induced amnesia or amnesia.
- Guillain-Barre syndrome head trauma, Huntington's disease, a learning disability, a memory deficiency, memory loss, a mental illness, mental retardation, memory or cognitive dysfunction, multi-infarct dementia and senile dementia, myasthenia gravis, a neuromuscular disorder, Parkinson's disease, Pick's disease, a reduction in spatial memory retention, senility, or Turret ' s syndrome .
- Another embodiment of the present invention is a method of evaluating whether a compound is effective in treating symptoms of a neurological disorder in a subject which comprises : (a) administering the compound to the transgenic nonhuman mammal whose germ or somatic cells contain a nucleic acid molecule which encodes a gene of interest under the control of a CaMKII ⁇ promoter, and(b) comparing the neurological function the mammal in step (a) with neurological function of the transgenic mammal in the absence of the compound, thereby determining whether the compound is effective in treating symptoms of the neurological disorder in a subject.
- the neurological disorder may be amnesia, Alzheimer's disease, amyotrophic lateral sclerosis, a brain injury, cerebral senility, chronic peripheral neuropathy, a cognitive disability, a degenerative disorder associated with learning, Down's Syndrome, dyslexia, electric shock induced amnesia or amnesia. Guillain-Barre syndrome, head trauma, Huntington's disease, a learning disability, a memory deficiency, memory loss, a mental illness, mental retardation, memory or cognitive dysfunction, multi-infarct dementia and senile dementia, myasthenia gravis, a neuromuscular disorder, Parkinson's disease, Pick's disease, a reduction in spatial memory retention, senility, or Turret ' s syndrome .
- the compound may be an organic compound, a nucleic acid, a small molecule, an inorganic compound, a lipid, or a synthetic compound.
- the mammal may be a mouse, a sheep, a bovine, a canine, a porcine, or a primate.
- the subject may be a human.
- the administration may comprise intralesional, intraperitoneal , intramuscular or intravenous injection; infusion; liposome-mediated delivery; gene bombardment; topical, nasal, oral, anal, ocular or otic delivery.
- the present invention provides for a method of evaluating whether a compound is effective in treating symptoms of a neurological disorder in a subject which comprises: (a) contacting a human neuronal cell of the human neuronal cell line which has been stably transformed by a recombinant nucleic acid molecule comprising a gene of interest operatively linked to a nucleic acid encoding a calcium- calmodulin dependent kinase Il ⁇ promoter region with the compound, and (b) comparing the neuronal cell function of the neuronal cell in step (a) with neuronal cell function in the absence of the compound, thereby determining whether the compound is effective in treating symptoms of the neurological disorder.
- the present invention also provides for a method for alleviating symptoms in a subject suffering from a neurological disorder which comprises administering to the subject an effective amount of the compound evaluated by the methods hereinabove in an amount effective to treat the symptoms in the subject suffering from a neurological disorder.
- the neuronal cell population may be an aged neuronal cell population, an electrically stimulated neuronal cell population, or a cell population associated with a learning disability or a neurological disorder.
- the neuronal cell population may be from the CA1 or CA3 region of the hippocampus .
- Neuronal degradation includes morphological and functional deterioration of neuronal cells characteristic of degeneration associated with age or characteristic of an association with a neurological disorder.
- Neuronal degradation also includes cognitive impairments which may be associated with aging, Alzheimer's disease, amyotrophic lateral sclerosis, chronic peripheral neuropathy, drug or alcohol use, electroshock treatment or trauma, Guillain-Barre syndrome, Huntington's disease, a learning disability, a memory deficiency, a mental illness, myasthenia gravis, Parkinson's disease and reduction in spatial memory retention.
- learning disability includes a hippocampal learning or memory deficit concurrent with an electrophysiological deficit.
- the term "stimulating a neuronal cell population” includes electrical stimulation to an evoke electrophysiological response from the neuronal cell population, treating the neuronal cell population with a compound or a drug to elicit a response, applying tetani to the neuronal cell population to elicit a electrophysiological response, treating a subject with a compound which compound is capable of stimulating the neuronal cell population of the subject or perfusing a solution containing a composition or compound over the neuronal cell population.
- the response may be late phase long term potentiation, early phase long term potentiation.
- the neuronal cell population may be in a hippocampal slice in vi tro, in a subject in vivo, or in other neuronal tissue.
- normal neuronal cell population includes a neuronal cell population derived from a subject which does not appear to have neuronal degradation due to aging, a neurological disorder, a learning disability, exposure to trauma or electric shock.
- the term "cognitive disorder” includes a learning disability or a neurological disorder which may be Alzheimer's Disease, a degenerative disorder associated with learning, a learning disability, memory or cognitive dysfunction, cerebral senility, multi-infarct dementia and senile dementia, electric shock induced amnesia or amnesia.
- Another embodiment of the subject invention is a method for treating a subject with a cognitive disorder of memory or a learning disability which comprises administering to the subject a therapeutically effective amount of a transgene capable of alleviating the symptoms of the cognitive disorder of memory or the learning disability in the subject thereby treating the cognitive disorder of memory or the learning disability in the subject, wherein the transgene is made from a CaMKII ⁇ promoter-derived construct (ATCC Accession No. 98581 or 98582, deposited on November 11, 1997) .
- the transgene may be associated with a suitable pharmaceutically acceptable carrier and administered intravenously or through the CSF for transient effects.
- the subject may be a mammal or a human subject.
- the administration may be intralesional, intraperitoneal, intramuscular or intravenous injection; infusion; liposome- mediated delivery; gene bombardment; topical, nasal, oral, anal, ocular or otic delivery.
- an "therapeutically effective amount” is an amount which is capable of alleviating the symptoms of the cognitive disorder of memory or learning in the subject. Accordingly, the effective amount will vary with the subject being treated, as well as the condition to be treated.
- the methods of administration are to include, but are not limited to, administration cutaneously, subcutaneously, intravenously, parenterally, orally, topically, or by aerosol.
- suitable pharmaceutically acceptable carrier encompasses any of the standard pharmaceutically accepted carriers, such as phosphate buffered saline solution, water, emulsions such as an oil/water emulsion or a triglyceride emulsion, various types of wetting agents, tablets, coated tablets and capsules.
- a triglyceride emulsion useful in intravenous and intraperitoneal administration of the compounds is the triglyceride emulsion commercially known as Intralipid ® .
- Such carriers typically contain excipients such as starch, milk, sugar, certain types of clay, gelatin, stearic acid, talc, vegetable fats or oils, gums, glycols, or other known excipients.
- excipients such as starch, milk, sugar, certain types of clay, gelatin, stearic acid, talc, vegetable fats or oils, gums, glycols, or other known excipients.
- Such carriers may also include flavor and color additives or other ingredients.
- compositions including therapeutically effective amounts of protein compositions and compounds capable of alleviating the symptoms of the cognitive disorder of memory or learning in the subject of the invention together with suitable diluents, preservatives, solubilizers, emulsifiers, adjuvants and/or carriers useful in treatment of neuronal degradation due to aging, a learning disability, or a neurological disorder.
- compositions are liquids or lyophilized or otherwise dried formulations and include diluents of various buffer content (e.g., Tris-HCl., acetate, phosphate), pH and ionic strength, additives such as albumin or gelatin to prevent absorption to surfaces, detergents (e.g., Tween 20, Tween 80, Pluronic F68, bile acid salts), solubilizing agents (e.g., glycerol, polyethylene glycerol), anti-oxidants (e.g., ascorbic acid, sodium metabisulfite) , preservatives (e.g., Thimerosal, benzyl alcohol, parabens) , bulking substances or tonicity modifiers (e.g., lactose, mannitol), covalent attachment of polymers such as polyethylene glycol to the compound, complexation with metal ions, or incorporation of the compound into or onto particulate preparations of polymeric compounds such as polylactic acid, polg
- compositions will influence the physical state, solubility, stability, rate of in vivo release, and rate of in vivo clearance of the compound or composition.
- the choice of compositions will depend on the physical and chemical properties of the compound capable of alleviating the symptoms of the cognitive disorder of memory or the learning disability in the subject.
- Controlled or sustained release compositions include formulation in lipophilic depots (e.g., fatty acids, waxes, oils) .
- particulate compositions coated with polymers e.g., poloxamers or poloxamines
- Portions of the compound of the invention may be "labeled" by association with a detectable marker substance (e.g., radiolabeled with 1251 or biotinylated) to provide reagents useful in detection and quantification of compound or its receptor bearing cells or its derivatives in solid tissue and fluid samples such as blood, cerebral spinal fluid or urine.
- a detectable marker substance e.g., radiolabeled with 1251 or biotinylated
- Such modifications may also increase the compound's solubility in aqueous solution, eliminate aggregation, enhance the physical and chemical stability of the compound, and greatly reduce the immunogenicity and reactivity of the compound.
- the desired in vivo biological activity may be achieved by the administration of such polymer-compound adducts less frequently or in lower doses than with the unmodified compound.
- PEG polyethylene glycol
- Attachment of polyethylene glycol (PEG) to compounds is particularly useful because PEG has very low toxicity in mammals (Carpenter et al . , 1971).
- a PEG adduct of adenosine deaminase was approved in the United States for use in humans for the treatment of severe combined immunodeficiency syndrome.
- a second advantage afforded by the conjugation of PEG is that of effectively reducing the immunogenicity and antigenicity of heterologous compounds.
- a PEG adduct of a human protein might be useful for the treatment of disease in other mammalian species without the risk of triggering a severe immune response .
- the compound of the present invention capable of alleviating symptoms of a cognitive disorder of memory or learning may be delivered in a microencapsulation device so as to reduce or prevent an host immune response against the compound or against cells which may produce the compound.
- the compound of the present invention may also be delivered microencapsulated in a membrane, such as a liposome.
- Polymers such as PEG may be conveniently attached to one or more reactive amino acid residues in a protein such as the alpha-amino group of the amino terminal amino acid, the epsilon amino groups of lysine side chains, the sulfhydryl groups of cysteine side chains, the carboxyl groups of aspartyl and glutamyl side chains, the alpha-carboxyl group of the carboxy-terminal amino acid, tyrosine side chains, or to activated derivatives of glycosyl chains attached to certain asparagine, serine or threonine residues. Numerous activated forms of PEG suitable for direct reaction with proteins have been described.
- Useful PEG reagents for reaction with protein amino groups include active esters of carboxylic acid or carbonate derivatives, particularly those in which the leaving groups are N-hydroxysuccinimide, p- nitrophenol, imidazole or l-hydroxy-2-nitrobenzene-4- sulfonate.
- PEG derivatives containing maleimido or haloacetyl groups are useful reagents for the modification of protein free sulfhydryl groups.
- PEG reagents containing amino hydrazine or hydrazide groups are useful for reaction with aldehydes generated by periodate oxidation of carbohydrate groups in proteins .
- the compound of the present invention is associated with a pharmaceutical carrier which includes a pharmaceutical composition.
- the pharmaceutical carrier may be a liquid and the pharmaceutical composition would be in the form of a solution.
- the pharmaceutically acceptable carrier is a solid and the composition is in the form of a powder or tablet.
- the pharmaceutical carrier is a gel and the composition is in the form of a suppository or cream.
- the active ingredient may be formulated as a part of a pharmaceutically acceptable transdermal patch.
- transgenic mice The methods used for generating transgenic mice are well known to one of skill in the art. For example, one may use the manual entitled “Manipulating the Mouse Embryo” by Brigid Hogan et al . (Ed. Cold Spring Harbor Laboratory) 1986.
- This invention further provides for a transgenic nonhuman mammal whose germ or somatic cells contain a nucleic acid molecule which comprises an 8.5 kb promoter region of the mouse CaMKII ⁇ promoter, designated pMM403 (ATCC Accession No. 98582, deposited November 11, 1997) which is operably linked to a gene of interest, introduced into the mammal, or an ancestor thereof, at an embryonic stage.
- pMM403 ATCC Accession No. 98582, deposited November 11, 1997) which is operably linked to a gene of interest, introduced into the mammal, or an ancestor thereof, at an embryonic stage.
- the CaMKII ⁇ promoter region of about 8.5 kb was accorded ATCC Accession No. 98582 which was deposited on
- Another embodiment of this invention is a 3 ' untranslated region of the mouse CaMKII ⁇ gene, designated pMM281, ATCC Accession No. 98581, deposited November 11, 1997 which was also deposited with the American Type Culture Collection under the provision of the Budapest Treaty for the International Recognition of the Deposit of Microorganism for the Purposes of Patent Procedure.
- Another embodiment of this invention is a 3 ' mouse intron designated pNN265, ATCC Accession No.
