ABSTRACT Nerve growth factor (NGF) provides critical trophic support to the cholinergic basal for... more ABSTRACT Nerve growth factor (NGF) provides critical trophic support to the cholinergic basal forebrain neurons that express high levels of the low-affinity NGF receptor (p75NGFR) in the adult rat brain. Intraventricular injection of 192 IgG-saporin, made by coupling the monoclonal antibody to p75NGFR 192 IgG to the cytotoxin saporin, selectively destroys the p75NGFR-bearing neurons in the basal forebrain and was used here to examine the effects of selective cholinergic lesions on brain NGF protein levels. We showed that 192 IgG-saporin produced significant long-lasting elevation of NGF protein levels in the hippocampus, cortex, and olfactory bulb, with profound reductions of ChAT activities representing complete cholinergic deafferentations of these areas. NGF level was maintained in the basal forebrain, even though there was almost complete loss of p75NGFR-immunoreactive cells and significant decrease of ChAT activity. In addition, a mild glial response was observed in the basal forebrain, and most of the activated astroglia expressed NGF-like immunoreactivity there. The increases in NGF protein levels in the target areas of the basal forebrain were most likely due to loss of cholinergic basal forebrain neurons and retrograde transport of NGF from these areas. Glial-derived NGF is partially responsible for the maintained level of NGF in the basal forebrain after the loss of cholinergic neurons. The accumulation of NGF protein in the target areas may have some effects on synaptic rearrangement in denervated tissues.
To characterize the specificity of a novel cholinergic immunotoxin (conjugate of the monoclonal a... more To characterize the specificity of a novel cholinergic immunotoxin (conjugate of the monoclonal antibody 192IgG against the low-affinity nerve growth factor receptor with the cytotoxic protein saporin), coronal sections through the basal forebrain of adult rats, that received a single intracerebro-ventricular injection of 4 micrograms of 192IgG-saporin conjugate, were subjected to histochemical and immunocytochemical procedures to evaluate cholinergic (choline acetyltransferase (ChAT)-immunoreactive, acetylcholinesterase-positive, NADPH-diaphorase-positive) and GABAergic structures (parvalbumin-immunoreactive, labeling of perineuronal nets with Wisteria floribunda agglutinin) as well as microglia (visualized with Griffonia simplicifolia agglutinin) and astrocytes (immunostaining for glial fibrillary acidic protein). Seven days following injection of the immunotoxin, ChAT-immunoreactive cells nearly completely disappeared throughout the magnocellular basal forebrain complex, including globus pallidus, as compared to vehicle-injected controls. However, there was no significant difference in the number of ChAT-positive cells in the adjacent ventral pallidum and in the caudate-putamen of immunolesioned and control animals. NADPH-diaphorase-containing cells, including a significant subpopulation of cholinergic cells, also strikingly decreased in number by more than 90% in the magnocellular basal forebrain complex following immunolesion, and only a few noncholinergic diaphorase-positive cells survived in the medial septum, vertical and horizontal diagonal band, and nucleus basalis of Meynert. In contrast, the number of parvalbumin-containing GABAergic projection neurons in the septum-diagonal band of Broca complex and nucleus basalis of Meynert from immunolesioned rats was not different from that of vehicle-injected control animals. Immunolesioning also did not result in any change in either number or shape of cells surrounded by perineuronal nets, which are frequently associated with parvalbumin-containing GABAergic neurons. Seven days following injection of the immunotoxin, a very strong activation of microglia with an identical distribution pattern was observed in all experimental animals. Large numbers of activated microglia were found in all magnocellular basal forebrain nuclei, corresponding to the distribution of degenerating cholinergic cells. Additionally, immunolesioning also resulted in a dramatic activation of microglia in the lateral septal nuclei, which are known to be almost free of cholinergic cells, but not of penetrating cholinergic dendrites in adjacent zones, and in the ventral pallidum, where there was no observed loss of cholinergic cells. There was no significant increase in microglia activation in striatum and cortical areas, and no astrocytic response in any of the basal forebrain nuclei at this particular time point of survival. These results suggest that 192IgG-saporin specifically destroys basal forebrain cholinergic neurons and does not suppress their neuronal activity.(ABSTRACT TRUNCATED AT 400 WORDS)
Neuropathic arthropathy is a severe chronic degenerative condition associated with decreased or a... more Neuropathic arthropathy is a severe chronic degenerative condition associated with decreased or absent sensory innervation of the involved joint. Existing animal models of neuropathic arthritis are limited by the technical difficulties of obtaining either highly selective or complete joint denervation in a minimally invasive fashion. We undertook experiments to determine the feasibility of using the newly described method of selective neuronal lesioning with injected immunotoxin as a means of creating a more tractable model of neuropathic arthritis. Retrograde tracing with fluorochrome revealed that the knee joint of the female Wistar rat is supplied by 581 +/- 31 (mean +/- SD) joint afferents. Immunohistochemistry confirmed that virtually all sensory neurons in the rat express the cell surface receptor Thy 1. Injection of rat knee joints with an immunotoxin targeted toward Thy 1 resulted in the selective ablation of an average of 88% of the joint afferents identified with fluorochrome that are normally found in the ipsilateral L3 and L4 ganglia.