- the gene of interest will be expressed under the control of the CaMKII ⁇ promoter region, therefore expression of the gene of interest will be specifcally localized to the hippocampal region of the brain of the mammal .
- This invention provides for a transgenic nonhuman mammal whose cells may be transfected with a suitable vector with an appropriate sequence designed to reduce expression levels of harmful genes in the hippocampus of the mammal .
- the transgenic nonhuman mammal may be transfected with a suitable vector which contains an appropriate piece of genomic clone designed for homologous recombination.
- the transgenic nonhuman mammal may be transfected with a suitable vector which encodes an appropriate ribozyme or antisense molecule. See for example, Leder and Stewart, U.S. Patent No. 4,736,866 for methods for the production of a transgenic mouse.
- Transgenic mice have been generated using a construct which is one embodiment of the present invention (a 8.5 kb region of the CaMKII ⁇ promoter driving a gene of interest which may further comprise a 3' untranslated region) .
- the gene of interest may be a lacZ gene, a CRE recombinase gene, a tet-0 tetracycline transactivator transcription factor gene, an acalcinurin gene, a phosphatase gene or any gene involved in brain function.
- the gene of interest can be any gene which is capable of being expressed as a heterologous gene driven by the CaMKII ⁇ promoter.
- the gene of interest may be a neurotrophic factor such as ciliary neurotrophic factor (see U.S. Patent No. 4,997,929); nerve growth factor (see U.S. Patent No. 5,169,762); neurotrophic factor 4/5 (see PCT International Publication
- the gene of interest may be a neurotropic factor or a cytokine or a growth factor.
- Such factors may include transforming growth factor beta (TGF- ⁇ ) , ciliary neurotropic factor (CNTF) , brain derived neurotropic factor (BDNF) , NT- 4, NT-5, NT-4/5, nerve growth factor (NGF) , activins, agrin, cell differentiation factor (CDF) , glial growth factor (GGF) , and neu differentiation factor (NDF) , ARIA, and heregulins.
- the gene of interest may be a gene encoding a pharmaceutically important protein, a transcription factor, an agonist, an antagonist, a kinase, a phosphatase, a nitric oxide synthase, CREB, a receptor, or a recombinase.
- the gene of interest may be any gene which encodes a protein which is functionally significant in brain functions, such as memory, cognitive functions and learning.
- the gene of interest may be a neurotransmitter gene .
- the neurotransmitter may be a serotonin gene, a dopamine gene or an epinepherine gene.
- the gene of interest may be a gene encoding a neurotransmitter receptor protein.
- the CaMKII ⁇ promoter construct (which includes a CaMKII ⁇ promoter region and a gene of interest) may be used to treat any disease where levels of expression of genes in the hippocampus (forebrain) are changed or altered from that which would be present under normal conditions. For example, ion channel levels or activities are not abnormal in some neurological disorders. Neurological disorders that affect the central nervous system, memory or cognitive functions may also be treated via the CaMKII ⁇ promoter construct . Such disorders may be the result of the normal aging process or the result of damage to the nervous system by trauma, surgery, ischemia, infection or metabolic disease.
- the neurological disorder may be a neuromuscular disorder.
- Examples of neurological disorders include Alzheimer's disease, myasthenia gravis, Huntington's disease, Pick's disease, Parkinson's disease, and Turret's Syndrome.
- the gene of interest may be any gene which is identified or known to be involved in the development of a neurological disorder.
- genes which may be involved in Alzheimer's Disease may be a gene of interest, see for example PCT Application No. PCT/EP93/03581, International Publication No. WO 94/13798.
- This invention provides for a method of altering neuro- receptor expression.
- nucleic acid moleucle comprising a CaMKII ⁇ promoter driving expression of a gene of interest is administered to a subject which may result in a change in the expression of neuro-receptors .
- This invention provides for improving the memory of a subject.
- Another embodiment of this invention is wherein the gene of interest is a ribozyme which is capable of cleaving mRNA which is produced by a neuronal cell. See Cech, et al . , U.S. Patent No. 4,987,071; Altman et al . , U.S. Patent No. 5,
- Haseloff et al U.S. Patent No. 5,254,678 published European application No. Hampel et al . , EP 360,257.
- This invention also provides for a replicable vector which contains CaMKII ⁇ promoter sequence and a host cell containing this vector.
- This expression vector may be a prokaryotic expression vector, a eukaryotic expression vector, a mammalian expression vector, a yeast expression vector, a baculovirus expression vector or an insect expression vector. Examples of these vectors include PKK233-2, pEUK-Cl, pREP , pBlueBacHisA, pYES2 , PSE280 or pEBVHis. Methods for the utilization of these replicable vectors may be found in Sambrook, et al . , 1989 or in Kriegler 1990.
- the host cell may be a eukaryotic cell, a somatic cell, a germ cell, a neuronal cell, a myocyte, a mammary carcinoma cell, a lung cell, a prokaryotic cell, a virus packaging cell, or a stem cell.
- a "reporter molecule”, as defined herein, is a molecule or atom which, by its chemical nature, provides an identifiable signal allowing detection of the circular oligonucleotide.
- a reporter molecule may be encoded by a reporter gene . Detection can be either qualitative or quantitative.
- the present invention contemplates using any commonly used reporter molecules including radionucleotides, enzymes, biotins, psoralens, fluorophores, chelated heavy metals, and luciferin.
- the most commonly used reporter molecules are either enzymes, fluorophores, or radionucleotides linked to the nucleotides which are used in circular oligonucleotide synthesis.
- Commonly used enzymes include horseradish peroxidase, alkaline phosphatase, glucose oxidase and ⁇ - galactosidase, among others.
- the substrates to be used with the specific enzymes are generally chosen because a detectably colored product is formed by the enzyme acting upon the substrate.
- p-nitrophenyl phosphate is suitable for use with alkaline phosphatase conjugates; for horseradish peroxidase, 1.2-phenylenediamine, 5- aminosalicylic acid or toluidine are commonly used.
- the methods of using such hybridization probes are well known and some examples of such methodology are provided by Sambrook et al, 1989.
- retroviruses In addition to direct use of plasmid DNA to transfer genes, retroviruses, adenoviruses, parvoviruses, and herpesviruses have been used (Anderson et al . , 1995; Mulligan, 1993; The contents of whch are incorporated in their entirety into the subject application) .
- retroviruses For transfer of genes into cells ex vivo and subsequent reintroduction into a host, retroviruses have been the vectors of choice. Advantages are that infection of retroviruses is highly efficient and that the provirus generated after infection integrates stably into the host DNA.
- a vector would be designed to have 3' and 5' long terminal repeat sequences necessary only for the integration of the viral DNA intermediate into the target host cell chromosome and a packaging signal that allows packaging into viral structural proteins supplied by the packaging line in trans (Miller, 1992; Wilson et al . , 1990; The contents of which are incorporated in their entirety into the subject application) .
- Retroviral constructs are made in which the DNA of the gene of interest (that is, the gene which one wishes to have expressed under the control of the CaMKII ⁇ 5' promoter, specifically localized expression to the forebrain, hippocampal regions) and is inserted downstream of the CaMKII ⁇ promoter to generate a vector. Genomic integration is the terminal step for these defective retroviral vectors. They cannot make viral proteins cells transduced with the packaged vector and therefore cannot produce progeny virus.
- the CaMKII ⁇ promoter retroviral constructs are transfected into virus packaging cell lines to generate infectious, but non-replicating virus particles. Such virus packaging cell lines are known to those of skill in the art.
- a retroviral vector containing the gene(s) of interest would be mixed into the culture medium.
- the vector binds to the surface of the subject's cells, enters the cells and inserts the gene of interest randomly into a chromosome .
- the gene of interest is now stably integrated and will remain in place and be passed to all of the daughter cells as the cells grow in number.
- the cells may be expanded in culture for a total of 9-10 days before reinfusion (Culver et al . , 1991) . As the length of time the target cells are left in culture increases, the possibility of contamination also increases, therefore a shorter protocol would be more beneficial.
- the currently reported transduction efficiency of 10-15% is well below the ideal transduction efficiency of 90-100% which would allow the elimination of the selection and expansion parts of the currently used protocols and reduce the opportunity for target cell contamination.
- This invention provides for the construction of retrovirus vectors containing the cDNA for the transactivating factor which is found 3' to the CaMKII ⁇ gene. The efficiency of transduction of these vectors can be tested in cell culture systems .
- nucleic acid molecule is incorporated into a liposome to allow for administration to the subject.
- Methods of incorporation of nucleic acid molecules into liposomes are well known to those of ordinary skill in the art.
- the molecule may be delivered via transfection, injection, or viral infection.
- Other methods of delivery of nucleic acids and nucleic acid compositions as discussed herein include viral gene-mediated transfer, small particle bombardment, receptor-mediated endocytosis and intralesional, intraperitoneal or intramuscular injection.
- Retroviral-mediated gene transfer requires target cells which are undergoing cell division in order to achieve stable integration hence, cells are collected from a subject often by removing blood or bone marrow .
- Another embodiment of this invention is a method for inducing neuronal regeneration which comprises administering to a subject an effective amount of the CaMKII ⁇ promoter construct driving a gene of interest and a pharmaceutically acceptable carrier to induce the formation of a synaptic junction between a neuron and a target cell.
- the target cell may be a neuronal cell, an endocrine cell, a muscle cell or any cell capable of forming a neuro-muscular junction.
- Expression of the gene of interest may facilitate incorporation of implants into nervous tissue or to promote nerve regeneration following damage by trauma, infarction, infection or postoperatively .
- the transgenic nonhuman mammal may be transfected with a suitable vector which encodes an appropriate ribozyme or antisense molecule.
- a suitable vector which encodes an appropriate ribozyme or antisense molecule.
- Such antisense vector may be used as a gene therapy in humans to inhibit the expression of a gene in the forebrain.
- Example 1 The 3 ' -untranslated region of CaMKII ⁇ is a cis- acting signal for the localization and translation of mRNA in dendrites.
- Neuronal signaling requires that synaptic proteins be appropriately localized within the cell and regulated there.
- polyribosomes are found not just in the cell body, but also in dendrites where they are concentrated within or beneath the dendritic spine.
- CaMKII ⁇ is one of only five mRNAs known to be present within the dendrites, as well as in the soma of neurons. This targeted subcellular localization of the mRNA for CaMKII ⁇ provides a possible cell biological mechanism both for controlling the distribution of the cognate protein and for regulating independently the level of protein expression in individual dendritic spines.
- To characterize the cis- acting elements involved in the localization of dendritic mRNA two lines of transgenic mice have been produced in which the CaMKII ⁇ promoter is used to drive the expression of a lacZ transcript, which either contains or lacks the 3'- untranslated region of the CaMKII ⁇ gene.
- mice show expression in forebrain neurons that parallels the expression of the endogenous CaMKII ⁇ gene, only the lacZ transcripts bearing the 3 ' -untranslated region are localized to dendrites.
- the ⁇ -galactosidase protein shows a variable level of expression along the dendritic shaft and within dendritic spines, which suggests that neurons can control the local biochemistry of the dendrite either through differential localization of the mRNA or variations in the translational efficiency at different sites along the dendrite.
- Polyribosomes are localized within neurons to the cell soma, the proximal part of the axon, and throughout the full extent of the dendritic authorization (Steward et al . , 1982) . Within dendrites the polyribosomes are not distributed randomly, but rather seem to be concentrated within or beneath the dendritic spines (Steward et al . , Prog. Brain Res., 1983; Cold Spring Harbor Symp. Quant. Biol., 1983). Dendritic spines are elaborations of the dendrite on which excitatory synapses are formed.
- This concentration of the translational machinery at the site of synaptic input suggests the possibility that the local concentration of polyribosomes might function for the selective expression of certain gene products, which can be regulated in a synapse specific manner (Steward, 1992) .
- Synapse specific gene expression might occur by the selective targeting of specific mRNAs to specific dendritic spines along with associated ribosomes .
- the mRNA for a given gene might be distributed uniformly to all dendritic spines in a neuron, but the translation of that mRNA might be differentially regulated at the individual spines .
- mRNAs for microtubule-associated protein 2 MAP2
- Ca 2+ -calmodulin dependent protein kinase Il ⁇ subunit the IP3 receptor type II
- L7 and ARC two genes of unknown function designated L7 and ARC
- dendritic mRNA appears to be associated with some component of the cytoskeleton (Davis et al . , 1987; Bassell et al . , 1994) .
- a cis-acting signal present only in those transcripts, mediates the targeting. That signal could be contained within the sequence or structure of the mRNA itself, or it could be carried within the nascent polypeptide chain. In the latter case, the entire complex consisting of polyribosome, mRNA, and nascent peptide would be transported into the dendrite.