Thy-1 is an abundant surface glycoprotein of rat neurons. OX7 is a monoclonal antibody with high ... more Thy-1 is an abundant surface glycoprotein of rat neurons. OX7 is a monoclonal antibody with high affinity for Thy-1. This study sought to determine if intraventricularly administered OX7 could serve as a carrier to deliver cytotoxin to neurons, thus destroying those neurons. Saporin (Sap), a ribosome-inactivating protein was disulfide-coupled to OX7 (OX7-Sap). OX7-Sap, OX7, saporin alone, pooled non-immune mouse IgG, and an irrelevant immunotoxin, RFT-1-Sap, were injected into the lateral ventricles of anesthetized adult rats. Animals were observed for 1-8 days. OX7-Sap-injected animals developed coarse head tremor and gait/truncal ataxia in a dose-dependent manner beginning 24 h or more after injection. All control animals remained healthy. After OX7 or OX7-Sap injection, immunoperoxidase staining for mouse IgG was most intense and specific in the molecular and Purkinje cell layers of the cerebellar cortex. Cresyl violet staining demonstrated destruction of the Purkinje cell layer in the OX7-Sap-treated animals but not in controls. These results indicate that intraventricular injections of OX7 can be used to deliver biologically active moieties to the Purkinje cells. This approach may prove useful in analysis of Purkinje cell function and as a model of cerebellar degeneration.
Methods in molecular biology (Clifton, N.J.), 2001
ABSTRACT Selective destruction of neurons based on the use of targeted toxins has proven successf... more ABSTRACT Selective destruction of neurons based on the use of targeted toxins has proven successful for several types of neurons (1). This chapter will describe the use of an immunotoxin to selectively destroy rat neurons that express the low-affinity neurotrophin receptor (p75NTR) (2). This immunotoxin consists of a monoclonal antibody disulfide coupled to a ribosome inactivating protein. The most extensively used and studied version uses the antibody 192 IgG originally developed as an antibody to a rat NGF-binding protein (3). 192 IgG has been extensively used to study rat p75NTR. Results of these studies have demonstrated p75NTR expression on a variety of neurotrophin-responsive cells, including sympathetic ganglion neurons, some primary sensory neurons, and cholinergic neurons of the basal forebrain. p75NTR also is expressed on cells not known to be responsive to neurotrophins, such as cerebellar Purkinje neurons and numerous other tissues during development (4). Thus, producing selective lesions using 192 IgG also requires restricting application of the immunotoxin to the region of the target cells.