- the ⁇ subunit of Ca 2+ -calmodulin-dependent protein kinase II (CaMKII ⁇ ) subunit gene is expressed specifically in neurons of the forebrain where its mRNA is found within the dendrites as well as the soma of the neuron.
- Cis-acting elements have been characterized in transgeneic mice, which elements mediate the forebrain specific expression as well as the dendritic localization of mRNA.
- a dendritically localized lacZ gene shows an uneven expression along the length of the dendrite. This suggests that the expression of dendritically localized mRNA is regulated either at the level of the mRNA distribution or at the level of local translation.
- the CaMKII ⁇ promoter was isolated from a cosmid library prepared from C57BL6J mouse spleen using a 0.4-kb Aval fragment comprising the transcription initiation region of the rat CaMKII ⁇ gene (Sunyer et al . , 1990) .
- the full-length CaMKII ⁇ cDNA was isolated from a mouse brain (C57BL/6J) cDNA library using a rat CaMKII ⁇ cDNA probe. Constructs were assembled using standard techniques.
- the lacZ gene was obtained from a 3.5 -kb Hindlll/Dral fragment of pNSE lac (Forss-Petter, et al . , 1990).
- the bovine polyadenylylation signal was from pRC/CMV
- the GFP gene was from pGFP-Cl (CLONTECH ® ) .
- the nuclear localization signal was from the simian virus 40 large t antigen. It was inserted using synthetic oligonucleotides and consisted of the sequence SSDDEATADSQHSTPPKKKRKVEDP .
- Transgenic mice were produced by DNA injection into B6CBA F 2 or B6/SJL 2 F embryos using standard techniques. Northern blot analysis was generated using 4 ⁇ g of A + RNA isolated from the forebrain of the lac-A and lac-CMK transgenic lines. The blot was hybridized with a lacZ-specific cDNA probe and washed for 40 min at 68° C in 0.2 x SSC/0.1% SDS and exposed for 5 hr. ⁇ -Galactosidase ( ⁇ -gal) Histochemistry.
- In situ Hybridization For in situ hybridization, 20- ⁇ m coronal sections were taken from fresh frozen mouse brains. The slices were fixed for 10 min in 4% paraformaldehyde and dehydrated. Slices were probed with a pool of three oligonucleotides specific for the lacZ gene, which had been labeled by tailing with [ ⁇ - 35 S] dATP and terminal transferase to a specific activity of >1 X 10 9 cpm/ ⁇ g.
- Oligonucleotide sequences lac 1 , 5 ' - GTGCATCTGCCAGTTTGAGGGGACGACGACAGTAT-3' ; lac 2 , 5 ' - GCCGGAAACCAGGCAAAGCGCCATTCGCCATTCAGGCTGCGC-3 ' ; .ac 3 , 5 ' -
- Hybridization was overnight at 42° C in a solution containing 10% dextran sulfate, 50% formamide, 25 mM hepes (pH 7.6), 600mM NaCl, 100 mM DTT, 1 mM EDTA, 200 ⁇ g/ml denatured salmon sperm DNA, 200 ⁇ g/ml poly(A), IX Denhardt ' s solution, 10 7 cpm/ml probe,. Slides were washed 2X 10' at reverse transcriptase with Kodak NTB2 emulsion, exposed for 3 weeks, developed, counterstained with toluidine blue, and photographed under darkfield illumination.
- MEM minimal essential Eagle's medium
- HyCLone ® heat inactivated fetal bovine serum
- GEBCO ® B-27 supplements
- Cis-acting elements of the CaMKII ⁇ gene have been isolated: one, the promoter, which controls the forebrain-specific expression of the gene and the other, the 3 ' -untranslated region or 3 ' UTR, which controls the dendritic mRNA localization.
- Two DNA constructs (lac-CMK and lac-A, Fig. IA) were prepared such that the lacZ reporter gene was placed downstream from an 8.5-kb fragment of CaMKII ⁇ genomic DNA beginning at 84kb following the transcription initiation site (Sunyer et al . , 1990).
- the entire 3' UTR of the CaMKII ⁇ mRNA (3.2 kb) downstream from the lacZ coding region (lac-CMK) was included to determine whether the signal for dendritic RNA localization was contained in this region.
- the second construct contained a 3 ' polyadenylylation signal provided by bovine growth hormone (lac-A) .
- Transgenic mice were generated using the two DNA constructs. Of four founder animals obtained, two (one from each construct) expressed the lacZ gene and were analyzed in detail. To determine whether the two different transgenic lines expressed mRNAs of the expected size, Northern blot analysis was performed of forebrain mRNA using a lacZ-specific probe.
- lac-A and lac-CMK lines express lacZ-specific mRNAs of approximately 3.7 and 6.9 kb, respectively (Fig. IB).
- 6.9-kb transcript from the lac-CMK mice also hybridized to a probe specific for the CaMKII 3' -UTR.
- the lac-A mice show strong hybridization in the cell body layer of the dentate gyrus and a weaker signal in CA1 cell bodies but no signal in the corresponding dendritic layers.
- the hybridization signal in the lac-CMK mice appears to be uniform throughout the dendritic layer and to extend into the most distal regions of the dendrite. This parallels the subcellular distribution of the endogenous CaMKII ⁇ mRNA and differs from that of MAP2 , a dendritically- localized mRNA that is found only in the proximal portion of the dendrite (Garner et al., 1988).
- the presence of the CaMKII ⁇ 3' UTR is sufficient to localize the lacZ mRNA to dendrites and to yield a distribution of the mRNA within the dendritic layers that is indistinguishable from that of the endogenous CaMKII ⁇ gene.
- the nucleotide sequence of the other known dendritically localized mRNAs [MAP2 , Arc, IP-3R1, BC1 (Furuichi et al . , 1993; Garner et al . , 1988; Lyford et al . , 1995; Link et al . , 1995; Tiedge et al . , 1991)] was compared to that of the CaMKII ⁇ 3' -UTR. No major sequence homology was found. However, the critical determinant of the cis-acting element may not be reflected in its primary sequence but in the three-dimensional structure of the folded mRNA.
- RNA localization elements important in early embryonic development (Macdonald et al . , 1988; Macdonald et al . , 1993; Mowry et al . , 1992).
- the mechanism of localization for CaMKII ⁇ may be different from that of the other dendritically localized RNAs.
- the difference in the extent of dendritic transport of the MAP2 and CaMKII ⁇ mRNAs suggests some difference in the transport mechanism (Burgin et al . , 1990; Garner et al . , 1988) .
- transgenic mice were generated in which the lacZ gene carried a nuclear localization signal (nls) so that ⁇ -gal synthesized in the neuronal cell body would be sequestered in the nucleus, thereby preventing it from diffusing into the dendrite.
- Transgenic mice were generated using the nls-lac-CMK construct shown in Fig. IA. In this case, the transgene of the tet-O-promoter was expressed using the tTA system (Craig et al., 1993; Mayford et al . , 1995). Three lines of mice were obtained that expressed the nls-lac-CMK transgene in the hippocampus, one of which was examined in detail.
- hippocampal neurons were cultured from nls- lac-CMK mice and used double-immunofluorescent detection of ⁇ -gal and MAP2.
- the MAP2 antibody which labels microtubules specifically along the shaft of the dendrites, gives a smooth staining pattern.
- the ⁇ -gal immunoreactivity is surprisingly patchy in its distribution with localized hot spots of staining along the dendritic shaft and within some presumptive dendritic spines (Fig. 4C and D) .
- LTP long-term potentiation
- the potentiation of synaptic strength with LTP occurs only at those synapses that are stimulated and not at other synapses onto the same cell.
- the LTP inducing stimulus must produce a biochemical change specific to the activated synapse.
- One mechanism for controlling the local biochemistry of a synapse is by regulating the distribution and translation of specific mRNAs at that synapse.
- the CaMKII ⁇ gene is expressed specifically in forebrain neurons, plays an essential role in LTP, and is one of the few mRNAs that are known to be targeted to dendrites (Burgin et al., 1990; Silva et al . , 1992; Mayford et al . , 1995). Therefore, the signals controlling both the forebrain specific expression and the dendritic mRNA localization were investigated. It was discovered that an 8.5-kb fragment of the CaMKII ⁇ gene is able to confer forebrain specific expression on a heterologous lacZ transgene.
- this promoter element has been utilized to express a number of other transgenes and it has been found that in each case expression is limited to the forebrain neurons in a pattern similar to that shown in Fig. 2.
- the ability to direct transgene expression specifically to the forebrain neurons should prove useful in transgenic studies of neuronal function and its relation to behavior.
- the 3 ' - UTR of CaMKII ⁇ localizes the heterologous lacZ mRNA to dendrites.
- the mapping of the dendritic targeting signal of the CaMKII ⁇ mRNA to the 3 ' -UTR demonstrates that the localization process is independent of the protein translated similar to the regulation of mRNA localization in other systems (Bian et al . , 1996; Sundell et al . , 1990; Kleiman et al . , 1993) .
- the expression of a lacZ gene in which the mRNA was targeted to dendrites was examined, but the ⁇ -gal protein itself was targeted to the nucleus.
- LTP is produced only at the appropriately stimulated synapses and its late phase is blocked by inhibitors of protein and mRNA synthesis (Bliss et al . , 1993; Frey et al . , 1988; Nguyen et al., 1994).
- the requirement for new gene expression in LTP, coupled with the synapse specificity of the process, implies that the new gene products are targeted to or functionally used only at those synapses where LTP is induced.
- One mechanism by which this might occur is for the LTP-inducing stimulus to convert the synapse from a translationally inactive to a translationally active state. This would lead to an immediate increase in the level of the gene product for those mRNA species localized to that synapse.
- the CaMKII signaling pathway is critical for both explicit and implicit memory storage, in a manner that is independent of its potential role in development.
- Explicit memory- -a memory for facts, places, and events- - requires the hippocampus and related medial temporal lobe structures (Scoville et al., 1957; Squire et al . , 1992), whereas implicit memory--a memory for perceptual and motor skills—involves a variety of anatomical systems (Schacter et al., 1994) .
- implicit memory that for conditioned fear, involves the amygdala (Blanchard et al., 1972; Davis, 1992).
- tTA tetracycline transactivator
- CaMKII ⁇ is a serine-threonine protein kinase that is restricted to the forebrain (Miller et al . , 1986; Burgin et al., 1990; Hanson et al . , 1992). It is expressed in the neurons of the neocortex, the hippocampus, the amygdala, and the basal ganglia. After a brief exposure to Ca 2+ , CaMKII can convert to a Ca 2+ -independent state through an autophosphorylation at Thr 286 (Miller et al . , 1986; Hanson et al., 1992; Fong et al . , 1989, Thiel et al .
- CaMKII may be a molecular substrate of memory (Lisman, 1994) .
- Targeted disruption of the CaMKII ⁇ gene produces deficits in long-term potentiation (LTP) and severely impairs performance on hippocampal-dependent memory tasks (Silva et al., 1992; Silva et al . , 1992, p. 201).
- Mutation of Thr 286 to Asp in CaMKII ⁇ mimics the effect of autophosphorylation at Thr 286 and converts the enzyme to a Ca 2+ -independent form (Fong et al .
- the CaMKII ⁇ promoter consisted of 8.5 kb of genomic DNA upstream of the transcription initiation site of the mouse CaMKII ⁇ gene, as well as 84 base pairs of the 5' noncoding exon.
- Genomic DNA was isolated from a C57 B16/J mouse spleen cosmid library with a rat genomic probe consisting of a 0.4-kb Ava I fragment comprising the transcription-initiation region of rat CaMKII ⁇ (Sunyer et al . , 1990).
- the tTA gene from plasmid pUHD 15-1 (Gossen et al .
- the CaMKII ⁇ gene was a full-length cNDA (4.8 kb) isolated from a C57B16/J mouse brain cDNA library.
- the lacZ gene carried an SV40 large T antigen nuclear localization signal as well as the 3' untranslated region (UTR) of CaMKII ⁇ , which targets the mRNA to dendrites (Mayford et al . , 1996) .
- the tTA-responsive tet-0 promoter is linked to the target gene of interest, in this case either lacZ or the CaMKII-Asp 286 gene.
- the tTA gene expresses a eukaryotic transcription activator that binds to and activates transcription from the tet-0 promoter element; this transcription is blocked by the tetracycline analog doxycycline (Gossen et al . , 1992).
- the tet-0 and tTA transgenes were introduced into the same mouse, the tet- O- linked gene was activated, but only in those cells that express tTA.
- the regulation of the CaMKII-Asp 286 transgene was assesed using a reverse transcriptase-polymerase chain reaction (RT- PCR) Southern (DNA) blot (RT-PCR was performed essentially as described (Marchford et al . , 1995).
- Total forebrain RNA (lOOng) was used in each reaction with oligonucleotide primers to amplify a region of the transcript that includes the Thr 286 - Asp mutation.
- Equal amounts of amplified cDNA (both wild-type and mutant sequences) were separated on a 3% agarose gel, transferred to nylon membranes, and hybridized with a 32 P-labeled oligonucleotide probe specific for the Asp 286 mutation (oligonucleotide sequence 5'CTTCAGGCAGTCGACGTCCTCCTGTCTGTG-3' ) .
- RNA Blots were washed under conditions in which only the Asp 286 mutant cDNA was detected (2' 15 min., 60°C, 0.2' standard saline citrate).
- a Northern (RNA) blot of total forebrain mRNA revealed expression of a shorter-than-expected CaMKII-Asp 286 transcript ( ⁇ 3.4kb). As shown in Figures 7A-D, this shorter CaMKII- Asp 286 transcript did not localize to dendrites, presumably as a result of the loss of a sequence element in the 3 ' UTR that is necesseary for mRNA targeting to dendrites (Mayford et al . , 1996)) to detect only the mutant transcripts (Fig. 5B) .
- mice carrying either one of the transgenes alone show little or no expression of CaMKII-Asp 286 mRNA.
- both transgenes were introduced into the same mouse, there was a large activation of CaMKII-Asp 286 expression.
- the expression of this transgene was completely suppressed when the mice were given doxycycline (2 mg/ml) in the drinking water for 4 weeks .
- mice B13, B21 and B22 Using in situ hybridization, the pattern of expression in three lines of double transgenic mice expressing tet-O- linked CaMKII-Asp 286 was examined (mouse lines B13, B21 and B22) (Figs. 7A-7D) .
- first line (B13) expression was evident throughout the forebrain.
- B13 expression was strong in the dentate gyrus and CA2 region but was weak or absent in the CA3 region.
- a second line of mice (B22) there was moderate expression in the hippocampus, subiculum, striatum, and amygdala, with little expression in neocortex.
- Ca 2+ -independent CaMKII activity was increased seven-fold relative to that of the wild type.
- CaMKII activity was suppressed to wild-type values.
- Ca 2+ -independent CaMKII activity returned to those of the untreated transgenic mice.
- the CaMKII-Asp 286 transgene is functionally expressed and can be regulated with doxycycline .
- Stainless steel recording electordes were placed in striatum radiatum. The stimulation strength was set to produce 50% of the maximum obtainable EPSP in each slice. Baseline synaptic response was collected for 20 minutes before the tetanus. The 10-Hz tetanus was delivered for 1.5 minutes at the same intensity as used in the baseline recording.
- animals were administered doxycycline (lmg/ml) plus 5% sucrose in the drinking water for 2 to 3 weeks, and the slices were then exposed to doxycycline (lng/ml) in the perfusate. All animals were 2.5 to 6 months of age at the time of recording.) .
- the shift in the frequency threshold is due to the acute expression of the transgene rather than to an irreversible developmental defect (It would also be useful to suppress transgene expression during development and then activate the gene only in the adult animal.
- doxycycline lmg/ml
- transgene suppression was used only in the adult animal in which the doxycyline treatment did not affect memory.
- the LTP and memory phenotypes observed with the transgene active in the adult animal result from a synergistic interaction between development and adult expression rather than a direct acute effect of transgene expression in the adult animal.
- CaMKII-Asp 286 expression in the hippocampus Effect on explicit memory storage of CaMKII-Asp 286 expression in the hippocampus.
- Expression of the CaMKII-Asp 286 transgene in the forebrain interferes with spatial memory, a form of explicit memory, as measured in the Barnes circular maze (Bach et al . , 1995) .
- the Barnes circular maze is a brightly lit open disk with 40 holes in the perimeter (Fig. 9A) . Mice have an aversion for brightly lit open areas and hence are motivated to escape form the maze. This can be achieved by finding the 1 hole in 40 that leads to a darkened escape tunnel.
- the mouse In the spatial version of this task, the mouse must use distal cues in the room to locate the hole that leads to the escape tunnel (On the Barnes circular maze (Bach et al . , 1995), the mice (2.5 to 6 months of age) were tested once a day until they met the criterion (five out of six sessions with three or fewer errors, or until 40 days had elapsed) .
- the order of holes searched was recorded by an observer who was blind to genotype and doxycycline condition, and from these data the number of errors was determined. Errors were defined as searches of any hole that did not have the tunnel beneath it . Searches included nose pokes and head deflections over the hole. At the end of each session the search strategy used was recorded by the observer.
- the spatial search strategy was operationally defined as reaching the escape tunnel with both error and distance scores ⁇ 3. Distance was calculated by counting the number of holes between the first hole searched within a session and the escape tunnel. A one-factor analysis of variance
- ANOVA (gender) revealed no significant effect of gender for either transgenic or wild-type mice, so the data were collapsed across this variable.
- a three-factor ANOVA (genotype, doxycycline, and session block) with one repeated measure was used.
- the two groups of B22 transgenic mice were compared with a two-way ANOVA (doxycycline and session block) with one repeated measure.) .
- the percentage of time spent freezing to context and cue was calculated. No significant effect of gender was observed in the B22 or B21 transgenic mice or the wild-type mice, so the data were collapsed across this variable. Freezing to context and cue on testing day was analyzed by two three-factor ANOVAs (genotype, line, and doxycycline) that were used to compare the B22 and B21 transgenic and wild-type mice. Two one-way ANOVAs were used to compare the amount of freezing 6 weeks later to cue and context in B21 transgenics on doxycycline, B21 transgenics switched to water, and wild-type mice.) .
- Memory is assessed 24 hours later by measurement of the amount of freezing (the fear response) elicited by either the novel environment (context conditioning) or the tone (cued conditioning) .
- Fear conditioning shows components of both implicit and explicit forms of learning.
- the contextual version of the task is selectively impaired by lesions of the hippocampus (Kim et al . , 1992) and thus can be viewed as an explicit form of learning, whereas both the cued and contextual versions of the task are impaired by lesion of the amygdala and are therefore viewed as implicit.
- the B22 line of mice showed normal fear conditioning to both the cue and the context (Figs. 10A and 10B) .
- That CaMKII activation interferes with synaptic plasticity in the 5- to 10- HZ range is particularly relevant for the explicit hippocampal-based spatial memory paradigm.
- Animals exploring the space of a novel environment show a rhythmic oscillation in hippocampal activity in the 5- to 10- HZ range (the theta rhythm) (Bland, 1986) . Changes in synaptic strength can be produced by this endogenous activity and are thought to be necessary for storing information about space.
- Synaptic plasticity in the theta frequency range may regulate hippocampal place cells, the pyramidal neurons (in the CA3 and CAl subfields) whose activity is correlated with the animals' location in the environment (O'Keefe et al . , 1978).
- the lateral amygdala is the first site of convergence of somatosensory (unconditioned stimulus) and auditory
- fear conditioning enhances the auditory-evoked responses of neurons in the lateral amygdala (Quirk et al . , 1995). Third, these neurons exhibit robust LTP that can contribute to enhanced auditory- evoked responses (Rogan et al . , 1995) . Finally, lesions of the lateral amygdala block fear conditioning (Kim et al . , 1992) . How might the expression of CaMKII-Asp 286 affect fear conditioning? Expression of this transgene in the hippocampus increases the stimulation frequency required to produce LTP (Fig. 8) . Were a similar increase in the frequency threshold to occur at excitatory synapses in the lateral amygdala, this increase in threshold could form the physiological basis for the observed impairment in implicit memory storage.
- the methods for regional and regulated transgene expression that are described here represent the development of an optimal technology for the genetic study of cognitive processes. To carry the molecular dissection of behavior further, it will be necessary to use promoters that are even more restricted in their pattern of expression and to adapt this technology to the regulation of targeted gene disruption.
- the methods described here should prove generally useful and should help in elucidating the cellular and molecular signaling pathways important for higher cognitive processes.
- Hasegawa, M. Miyawaki, A., Yoshikawa, S., Gueenet , J.L., &
- mice that over express a truncated form of calcineurin under the control of the CaMKII ⁇ promoter. Mice expressing this transgene show increased calcium-dependent phosphate activity in hippocampus.
- Physiological studies of the calcineurin-overexpressing mice and parallel pharmacological experiments in wild-type mice reveal a novel, intermediate phase of LTP (I-LTP) in the CAl region of hippocampus. This intermediate phase differs from E-LTP in requiring multiple trains for induction, and in being dependent on PKA. It differs from L-LTP in not requiring new protein synthesis.
- I-LTP LTP
- This intermediate phase differs from E-LTP in requiring multiple trains for induction, and in being dependent on PKA. It differs from L-LTP in not requiring new protein synthesis.
- Calcineurin is a calcium-sensitive serine/threonine phosphatase that is present at high levels in the hippocampus, is enriched at synapses, and is a heteromultimer that has both catalytic (calcineurin A, is a 60 kD protein that exists as three isoforms ( ⁇ , ⁇ , and ⁇ ) , two of which, ⁇ and ⁇ , are present in brain (Kuno, et al., 1992) . Once activated, calcineurin acts on two types of protein directly and thereby regulate specific cellular functions. Second, it can modulate an even larger variety of substrates indirectly by its ability to dephosphorylate inhibitor-1, a key of protein phosphatase- 1, (PP1) .
- PP1 protein phosphatase- 1,
- Inhibitor-1 is a low molecular weight protein that, when phosphorylated, inhibits the function of PP1. Dephosphorylation of inhibitor-1 by calcineurin activities PP1 and leads to the dephosphorylation of a large and independent set of target proteins.
- calcineurin comes from its interactions with the cAMP-dependent protein kinase, PKA.
- Calcineurin dephosphorylates and inhibits the action of inhibitor-1 by dephosphorylating the site on inhibitor-1 that is phosphorylated by PKA (Hubbard and Klee, 1991) .
- This dephosphorylation enhances the ability of Rll ⁇ to re-associate with and inhibit the function of the catalytic subunit of PKA (Rangel-Aldao and Rosen, 1976) .
- calcineurin and PKA antagonistically regulate NMDA and GluR6 glutamate receptor function (Tong, et al., 1995; Raman, et al, 1996; Traynelis and Wahl, 1997).
- Calcineurin also inhibits a novel isoform of adenylyl cyclase (Paterson et al . , 1995). Finally, calcineurin can dephosphorylate the transcription factor CREB (Bito et al,
- LTP can be divided into at least two components: an early component (E-LTP) and a late component (L-LTP) .
- E-LTP early component
- L-LTP late component
- L-LTP a more robust and stable form of LTP lasting many hours that is dependent on the synthesis of both RNA and protein
- L-LTP is blocked by inhibitors of PKA (for review, see Huang et al . , 1996b), and is dramatically impaired in mice expressing a dominant negative form of a regulatory subunit of PKA
- Blitzer et al . , 1995; Thomas et al . , 1996) found that when LTP in area CAl is induced by strong stimuli it can be blocked by inhibitors of PKA. However, his inhibition could be removed by preincubation of slices with PP1/PP2A inhibitors. This led Blitzer, et al, to suggest that under certain circumstances, PKA may "gate" LTP by suppressing a phosphatase cascade.
- a deletion mutant of the catalytic subunit A ⁇ ( ⁇ CAM-AI) of murine calcineurin (O'Keefe et al., 1992) was expressed under the control of the CaMKII ⁇ promoter (Line CN 98, Figure IA; Mayford et al, 1996) .
- the calcineurin mutant ⁇ CAM-AI is a fragment of the catalytic A ⁇ subunit which lacks the autoinhibitory domain and a portion of the calmodulin binding domain, but retains the calcineurin B binding domain (O'Keefe et al ., 1992; Parsons et al .
- the CaMKII ⁇ promoter has the advantage of driving expression of transgenes postnatally to a restricted subset of neurons in the CNS; thus it was used to drive transgene expression selectively in neurons of forebrain structures including hippocampus, striatum, cortex and amygdala (Mayford, et al, . 1995a: Kojima et al 1997) .
- Northern blot analyses performed on adult CN98 mutatn mouse forebrain revealed the expression of a 1.9 kb transcript corresponding to the mRNA of the transgene ( Figure 11B) .
- the brain distribution of the mRNA was determined by in si tu hyybridization using a radiolabled oligonucleotide specific for the transgene.