Intracerebroventricular injection of 192 IgG antibody against the p75LNGFR rat low affinity nerve... more Intracerebroventricular injection of 192 IgG antibody against the p75LNGFR rat low affinity nerve growth factor receptor conjugated with saporin, a ribosome inactivating protein, has been shown to destroy the p75LNGFR-expressing cholinergic neurons of the basal forebrain. We injected this immunotoxin into the hippocampus and studied its retrograde effect upon the cholinergic neurons of the medial septum and the vertical limb of the diagonal band of Broca. Seven days after injection, there was a nearly total depletion of cholinergic axons within the hippocampus. This depletion was associated with a marked and significant decrease in the number of cholinergic neurons of the ipsilateral medial septum and the vertical limb of the diagonal band of Broca. At longer survival times, these changes were more pronounced. Parvalbumin-positive, GABAergic neurons within the same areas of the basal forebrain were not affected by immunotoxin injections. Injections of saporin alone had no effect upo...
1. The ability to target specific neurons can be used to produce selective neural lesions and pot... more 1. The ability to target specific neurons can be used to produce selective neural lesions and potentially to deliver therapeutically useful moieties for treatment of disease. In the present study, we sought to determine if a monoclonal antibody to the dopamine transporter (anti-DAT) could be used to target midbrain dopaminergic neurons. 2. The monoclonal antibody recognizes the second, large extracellular loop of DAT. The antibody was conjugated to the "ribosome-inactivating protein"; saporin, and stereotactically pressure microinjected into either the center of the striatum or the left lateral ventricle of adult, male Sprague-Dawley rats. 3. Local intrastriatal injections produced destruction of dopaminergic neurons in the ipsilateral substantia nigra consistent with suicide transport of the immunotoxin. Intraventricular injections (i.c.v.) produced significant loss of dopaminergic neurons in the substantia nigra and ventral tegmental area bilaterally without evident dama...
Destruction of neurons in the superficial dorsal horn that express substance P receptor (NK-1R) h... more Destruction of neurons in the superficial dorsal horn that express substance P receptor (NK-1R) has been reported to block development of behavioral hypersensitivity following peripheral sensitization of nociceptors. Baseline sensitivity was not altered in these rat models that assessed innate reflex responses (i.e. hind-paw withdrawal to thermal or mechanical stimulation). In the present study, we evaluated effects of intrathecal substance P-saporin (SP-sap), a toxin selective for cells expressing NK-1R, on operant escape responses of rats to thermal stimulation. For comparison, lick/guard reflex testing was performed. Injection of a modest dose (175 ng) of SP-sap into the lumbar subarachnoid space produced a partial loss of lamina I/II NK-1R-expressing dorsal horn neurons but did not affect NK-1R-expressing neurons in deeper laminae. Lick/guard responses to 0.3, 44 or 47 degrees C were not affected after SP-sap treatment, but escape responses to these temperatures were significant...
ABSTRACT Nerve growth factor (NGF) provides critical trophic support to the cholinergic basal for... more ABSTRACT Nerve growth factor (NGF) provides critical trophic support to the cholinergic basal forebrain neurons that express high levels of the low-affinity NGF receptor (p75NGFR) in the adult rat brain. Intraventricular injection of 192 IgG-saporin, made by coupling the monoclonal antibody to p75NGFR 192 IgG to the cytotoxin saporin, selectively destroys the p75NGFR-bearing neurons in the basal forebrain and was used here to examine the effects of selective cholinergic lesions on brain NGF protein levels. We showed that 192 IgG-saporin produced significant long-lasting elevation of NGF protein levels in the hippocampus, cortex, and olfactory bulb, with profound reductions of ChAT activities representing complete cholinergic deafferentations of these areas. NGF level was maintained in the basal forebrain, even though there was almost complete loss of p75NGFR-immunoreactive cells and significant decrease of ChAT activity. In addition, a mild glial response was observed in the basal forebrain, and most of the activated astroglia expressed NGF-like immunoreactivity there. The increases in NGF protein levels in the target areas of the basal forebrain were most likely due to loss of cholinergic basal forebrain neurons and retrograde transport of NGF from these areas. Glial-derived NGF is partially responsible for the maintained level of NGF in the basal forebrain after the loss of cholinergic neurons. The accumulation of NGF protein in the target areas may have some effects on synaptic rearrangement in denervated tissues.