- the mRNA was detected in forebrain, primarily in the hippocampus in CAl, CA2, and CA3 regions as well as in dentate gyrus ( Figure 11D) . No signal was detected in wild-type littermates ( Figures 11D) .
- PPF paired-pulse facilitation
- LTP induced by single or multiple one- second high frequency (100 Hz) trains was studied in wild- type and CN98 mutant mouse hippocampal slices.
- administration of a single train at 100Hz elicited a transient form of LTP that was comparable at one hour post-tetanus, even though immediately after the tetanus LTP was slightly reduced in CN98 mutants (CN98 mutant: 129 ⁇ 10% of baseline at 1 hr, 9 slices, 5 mice; CN98 wild-type: 130 ⁇ 6% of baseline at 1 hr, 7 slices, 4 mice; Figure 13A) .
- L-LTP in area CAl can be induced chemically through either application of D1/D5 dopamine receptor agonists or direct activators of adenylyl cyclase and PKA.
- application of agonists of D1/D5 dopamine receptors or the PKA agonist Sp- cAMPS result in a slow-onset potentiation of synaptic transmission that is sensitive to protein and RNA-synthesis inhibitors, and mutually occlusive with L-LTP elicited by multiple high frequency trains (Huang and Kandel, 1994; Huang et al . , 1994; Bolshakov et al . , 1997).
- anisomycin an inhibitor of protein synthesis on LTP in mouse hippocampal slices, now increasing the preincubation time for anisomycin by 30 minutes.
- concentrations of anisomycin used were sufficient to completely block protein synthesis in area CAl of hippocampus (Stanton and Sarvey, 1984; Osten et al . , 1996) . Nonetheless, the difference in time course of inhibition by anisomycin and PKA inhibitors could be due to pharmacokinetic properties of these drugs.
- a Novel PKA Dependent Intermediate Phase can also be Isolated Pharmacologically and by Varying the Number of Stimulus Trains
- the novel intermediate phase in which PKA acts to suppress a phosphatase cascade we varied the number of tetanic trains of stimulation.
- One of the characteristics that distinguishes E-LTP from L-LTP is that weak stimuli such as a single 100Hz train elicit E-LTP but not L-LTP.
- weak stimuli such as a single 100Hz train elicit E-LTP but not L-LTP.
- 3-4 repeated 100Hz trains are required.
- CN98 mutant mice suggests that calcineurin suppresses an intermediate phase of LTP.
- the calcineurin construct in these mice is expressed in both the presynaptic CA3 cells as well as the postsynaptic CAl pyramidal cells, we cannot tell from these experiments alone where calcineurin is eliciting its action.
- subtle alterations in presynaptic function such as those observed in PPF and PTP in these mice could contribute to the phenotype.
- mice which express the calcineurin transgene in a more spatially restricted manner in hippocampus.
- the two lines we tested (Tet-CN279 and Tet- CN273) , had the further advantage that the expression of the calcineurin transgene is regulated by the tetracycline-controlled transactivator (tTA) system (see accompanying article, Mansuy et al . , submitted to Cell, for details of generation and characterization of these two lines) .
- tTA tetracycline- controlled transactivator
- mice overexpressing calcineurin reflected a consequence of the transgene on development of the nervous system or represented an acute effect of the transgene on synaptic plasticity.
- the transgene is expressed in the Tet-CN279 mice (Mansuy et al . , submitted to Cell) .
- doxycycline (1 mg/ml) is administered in the animal's water supply, or in the ACSF (1 ng/ml) during electrophysiological experiments, the expression of the transgene is suppressed (Mansuy et al . , submitted to Cell) .
- Tet-CN279 mutant mice off doxycycline, the response to two trains was significantly lower than that seen in wild-type one hour after the tetanus, and was completely reversed by doxycycline pretreatment (Tet-CN279 mutant: 147 ⁇ 8% of baseline at 1 hr, 15 slices, 9 mice; Tet-CN279 on doxycycline: 184 ⁇ 18% of baseline at 1 hr, 8 slices, 5 mice; p ⁇ 0.01 for Tet-CN279 mutant versus Tet-CN279 wild- type, Figure 17B) .
- Tet-CN279 mutant 147 ⁇ 8% of baseline at 1 hr, 15 slices, 9 mice; Tet-CN279 on doxycycline: 184 ⁇ 18% of baseline at 1 hr, 8 slices, 5 mice; p ⁇ 0.01 for Tet-CN279 mutant versus Tet-CN279 wild- type, Figure 17B
- mice Tet-CN279, Tet-CN273
- a regulatable transactivator see Mansuy et al . , submitted to Cell.
- calcineurin essentially limited to the CAl neurons of the hippocampus selectively interferes with a novel phase of LTP that we isolated independently by pharmacological means and by using a two train stimulus protocol.
- this phenotype in mice overexpressing calcineurin is due to the expression of the transgene in the adult animal.
- I-LTP in turn also can be distinguished from L-LTP by two ways. First, whereas both I-LTP and L-LTP are dependent on PKA, only L-LTP is dependent on macromolecular synthesis. Second, while I-LTP could not be generated in mice overexpressing calcineurin, pharmacologically induced slow-onset potentiation, which is thought to utilize the same mechanisms as tetanically-induced L-LTP can still be generated.
- I-LTP and E-LTP differ in several distinct ways, I-LTP very likely also shares a number of mechanisms in common with E-LTP. For example, the suppression of phosphatase activity by PKA during I-LTP, a suppression which requires a stronger stimulus than the one 100 Hz train necessary to produce E-LTP, may simply act to allow a more robust utilization of mechanisms recruited for E-LTP.
- I-LTP, E-LTP and L-LTP in response to repeated high frequency trains, as well as a distinction in the strength of stimulus required to elicit these phases, these distinctions may become blurred under other circumstances, such as during periods in which neuromodulatory influences are recruited (Thomas et al .
- PKA is a Feed-forward Regulator of Calcium-Stimulated Kinase Activity
- Calcineurin has a particularly high affinity for calcium/calmodulin. For example, it is at least an order of magnitude more sensitive to calcium/calmodulin than CaMKII. It was this feature of calcineurin which led Lisman (1989; 1994) to propose that low-level increases in calcium, induced by low frequency stimuli, would lead to synaptic depression through activation of calcineurin, while high frequency stimuli would lead to the large increases in calcium necessary to activate CaMKII and lead to LTP
- Lisman's model has been supported by several studies (Malenka and Nicoll, 1993; Cummings et al . , 1996).
- mice which exhibit a defective tetanus-evoked L-LTP the slow onset potentiation induced by D1/D5 agnonists and Sp-cAMPS is absent, consistent with the idea that tPA "7" mice lack the downstream machinery necessary for producing the late phase (Huang et al . , 1996a) .
- ⁇ CaM-AI A cDNA encoding a truncated form of the murine calcineurin subunit A ⁇ , ⁇ CaM-AI (provided by S.J. O'Keefe) was used to construct the expression vector for the generation of CN98 mice.
- ⁇ CaM-AI lacks the autoinhibitory domain and a portion of the calmodulin-binding domain of calcineurin A ⁇ and was shown to be active in Jurkat T-cells (O'Keefe et al . , 1992) .
- a 1.27 kb EcoRI fragment of ⁇ CaM-AI cDNA was made blunt-ended and subcloned into the EcoRV site of pNN265 vector (provided by N.
- the plasmid pNN265 carries upstream from the EcoRV site, a 230 bp hybrid intron that contains an adenovirus splice donor and an immunoglobulin G splice acceptor (Choi et al . , 1991) and has a SV40 polyadenylation signal downstream from the EcoRV site.
- the ⁇ CaM-AI cDNA flanked by the hybrid intron in 5' and the poly (A) signal was 3' was excised from pNN265 with Notl and the resulting 2.7 kb fragment was placed downstream of the 8.5 kb mouse CaMKII ⁇ promoter including the transcriptional initiation site (Mayford et al . , 1996) to generate the CN98 mice ( Figure 11A) was excised from the vector by digestion with Sfil. Prior to microinjection, all cloning junctions were checked by DNA sequencing.
- the transgenic mice CN98 were generated by microinjection of the linear constructs into fertilized eggs collected from BL6/CBA Fl/J superovulated females mated with BL6/CBA FI males (Jackson Laboratories; Hogan et al . , 1991). Before microinjection, the DNA fragment was gel purified then put through Elutip (Schleicher and Schuell) for further purification. Microinjected eggs were kept overnight at 37°C in 5% CO 2 and one day later, the two-cell embryos were transferred into pseudopregnant BL6/CBA Fl/J females. Analysis of founder mice for integration of the transgene was performed by Southern blotting and PCR. The founder mouse was backcrossed to C57BL6 Fl/J mice to generate the transgenic line CN98. The genotype of the offspring was checked by Southern blotting or PCR. Transgenic mice were maintained in the animal colony according to standard protocol .
- RNA was denatured in 1 M formaldehyde, 50% formamide, 40mM triethanolamine, 2 mM EDTA (pH 8) , electorphoresed on a 1% agarose gel and transferred to a nylon membrane (GenScreen Plus, NEN) in 0.4 N NaOH.
- the membrane was hybridized to a 1.1 kb [ ⁇ 32 P]dCTP-labeled EcoRV-Notl fragment from pNN265. The hybridization was performed overnight at 42°C in 50% formamide, 2 X SSC, 1% SDS, 10% dextran sulfate, 0.5 mg/ml denatured salmon sperm DNA.
- the membrane was washed 10 min at room temperature in 2 X SSC, 1 % SDS then twice 15 min at 42°C in 0.2 X SSC, 1% SDS and exposed to film for three days.
- mice Brains from adult mice were dissected out and rapidly embedded in Tissue-Tek medium on dry ice (Miles, Inc.) Fifteen mm cyrostat sections were placed onto gelatin-coated glass slides, dried 15 min at 55°C then fixed 10 min in freshly prepared 4% paraformaldehyde, rinsed two times in PBS (pH 7.2) and dehydrated through a gradient of ethanol . The sections were rehydrated, permeabilized into 0.1M triethanolamine pH 8, 0.25% acetic anhydride, washed two times in 2 X SSC, rinsed in 70% ethanol then dried.
- oligonucleotide 5 ' -GCAGGATCCGCTTGGGCTGCAGTTGGACCT- 3'
- the oligonucleotide was labeled by 3' poly (A) tailing using [ ⁇ 35 S] dATP (NEN) and terminal transferase (Boehringer Mannheim) and the hybridization was performed in a humidified chamber in 50% formamide, 10% dextran sulfate, 35mM HEPES (pH 7) , ImM EDTA (pH 8) , lOOmM DTT, 400mg/ml denatured salmon sperm DNA, 400 mg/ml poly (dA) , 1 X Denhart's, 600mM NaCl and IO 7 cpm oligonucleotide/ml hybridization solution.
- slides were washed twice for 10 min in 2 X SSC at room temperature, twice for 60min in 0.2 X SSX at 65°C then once 10 min in 2 X SSC at room temperature. Slides were dehydrated in 70% ethanol, dried and exposed to Kodak Biomax MR film for 2-3 weeks.
- the peptide 97 [Ala ] -RII (Peninsula Labs) was labeled with 0.3 mM [ ⁇ 32 P]ATP (NEN) using 4 mg catalytic subunit of PKA (Fluka) .
- the reaction was stopped with 5% TCA in 0.1 M KH 2 P0 4 and the enzyme activity was calculated as previously described (Klee et al . , 1983) and is expressed in nmol Pi release/min/mg protein.
- the protein concentration was determined using the bicinchroninic acid protein assay kit (Sigma) . All samples were performed in triplicate.
- Transverse hippocampal slices were prepared as previously described (Huang and Kandel, 1994) . Mice of either sex, aged 7-18 weeks were used. In all appropriate cases, the experimenter was blinded to animal genotype. Hippocampi was rapidly unilaterally dissected out on ice, and 400 mm slices were cut on a Mcllwain tissue chopper and placed in oxygenated ACSF (NaCl, 124mM, KCl, 4,4 mM; CaCl 2 , 2.5mM; MgS0 4 , 1.3 mM; NaH 2 P0 4 , 1 mM; glucose, 10mM; and NaHC0 3 26mM) . The slices were then transferred to an interface chamber where they were subfused with oxygenated ACSF (1-2 ml/min) and allowed to equilibrate for 60-90 min at 28°C
- ACSF oxygenated ACSF
- a bipolar nichrome stimulating electrode was also placed in stratum radiatum for stimulation of Schaffer collateral afferents (0.05 ms duration) .
- test stimuli were applied at a frequency of 1 per minute (0.017 Hz), and at a stimulus intensity that elicits a fEPSP slope that was 35% of the maximum. Experiments in which a significant change in the fiber volley amplitude occurred, were discarded. Drugs were applied through the perfusion medium.
- DL-AP5 calyculin A, KT5720 and R(+)-6- Bromo- 7, 8-dihydroxy-3-allyl-l-phenyl-2 , 3 , 4-tetrahydro-lH-3- benzazepine (6-Br-APB) were purchased from Research Biochemicals International, Natick, MA.
- DL-AP5 was dissolved directly into ACSF prior to use.
- Calyculin A, KT5720 and 6-Br-APB were dissolved as lOOx stocks in DMSO and diluted into ACSF just before use.
- Sp-cAMPS Biolog, La Jolla, CA was dissolved directly in ACSF.
- CREB as a memory modulator induced expression of a dCREB2 activator isoform enhances long-term memory in Drosophila
- Short-term synaptic plasticity Annu. Rev. Neurosci. 12: 13-31.
- hippocampal-dependent memory was assessed in transgenic mice by expression, primarily in the hippocampus, a truncated form of calcineurin. These mice have normal short-term memory but have a defect in long-term memory that is evident on both a spatial task (the spatial version of the Barnes maze) and on a visual recognition task, thus providing genetic evidence for the role of the rodent hippocampus in spatial as well as non-spatial memory storage. Further on the Barnes maze, the defect in long- term memory could be fully rescued by increasing the number of training trials. These results suggest that the transgenic mice overexpressing calcineurin have the capacity for long-term memory which prevents the storage of long-term memory.
- mice overexpressing calcineurin in a regulated manner were analyzed and found that the memory defect observed is reversible and therefore is most likely due to the transgene and not to a developmental abnormality.
- I-LTP long- term potentiation
- mice that overexpress a truncated form of the phosphatase calcineurin in the hippocampus is described (lines CN98, Tet-CN98m Tet-CN279 and Tet-CN 273) . These mice exhibit a specific defect in an intermediate phase of long-term potentiation (I-LTP) .
- I-LTP long-term potentiation
- LTP Like the temporal phases of memory, LTP also is not unitary but has at least two major phases: an early phase (E-LTP) elicited by a weak stimulus (1 train of Is 100Hz) and that is PKA- and protein synthesis-independent , and a late phase (L-LTP) induced by strong stimuli (4 trains of Is 100 Hz) that requires PKA and protein synthesis (Huang and Kandel, 1994; Huang et al . , 1996) .
- E-LTP early phase
- L-LTP late phase induced by strong stimuli (4 trains of Is 100 Hz) that requires PKA and protein synthesis
- PKA is thought to be a component of a gate that regulates the initiation of LTP by opposing the actions of the phosphatases PPl and PP2A (Blitzer et al . , 1995; Thomas et al . , 1996).
- I-LTP novel intermediate phase of LTP
- mice that express a truncated form of calcineurin were assessed in mice that express a truncated form of calcineurin. It was found that mutant mice have normal short-term memory but exhibit a profound and specific defect in long-term memory on both the spatial version of the Barnes maze and on a task requiring the visual recognition of a novel object.
- the training protocol was intensified on the spatial version of the Barnes Maze by increasing the number of daily training trials and found that the memory defect was fully reversed, indicating that these mice are capable of forming long-term memory.
- This rescue experiment suggests that mice overexpressing calcineurin have impaired long-term memory possibly due to a specific defect in the transition between short-term and long-term memory that may reflect a weakening of an intermediate component of memory.
- mice in which the expression of calcineurin transgene is regulated by the tetracycline-controlled transactivator (tTA) system the spatial memory defect was reversed when the expression of the transgene was repressed by doxycycline.
- mice overexpressing calcineurin are deficient on the spatial version of the Barnes Maze with one trial a day
- mice overexpressing calcineurin primarily in the hippocampus (line CN98) .
- the Barnes maze is a circular maze that has 40 holes in the perimeter and a hidden escape tunnel placed under one of the holes.
- the mouse is placed in the center of the maze and is motivated to find the tunnel to escape the open brightly lit maze and an aversive buzzer.
- To locate the tunnel the mouse needs to remember and use the relationships among the distal cues in the environment.
- To achieve the learning criterion on this task the mouse must make three errors or less across five out of six consecutive trials. Errors were defined as searching any hole that did not have the tunnel beneath it. Previous research has established that performance on this task depends on the hippocampus (Barnes et al . , 1979) .
- CN98 mice were tested on the Barnes maze once each day (1 trial per day, 24 h intertrial interval) until they met the learning criterion or until 40 consecutive days elapsed. Despite the fact that they were tested for 40 consecutive days, only 25% of the CN98 mutant mice met the learning criterion compared to 88% of the wild-type littermates ( Figure 19A) .
- the impairment on the spatial version of the maze observed in the CN98 mutant mice could be due to a deficit in spatial memory or to a performance deficit such as a gross motor, visual or motivational impairment.
- a performance deficit such as a gross motor, visual or motivational impairment.
- Another group of CN98 mice were tested on a cued version of the Barnes maze, a task which does not require the hippocampus.
- the cured version has similar contingencies and response requirements as the spatial version except that the position of the escape tunnel is made visible to the mice by putting a cue behind the hole where it is placed. Thus to locate the escape tunnel, the mice simply need to associate the cue with the tunnel.
- the spatial memory deficit can be fully rescued by repeated training trials
- mice have a defect in spatial long-term memory. Have the mutant mice totally lost their ability to form long-term memory? Or do these mice have a block in the transition from short-term to long-term memory? Can the mice store long-term memory when trained with a more intensive protocol?
- mice may indeed have the ability to form long-term memory but may be deficient in an earlier phase of memory essential for the storage of long-term memory.
- CN98 mutant mice have the capacity for hippocampal-dependent long-term memory when trained with repeated trials raised the question: Why do mutant mice have defective spatial memory when trained with one trial per day? Is short-term memory impaired? If so, can the defect in long-term memory be explained by a defect in short-term memory? Since spatial tasks such as the spatial version of the Barnes do not readily lend themselves to exploring short-term memory, the CN98 mutant mice were assessed for short-term memory using a recognition task for novel objects. Spontaneous exploratory activity in rodents can be used as a measure of memory and in particular, it can be assessed to determine the recognition of a novel versus a familiar object in an object recognition task (Aggleton, 1985; Ennaceur and Delacour, 1988).
- hippocampal region has been shown to play a role in the detection of novel visual stimuli (Tulving et al . , 1996). Patients with hippocampal lesions exhibit impaired responses to novel stimuli (Knight et al . , 1996; Reed and Squire, 1997) . Monkeys and rodents with hippocampal lesions are similarly defective on a task requiring the recognition of novel objects (Myhrer, 1988a, b; Phillips et al . , 1988; Mumby et al. , 1995) .
- mice were trained by being placed in a novel environment that contained two novel objects and were allowed to explore the objects for 15 min. During the testing phase, following different retention intervals, the mice were placed back in the environment but one of the two familiar objects was replaced with a third novel object. Mice with normal object recognition memory show an increase in exploration of the third novel object. This increase in exploration indicates that information regarding the familiar object was stored during training and further exploration of this object is no longer needed.
- PI preference index
- mice overexpressing calcineurin have normal short-term memory and the capacity for long-term memory that is strengthened with repetition (four trials protocol) and allows long-term memory to be stored.
- Calcineurin overexpression can be regulated by the tTA system
- mice expressing the calcineurin transgene in a regulated manner under the control of the tTA system were crossed that express the tTA gene under the control of the CaMKII ⁇ promoter (line B, Mayford et al .
- mice carrying the tTA-responsive promoter tetO fused to a cDNA encoding the truncated form of calcineurin ⁇ CaM-AI (lines CN279 and CN273) ( Figure 22A) .
- the spatial distribution of the transgene transcript was examined by in situ hybridization on adult brain in Tet- CN279 and Tet-CN273 mice.
- the transgene mRNA was detected mainly in the hippocampus and striatum, almost no expression was detected in neocortex. In the hippocampus, it was found primarily in area CAl and dentate gyrus with relatively little expression in area CA3 ( Figure 23) . In contrast, no signal was detected in mutant mice administered lmg/ml doxycycline for at least one week or in wild-type mice ( Figure 23) .
- the memory defect can be reversed by repression of the calcineurin transgene by doxycycline
- mice were tested on the spatial version of the Barnes maze.
- mice normally progress through three search strategies: random, serial and spatial (Barnes, 1979; Bach et al . , 1995) ( Figure 24A) .
- the random search strategy is operationally defined as a random localized search of holes separated by center crossings which results in a large number of errors .
- the serial search strategy is defined operationally as a systematic search of consecutive holes in a clockwise or counterclockwise fashion and use of the strategy results in less errors than for the random search strategy ( Figure 24A) .
- the spatial search strategy the most efficient strategy of the three and the only one that requires that hippocampus, is defined operationally as navigating directly to the tunnel with three or fewer errors ( Figure 24A) .
- Calcineurin plays a role in hippocampal-dependent memory: transition from short-term to long-term memory Mice expressing a truncated form of calcineurin exhibit a specific memory defect on the spatial version of the Barnes maze, a hippocampal-dependent task. No defect was observed on the cued version of the task, which is hippocampal- independent, indicating that the defect observed on the Barnes maze was in spatial memory and was not a motivational or sensory-motor defect. Further, the defect in spatial memory was reversible in adult mice overexpressing calcineurin in a regulated manner with the tTA system.
- mice overexpressing a constitutively active form of CaMKII were shown to have a spatial memory defect on the Barnes maze with one trial a day.
- no improvement in spatial memory was observed when the number of trials was increased to 10 trials per day with 1 min intertrial interval and further, no improvement in performance was observed within a day across the 10 trials (Mayford et al . , 1995; Bach, M, unpublished results).
- CREB knockout and CaMKII-Asp 286 mutant mice may have spatial memory defects distinct from the defect observed in mice overexpressing calcineurin (a comparison of performance on the Barnes and Morris water maze is possible since both tasks involve similar cognitive processes) .
- CREB mutant mice have a defect in long-term memory although CaMKII-Asp 286 mutant mice may have a defect in the formation of the short-term memory trace.
- mice overexpressing calcineurin and in CREB knockout mice provide an interesting comparison with mice expressing a dominant negative form of the regulatory subunit of PKA, R(AB) (Abel et al., 1997) .
- R(AB) a dominant negative form of the regulatory subunit of PKA
- the PKA pathway is modified.
- the PKA pathway is affected indirectly through an increase in calcineurin activity which is suggested to suppress the PKA pathway (Winder et al . , 1997) whereas in R(AB) mice, the PKA pathway is directly affected by the genetic manipulation since the activity of PKA itself is decreased.
- mice In CREB knockout mice, the defect appears to be further downstream from PKA since CREB has been implicated in the activation of gene transcription (Brindle and Monminy, 1992; Lee and Masson, 1993). Consistent with these three genetic manipulations acting on complementary sites, all three types of mice have a similar phenotype: short-term memory and E-LTP are normal but L-LTP and long-term memory are impaired.
- the Barnes maze is a circular platform with forty holes at the periphery with an escape tunnel placed under one of the holes.
- each mouse On the first day of testing, each mouse was placed in the tunnel and left there for 1 min. The first session started 1 min after the training trial.
- each mouse was put in a starting chamber in the center of the maze for 10s and a buzzer was turned on. The start chamber was then lifted and the mouse was allowed to explore the maze. The session ended when the mouse entered the tunnel or after 5 min elapsed. The buzzer was then turned off and the mouse was allowed to stay in the tunnel for 1 min.
- the tunnel In the spatial version of the maze, the tunnel was always located under the same hole which was randomly determined for each mouse .
- mice When tested with 4 trials per day, after being removed from the escape tunnel, the mouse was placed into the start chamber on the maze for 30 sec. Thus, each trial was separated by an intertrial interval of 90 sec (60 sec in the escape tunnel and 30 sec in the start chamber) . In the cued version of the maze, the mice were tested once a day until they met the criterion of three errors or less on 5 out of 6 consecutive days or until 40 days elapsed. An error was defined as searching a hole that did not have the tunnel beneath it. The order of holes searched and the search strategy employed were manually recorded by an experimenter blind to genotype.
- mice were placed in a square novel environment (20" long by 8" high) constructed from plywood and painted white with epoxy paint. Two (of three possible) plastic toys (between 2.5 and 3 inches) that varied in color, shape and texture were placed in specific locations in the environment 14 inches away from each other. Two different combinations of object pairs were counterbalanced across genotype and retention intervals. The mice were able to freely explore the environment and objects for 15 min and then were placed back into their individual home cages. Following various retention intervals (30 min, 2 hr or 24 hr) , mice were placed back into the environment with two objects in the same locations but now one of the familiar objects was replaced with a third novel object. The mice were then again allowed to freely explore both objects for 15 min. The objects were throughly cleaned with a mild detergent
- the resulting value was divided by 0.5 which represents no preference for either object and that result was then multiplied by 100.