To characterize the specificity of a novel cholinergic immunotoxin (conjugate of the monoclonal a... more To characterize the specificity of a novel cholinergic immunotoxin (conjugate of the monoclonal antibody 192IgG against the low-affinity nerve growth factor receptor with the cytotoxic protein saporin), coronal sections through the basal forebrain of adult rats, that received a single intracerebro-ventricular injection of 4 micrograms of 192IgG-saporin conjugate, were subjected to histochemical and immunocytochemical procedures to evaluate cholinergic (choline acetyltransferase (ChAT)-immunoreactive, acetylcholinesterase-positive, NADPH-diaphorase-positive) and GABAergic structures (parvalbumin-immunoreactive, labeling of perineuronal nets with Wisteria floribunda agglutinin) as well as microglia (visualized with Griffonia simplicifolia agglutinin) and astrocytes (immunostaining for glial fibrillary acidic protein). Seven days following injection of the immunotoxin, ChAT-immunoreactive cells nearly completely disappeared throughout the magnocellular basal forebrain complex, including globus pallidus, as compared to vehicle-injected controls. However, there was no significant difference in the number of ChAT-positive cells in the adjacent ventral pallidum and in the caudate-putamen of immunolesioned and control animals. NADPH-diaphorase-containing cells, including a significant subpopulation of cholinergic cells, also strikingly decreased in number by more than 90% in the magnocellular basal forebrain complex following immunolesion, and only a few noncholinergic diaphorase-positive cells survived in the medial septum, vertical and horizontal diagonal band, and nucleus basalis of Meynert. In contrast, the number of parvalbumin-containing GABAergic projection neurons in the septum-diagonal band of Broca complex and nucleus basalis of Meynert from immunolesioned rats was not different from that of vehicle-injected control animals. Immunolesioning also did not result in any change in either number or shape of cells surrounded by perineuronal nets, which are frequently associated with parvalbumin-containing GABAergic neurons. Seven days following injection of the immunotoxin, a very strong activation of microglia with an identical distribution pattern was observed in all experimental animals. Large numbers of activated microglia were found in all magnocellular basal forebrain nuclei, corresponding to the distribution of degenerating cholinergic cells. Additionally, immunolesioning also resulted in a dramatic activation of microglia in the lateral septal nuclei, which are known to be almost free of cholinergic cells, but not of penetrating cholinergic dendrites in adjacent zones, and in the ventral pallidum, where there was no observed loss of cholinergic cells. There was no significant increase in microglia activation in striatum and cortical areas, and no astrocytic response in any of the basal forebrain nuclei at this particular time point of survival. These results suggest that 192IgG-saporin specifically destroys basal forebrain cholinergic neurons and does not suppress their neuronal activity.(ABSTRACT TRUNCATED AT 400 WORDS)
Neuropathic arthropathy is a severe chronic degenerative condition associated with decreased or a... more Neuropathic arthropathy is a severe chronic degenerative condition associated with decreased or absent sensory innervation of the involved joint. Existing animal models of neuropathic arthritis are limited by the technical difficulties of obtaining either highly selective or complete joint denervation in a minimally invasive fashion. We undertook experiments to determine the feasibility of using the newly described method of selective neuronal lesioning with injected immunotoxin as a means of creating a more tractable model of neuropathic arthritis. Retrograde tracing with fluorochrome revealed that the knee joint of the female Wistar rat is supplied by 581 +/- 31 (mean +/- SD) joint afferents. Immunohistochemistry confirmed that virtually all sensory neurons in the rat express the cell surface receptor Thy 1. Injection of rat knee joints with an immunotoxin targeted toward Thy 1 resulted in the selective ablation of an average of 88% of the joint afferents identified with fluorochrome that are normally found in the ipsilateral L3 and L4 ganglia.