- a PI greater than 100 indicates preference for the novel object during testing.
- a PI equal to 100 indicates no preference whereas a PI inferior to 100 indicates a preference for the familiar object.
- a two factor ANOVA (genotype and one repeated measure) and individual Student t tests for each retention interval were employed to assess the effect of genotype on the PI at the different retention intervals .
- ⁇ CaM-AI lacks the autoinhibitory domain and a portion of the calmodulin-binding domain of calcineurin A ⁇ and was shown to be constitutively active in Jurkat T-cells (O'Keefe et al.,1 992).
- a 1.27 kb EcoRI fragment of ⁇ CaM-AI cDNA was made blunt-ended and subcloned into the EcoRV site of pNN265 vector (provided by N. Nakanishi) .
- the plasmid pNN265 carries upstream from the EcoRV site, a 230 bp hybrid intron that contains an adenovirus splice donor and an immunoglobulin G splice acceptor (Choi et al . , 1991) and has a SV40 polyadenylation signal downstream from the EcoRV site.
- mice Tet-CN279 and Tet-CN273 were generated by microinjection of the linear construct as previously described (Hogan et al . , 1994; Windor et al . , 1997). Analysis of founder mice for integration of the transgene was performed by Southern blotting and PCR. The founder mice were backcrossed to C57BL6 Fl/J mice to generate the transgenic lines Tet-CN279 and Tet-CN273. To generate Tet- CN279 and Tet-CN273 mice, CN279 and CN273 FI mice were crossed with CaMKII ⁇ promoter-tTA mice (line B, Mayford et al .
- mice were maintained in the animal colony according to standard protocol. Tet- CN279 and Tet-CN273 mice were administered either water or lmg/ml doxycycline (in 5% sucrose) in the drinking water at least one week before being used.
- RNA from forebrain was amplified according tot he manufacturer's protocol (Gibco BRL) . Briefly, cDNA was synthesized from 3 ⁇ g of total RNA with the Superscript II RT in a 20 ⁇ l reaction. Amplification was performed with Taq Polymerase (Boehringer Mannheim) for 25 cycles as follows: 94°C for 30s, 50°C for 30s and 72°C for 1 min. The following oligonucleotides were used as primers : 5 ' - C C T G C AG C A C AAT A AT T T G T T AT C - 3 ' and 5 ' - TAGGTGACACTATAGAATAGGGCCO-3 ' .
- In situ hybridization were performed as described in Winder et al., 1997. Briefly, brains from adult Tet-CN279 and Tet- CN273 mice either on or off doxycycline were dissected out and sectioned. Sections were fixed 10 min in 4% paraformaldehyde , rinsed in PBS and dehydrated. Sections were rehydrated, permeabilized, washed and rinsed before being hybridized overnight at 37°C to a [ ⁇ 5 S] ATP-labeled oligonucleotide (5 ' -GCAGGATCCGCTTGGGCTGCAGTTGGACCT-3 ' ) specific for the transgenes. After hybridization, slides were washed, dehydrated then exposed to Kodak Biomax MR film for 2 to 3 weeks .
- mice were injected with 5 ml/kg of pentobarbital and decapitated. Hippocampi were dissected out, homogenized in 2mM EDTA (pH 8), 250mM sucrose, 0.1% ⁇ - mercaptoethanol . Supernatants were incubated at 30°C for 1 min in presence of the [ ⁇ 32 P] -labeled [Ala97] -RII peptide and either 0.1 mM calmodulin and 0.66 mM Ca 2+ or 0.33mM EGTA. The reaction was stopped and the enzyme activity calculated previously as described (Klee et al . , 1983; 1987). The activity was expressed in nmol Pi released/min/mg protein. The protein concentration was determined using the bicinchroninic acid protein assay kit (Sigma) . All samples were performed in triplicate.
- the impairment of long-term memory formation by the phosphatase inhibitor okadaic acid Brain Res. Bull. 36: 557-561; Zhao, WQ et al . , (1995b).
- Example 5 Memory and behavior: a second generation of genetically modified mice.
- Explicit memory refers to the conscious recollection of information about facts and events involving places, people objects.
- Implicit memory refers to the unconscious use of information relating to various habits and perceptual and motor strategies, and to the memories for simple forms of learning in Aplysia and Drosophila has provided some initial understanding of the molecular mechanics that contribute to implicit memory storage (Carew, 1996; Martin et al . , 1996; Tully et al . , 1996) .
- the hippocampus As proven to be most suitable, and the most accessible, target for a rigorous genetic analysis of aspects of explicit memory storage.
- Each of the three major synaptic pathways within the hippocampus ( Figures 2) is well define anatomically and is capable of undergoing long-term potentiation (LTP) , an activity- dependent from of plasticity thought to be important for memory storage (Bliss et al . , 1973; Bliss et al . , 1993).
- LTP long-term potentiation
- Lesions of the hippocampus interfere with the formation of the new spatial memories - memory for places - which is particularly well studied in rodents (Morris et al . , 1982).
- the initiating step for L.P. involves the release of glutamate from the presynaptic terminals of the CA3 neurons. This leads to the activation of N-methyl-D-aspartate (NMDA) receptors on the postsynaptic CAl pyramidal cells, resulting in an influx of Ca 2+ into the postsynaptic neuron.
- NMDA N-methyl-D-aspartate
- the Ca 2" " signal activates a number of second messengers kinase, including Ca 2+ /calmodulin-dependent protein kinase II (CaMKII) , protein C, protein kinase A and one or more tyrosine kinase.
- mice Genetically modified mice come in two major varieties, termed “knockouts' and "transgenics".
- knockout mice the endogenous gene of interest is specifically deleted by homologous recombination in embryonic stem cells. The gene of interest is therefore deleted in al cells of the body and is absent for the entire life of the animal. Thus, conventional knockouts lack both anatomical restrictions and temporal regulation.
- transgenic mice an additional gene - the transgene - is added to the mouse genome by the microinjection of DNA into the oocyte .
- the transgene ma by the wild-type version of a gene - in which case the gene product is overexpressed - or it may be a mutant version of the gene, designed to enhance or suppress function.
- the transgene carries with it an appropriate promoter element that directs the anatomical and temporal pattern of its expression.
- an appropriate promoter By selecting the appropriate promoter, the anatomical and temporal expression of the genetic change can be controlled, at least partially.
- the promoter should drive transgene expression in the critical medial temporal lobe structures, with the onset of expression occurring late in brain development. Otherwise, one cannot be certain that one is examining learning and memory specifically without interfering with development .
- the promoter of CaMKII ⁇ gene (Mayford et al . , 1996), which drives expression of a transgene specifically in forebrain structures, especially the hippocampus.
- the promoter is active only in neurons and not in glial cells ( Figures 3a) , and the onset of expression occurs at a relatively late developmental stage, usually the first to second postnatal week (Kojima et al . , 1997).
- the anatomical sites at which gene expression occurs are restricted further when the CaMKII ⁇ promoter is combined with other regulatory elements such as the Crerecombinase or the tetracycline transactivator (tTA) (Mayford et al .
- Cre-loxP system a system developed by Klaus Rajewski's group for B-Cell-specific gene deletion (Gu et al . , 1994; Lakso et al . , 1992).
- Cre recombinase a site-specific recombinase derived from PI bacteriophage that catalyzes recombination between 34 base- pair loxP recognition sequence sequences (Abremski et al . , 1984; Sauer et al . , 1988).
- Cre-mediated recombination leads to the deletion of DNA between the loxP sites.
- mice Two different types of mice are required to obtain Cre-loxP- mediated gene deletion.
- the first is transgenic mouse in which a promoter - in this case the CaMKII ⁇ promoter - is used to drive expression of the Cre recombinase in a specific subset of neurons in the brain (with no effect , as loxP target sites are absent from the genome) .
- LoxP sites are introduced by homologous recombination into the endogenous gene of interest (the gene to be "knocked out”) such that they flank an exon critical for the gene's function.
- the loxP sites are placed in intros so that they do not alter the normal function of the gene and do not produce a phenotype in the absence of Cre recombinase.
- the Cre recombinase transgene and the loxP-flanked endogenous gene are introduced into the same mouse, the portion of the endogenous gene between the loxP sites will be deleted by the Cre recombinase. This deletion will lead to a knockout of the loxP-flanked gene only in neurons that express the Cre recombinase. In cells that do not express Cre recombinase, the loop-flanked gene remains intact and functional ( Figures 4a) .
- the CaMKII ⁇ -Cre-loxP system was then used by the Tonegawa laboratory to knock-out the NMDA receptor 1 (R ⁇ ) gene in a CAl -restricted manner Tsien et al . , 1996, p. 1327).
- the mutant mice had a complete loss of LTD in Cal as well as a profound defect in spatial memory, showing that NMDA receptor-mediated transmission in the CAl neurons of the hippocampus is critical for explicit memory formation and strengthening the idea that L.P. in the Schaffer collateral pathway is important from memory formation.
- the CaMKII ⁇ -Cre-loop approach solves one of anatomical restrictions - but there is still the possibility that the impairment is spatial memory observed in these mice results from some development abnormality caused by prolonged absence of the NMDA R ⁇ gene. Although this is unlikely, given the late onset of expression of the CaMKII ⁇ promoter, we turned to a technology for obtaining temporal regulation of transgene expression.
- tetracycline-regulatable tTA system developed by Herman Bujard 's group (Gossen et al . , 1992; Furth et al . , 1994).
- the tetracycline repressor (tetR) is a protein from the Escherichia coli TnlO tetracycline resistance operon that recognizes and binds tetO, a specific DNA sequence in the operon.
- the interaction of tetR with its tetO DNA target is disrupted by low levels of the antibiotic tetracycline and its derivatives.
- Bujard produced a regulatable eukaryotic transcription factor termed the tetracycline transactivator
- tTA tetO transcription factor
- the CaMKII ⁇ promoter is used to drive expression of the tTA gene in forebrain neurons (with no effect, as there are no endogenous tetO sites) .
- the second line of transgenic mouse carries a tetO site linked to the particular gene of interest, in this case a constitutively active form of CaMKII ⁇ (CaMKII-Asp286) , whose properties we consider below (Mayford et al . , 1996) .
- the CaMKII-Asp286 transgene is expressed only in the forebrain neurons that express tTA.
- the strong expression of the CaMKII-Asp286 gene can now be suppressed by administering doxycycline to the mice in their drinking water.
- CaMKII-Asp 286 was selected as a transgene for study because, as discussed above, the initial pharmacological and genetic studies pinpointed CaMKII as a key molecular mediator of synaptic plasticity and memory formation.
- Pharmacological blockade of CaMKII prevents LTP (Malinow et al . , 1989; Miller et al . , 1988), and deletion of the CaMKII ⁇ gene in mice led to a loss of LTP and spatial memory (Silva et al . , 1992, p. 201; Silva et al . , 1992, p. 206).
- earlier biochemical studies revealed several interesting features of this kinase (Miller et al . , 1986).
- CaMKII shows little or no enzymatic activity. After a brief pulse of Ca 2+ /calmodulin, full enzymatic activity is induced. When Ca 2+ levels fall, however, rather than returning to the low basal level of activity as seen before the Ca 2+ pulse, the enzyme remains substantially active even in the complete absence of Ca 2+ . This persistent switch from a Ca 2+ -dependent to a cX -independent state represents a form of biochemical memory for the Ca 2+ signal.
- CaMKII-Asp286 kinase now provides a molecular genetic means for increasing the baseline activity of CaMKII ⁇ .
- the shift from LTP in the wild-type to LTD in the mutant in the 5-lOHz frequency range is particularly interesting because there is an endogenous 5-10Hz oscillation in neuronal activity (the "theta-rhythm” ) in the hippocampus of rodents. It has been suggested that patterned neuronal activity in the theta- frequency range represents the endogenous mechanism for inducing LTP in the hippocampus during spatial learning (Staubli et al . , 1987; Huerta et al., 1995). If this idea is correct, then mice that lack LTP in the theta frequency might show impaired spatial memory. Consistent with this idea, analysis of the CaMKII-Asp286 transgenic mice showed that they did not have a severe deficit in spatial memory function.
- mice could therefore be used to ask whether the CaMKII-Asp286 transgene had to be expressed in the presynaptic CA3 neurons to produce the deficit in 5-10 Hz LTP, or whether it was sufficient to restrict expression to the postsynaptic CAl neurons.
- the transgene expression was temporally regulatable, we could also ask whether its expression in the CAl neurons impaired LTP and memory by interfering directly with normal plasticity in the adult brain, or whether it did so through a disruption of neuronal development.
- reversible expression of the CaMKII-Asp286 transgene - limited to the CAl neurons - was sufficient to reversibly impair LTP in the 5-10 Hz theta frequency.
- expression of the transgene in the deep structures of the forebrain was sufficient to impair spatial memory reversibly.
- the pyramidal cells of the hippocampus that are stimulated artificially during LTP experiments are, in the freely behaving rat, "place cells" that encode spatial location in their action potential firing patterns.
- a given place cell will fire only when an animal occupies a particular location in its environment. When the animal moves to a different location in the same environment, other place cells fire. If the animal enters a new environment, the selection of place cells from among the pyramidal cells changes. These new place cells form within a matter of minutes and remain stable for weeks (Bostock et al . , 1991).
- the hippocampus contains a map-like representation of the animal's current environment, and that the firing of place cells in the CAl and CA3 regions signal the animal's moment-to-moment location within the environment.
- This map is interesting because it is the best example in the brain of a complex internal representation, a true cognitive map. It differs in several ways from the classical sensory maps found, for example, in the visual or somatosensory systems. Unlike sensory maps, the map of space is not topographic because neighboring cells in the hippocampus do not represent neighboring regions in the environment . Moreover, the firing of place cells can persist after salient sensory cues are removed and even in the dark. Thus, although the activity of a place cell can be modulated by sensory input, in contrast to neurons in sensory system, activity is not dominated by such sensory input (Muller, 1996) .
- hippocampal neurons encode an internal representation of space that is used to solve memory problems, how is this spatial map altered when LTP is interfered with genetically?
- positional firing properties of pyramidal neurons in the hippocampus of mice expressing the Ca-MKII-Asp286 transgene (Rotenberg et al . , 1996) .
- the experimental arrangement for studying place cells is shown in Figure 6.
- a mouse is fitted with a recording electrode implanted in the hippocampus . Action potential firing from a single hippocampal neuron can be reliably recorded from the electrode for a period of several weeks .
- the mouse is placed in a cylindrical arena and allowed to explore for 16 minutes while the animal's location and the firing of the hippocampal neuron are simultaneously recorded. As shown in Figure 6b, the firing rate of the neuron when the mouse is at each location in the cylinder can be plotted.
- the place cells are the building blocks of a cognitive map
- the instability of place cells would suggest that the map itself is unstable and therefore not suitable for the efficient calculation of navigational paths.
- the deficit at the neuronal level is very similar to the memory deficits seen in human patients with medial temporal lobe lesions.
- a classic example is patient H.M., for whom explicit information on each session of a multi-session learning test is like the first: he does not remember that the experiment took place previously, or even recognize the psychologists that administered the test .
- mice The study of explicit memory storage has clearly benefited from the use of new technologies to produce genetically modified mice.
- This reversed tTA allows one to keep expression of a transgene off during development, then rapidly turn it on by administering doxycycline to the adult mouse (Kistner et al . , 1996 and authors' unpublished observations) .
- the use of such an inducible system combined with the Cre recombinase should provide a way for inducibly knocking genes out in the brain.
- Other systems for regulating gene expression and gene deletion are also being explored (Feil et al . , 1996; No et al., 1996). With appropriate promoters, these technologies should prove generally useful for the selective genetic modification of precisely defined neuronal circuits controlling behavior.
- this approach should allow one to explore not only the individual genes but also the genetic pathways important for LTP.
- Bostock E et al . , "Experience-dependent modifications of hippocampal place cell firing,” Hippocampus 1991, 1: 193-205;
- Fig.l A comparison of the medial temporal lobe system in rodents, primates, and humans. At the top is shown the lateral surface of the rat brain, the ventral surface of the monkey brain and the medial surface of the human brain. Below each of these views of the brain is an unfolded two- dimensional map of the entorhinal cortex the perirhinal cortex and the parahippocampal postrhinal cortices . As these comparisons illustrate, rodents, primates and humans have an organization of their medial temporal lobe structures that is largely conserved among mammals (Burwell et al . , 1996). Abbreviations: R, rostral; C, caudal; D, dorsal; V, ventral.
- Fig.2 The flow of information in the medial temporal memory system in primates (Burwell et al . , 1996) .
- This extended view of the medial temporal lobe system emphasizes the importance of the direct projects from layers II and III of the entorhinal cortex (EC) to the CA3 , CAl and subicular regions.
- EC entorhinal cortex
- Fig. 4 Regional specificity of gene knockout with the CaMKII ⁇ promoter in combination with Cre-loxP system.
- Two independent lines of transgenic mice are generated: mouse 1 carries the CaMKII ⁇ promoter fused to the Cre transgene; in mouse 2, the gene of interest is flanked by two loxP sequences. The transgene is introduced into the mouse with the loxP-flanked gene through mating. In mice carrying both genetic modifications (mouse 1 + 2) , the loxP-flanked sequence is deleted only in the CAl neurons.
- Fig. 5 Temporal and regional expression of the CaMKII- Asp286 transgene with the tTA system, (a) Strategy used to obtain forebrain-specific transgene expression regulated by doxycycline. Mouse 1 carries the CaMKII ⁇ promoter fused to the tTA transgene; mouse 2 carries the tetO promoter fused to the CaMKII-Asp286 transgene. The two transgenes are introduced into a single mouse through mating. (b) The memory task undertaken by the mice - the spatial version of the Barnes maze. This circular maze has 40 holes in the perimeter and a hidden escape tunnel under one of the holes .
- the mouse is placed in the center of the maze and motivated to escape by bright lights and an aversive buzzer. To find the tunnel, the mouse needs to remember and use the relationships among the distal cues in the environment. To achieve the learning criterion on this task, the mouse must make three or less errors across five out of six consecutive trials. Errors are defined as searching any hole that did not have a tunnel beneath it .
- Fig.6 Place cell recordings from mice (modified from Rotenberg et al . , 1996) .
- the recording setup A mouse is trained to run all over the floor of a 49 cm diameter cylinder. Recordings are simultaneously made of the spike activity of one or more pyramidal cells and of the position of the mouse's head in the environment. Tracking is done with an overhead TV camera whose signal if fed to a detector that digitizes the position of a light on the mouse's head.
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EP98957888A EP1030860A4 (en) | 1997-11-12 | 1998-11-12 | Dna regulatory element for the expression of transgenes in neurons of the mouse forebrain |
AU14037/99A AU1403799A (en) | 1997-11-12 | 1998-11-12 | Dna regulatory element for the expression of transgenes in neurons of the mouse forebrain |
CA002309389A CA2309389A1 (en) | 1997-11-12 | 1998-11-12 | Dna regulatory element for the expression of transgenes in neurons of the mouse forebrain |
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US08/969,137 US6509190B2 (en) | 1997-11-12 | 1997-11-12 | DNA regulatory element for the expression of transgenes in neurons of the mouse forebrain |
US08/969,137 | 1997-11-12 |
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WO1999024457A1 true WO1999024457A1 (en) | 1999-05-20 |
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PCT/US1998/024157 WO1999024457A1 (en) | 1997-11-12 | 1998-11-12 | Dna regulatory element for the expression of transgenes in neurons of the mouse forebrain |
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EP (1) | EP1030860A4 (en) |
AU (1) | AU1403799A (en) |
CA (1) | CA2309389A1 (en) |
WO (1) | WO1999024457A1 (en) |
Cited By (3)
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WO2000009662A1 (en) * | 1998-08-17 | 2000-02-24 | The Trustees Of Columbia University In The City Of New York | Transgenic nonhuman mammal and uses thereof to identify compounds useful for improving long-term memory |
US7635768B2 (en) | 1997-11-12 | 2009-12-22 | The Trustees Of Columbia University In The City Of New York | Methods and reagents for dendritic localization of polynucleotides |
TWI413690B (en) * | 2010-05-24 | 2013-11-01 | Academia Sinica | Non-human animal model for frontotemporal lobar degeneration with ubiquitin-positive inclusions (ftld-u) |
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ES2295283T3 (en) * | 2001-08-21 | 2008-04-16 | Smithkline Beecham Plc | TRANSGENIC ANIMAL MODELS FOR ALZHEIMER'S DISEASE. |
US20050210540A1 (en) * | 2004-03-19 | 2005-09-22 | Daniela Alberati-Giani | GLYT1 transgenic mouse |
US20060272038A1 (en) * | 2005-05-27 | 2006-11-30 | Michael De Vivo | Transgenic Alzheimer's mouse model vectors and uses thereof |
WO2008134027A1 (en) * | 2007-04-25 | 2008-11-06 | The Trustees Of The University Of Pennsylvania | Cytoplasmic bkca channel intron-containing mrnas contribute to the intrinsic excitability of hippocampal neurons |
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US20170365114A1 (en) * | 2016-06-17 | 2017-12-21 | Rockwood Manufacturing Company | Integrated card reader |
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US7015190B1 (en) | 1996-06-03 | 2006-03-21 | The Trustees Of Columbia University In The City Of New York | Method for enhancing long-term memory in a subject and uses thereof |
US5814500A (en) | 1996-10-31 | 1998-09-29 | The Johns Hopkins University School Of Medicine | Delivery construct for antisense nucleic acids and methods of use |
US6509190B2 (en) | 1997-11-12 | 2003-01-21 | The Trustees Of Columbia University In The City Of New York | DNA regulatory element for the expression of transgenes in neurons of the mouse forebrain |
US20020129385A1 (en) | 1998-08-17 | 2002-09-12 | Isabelle M. Mansuy | Medthods for improving long-term memory storage and retrieval |
EP1107003A1 (en) * | 1999-12-09 | 2001-06-13 | Trophos | Methods for screening compounds active on neurons |
-
1997
- 1997-11-12 US US08/969,137 patent/US6509190B2/en not_active Expired - Lifetime
-
1998
- 1998-11-12 AU AU14037/99A patent/AU1403799A/en not_active Abandoned
- 1998-11-12 WO PCT/US1998/024157 patent/WO1999024457A1/en not_active Application Discontinuation
- 1998-11-12 EP EP98957888A patent/EP1030860A4/en not_active Withdrawn
- 1998-11-12 CA CA002309389A patent/CA2309389A1/en not_active Abandoned
-
2003
- 2003-01-14 US US10/341,999 patent/US7635768B2/en not_active Expired - Fee Related
-
2009
- 2009-12-18 US US12/653,904 patent/US20100257616A1/en not_active Abandoned
-
2012
- 2012-02-29 US US13/409,066 patent/US8822216B2/en not_active Expired - Fee Related
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CHEN J., KELLY P.T.: "RETINOIC ACID STUMULATES ALPHA-GAMKII GENE EXPRESSION IN PC12 CELLSAT A DISTINCT TRANSCRIPTION INITIATION SITE.", JOURNAL OF NEUROSCIENCE, SOCIETY FOR NEUROSCIENCE, US, vol. 16., no. 18., 1 January 1996 (1996-01-01), US, pages 5704 - 5714., XP002916705, ISSN: 0270-6474 * |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7635768B2 (en) | 1997-11-12 | 2009-12-22 | The Trustees Of Columbia University In The City Of New York | Methods and reagents for dendritic localization of polynucleotides |
US8822216B2 (en) | 1997-11-12 | 2014-09-02 | The Trustees Of Columbia University In The City Of New York | DNA regulatory element for the expression of transgenes in neurons of a subject and uses thereof |
WO2000009662A1 (en) * | 1998-08-17 | 2000-02-24 | The Trustees Of Columbia University In The City Of New York | Transgenic nonhuman mammal and uses thereof to identify compounds useful for improving long-term memory |
TWI413690B (en) * | 2010-05-24 | 2013-11-01 | Academia Sinica | Non-human animal model for frontotemporal lobar degeneration with ubiquitin-positive inclusions (ftld-u) |
Also Published As
Publication number | Publication date |
---|---|
US20040009497A1 (en) | 2004-01-15 |
EP1030860A1 (en) | 2000-08-30 |
US20010018207A1 (en) | 2001-08-30 |
US7635768B2 (en) | 2009-12-22 |
US8822216B2 (en) | 2014-09-02 |
US20120294805A1 (en) | 2012-11-22 |
EP1030860A4 (en) | 2002-06-05 |
AU1403799A (en) | 1999-05-31 |
US6509190B2 (en) | 2003-01-21 |
US20100257616A1 (en) | 2010-10-07 |
CA2309389A1 (en) | 1999-05-20 |
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