Thy-1 is an abundant surface glycoprotein of rat neurons. OX7 is a monoclonal antibody with high ... more Thy-1 is an abundant surface glycoprotein of rat neurons. OX7 is a monoclonal antibody with high affinity for Thy-1. This study sought to determine if intraventricularly administered OX7 could serve as a carrier to deliver cytotoxin to neurons, thus destroying those neurons. Saporin (Sap), a ribosome-inactivating protein was disulfide-coupled to OX7 (OX7-Sap). OX7-Sap, OX7, saporin alone, pooled non-immune mouse IgG, and an irrelevant immunotoxin, RFT-1-Sap, were injected into the lateral ventricles of anesthetized adult rats. Animals were observed for 1-8 days. OX7-Sap-injected animals developed coarse head tremor and gait/truncal ataxia in a dose-dependent manner beginning 24 h or more after injection. All control animals remained healthy. After OX7 or OX7-Sap injection, immunoperoxidase staining for mouse IgG was most intense and specific in the molecular and Purkinje cell layers of the cerebellar cortex. Cresyl violet staining demonstrated destruction of the Purkinje cell layer in the OX7-Sap-treated animals but not in controls. These results indicate that intraventricular injections of OX7 can be used to deliver biologically active moieties to the Purkinje cells. This approach may prove useful in analysis of Purkinje cell function and as a model of cerebellar degeneration.
Methods in molecular biology (Clifton, N.J.), 2001
ABSTRACT Selective destruction of neurons based on the use of targeted toxins has proven successf... more ABSTRACT Selective destruction of neurons based on the use of targeted toxins has proven successful for several types of neurons (1). This chapter will describe the use of an immunotoxin to selectively destroy rat neurons that express the low-affinity neurotrophin receptor (p75NTR) (2). This immunotoxin consists of a monoclonal antibody disulfide coupled to a ribosome inactivating protein. The most extensively used and studied version uses the antibody 192 IgG originally developed as an antibody to a rat NGF-binding protein (3). 192 IgG has been extensively used to study rat p75NTR. Results of these studies have demonstrated p75NTR expression on a variety of neurotrophin-responsive cells, including sympathetic ganglion neurons, some primary sensory neurons, and cholinergic neurons of the basal forebrain. p75NTR also is expressed on cells not known to be responsive to neurotrophins, such as cerebellar Purkinje neurons and numerous other tissues during development (4). Thus, producing selective lesions using 192 IgG also requires restricting application of the immunotoxin to the region of the target cells.
Intracerebroventricular injection of 192 IgG antibody against the p75LNGFR rat low affinity nerve... more Intracerebroventricular injection of 192 IgG antibody against the p75LNGFR rat low affinity nerve growth factor receptor conjugated with saporin, a ribosome inactivating protein, has been shown to destroy the p75LNGFR-expressing cholinergic neurons of the basal forebrain. We injected this immunotoxin into the hippocampus and studied its retrograde effect upon the cholinergic neurons of the medial septum and the vertical limb of the diagonal band of Broca. Seven days after injection, there was a nearly total depletion of cholinergic axons within the hippocampus. This depletion was associated with a marked and significant decrease in the number of cholinergic neurons of the ipsilateral medial septum and the vertical limb of the diagonal band of Broca. At longer survival times, these changes were more pronounced. Parvalbumin-positive, GABAergic neurons within the same areas of the basal forebrain were not affected by immunotoxin injections. Injections of saporin alone had no effect upo...
1. The ability to target specific neurons can be used to produce selective neural lesions and pot... more 1. The ability to target specific neurons can be used to produce selective neural lesions and potentially to deliver therapeutically useful moieties for treatment of disease. In the present study, we sought to determine if a monoclonal antibody to the dopamine transporter (anti-DAT) could be used to target midbrain dopaminergic neurons. 2. The monoclonal antibody recognizes the second, large extracellular loop of DAT. The antibody was conjugated to the "ribosome-inactivating protein"; saporin, and stereotactically pressure microinjected into either the center of the striatum or the left lateral ventricle of adult, male Sprague-Dawley rats. 3. Local intrastriatal injections produced destruction of dopaminergic neurons in the ipsilateral substantia nigra consistent with suicide transport of the immunotoxin. Intraventricular injections (i.c.v.) produced significant loss of dopaminergic neurons in the substantia nigra and ventral tegmental area bilaterally without evident dama...
Destruction of neurons in the superficial dorsal horn that express substance P receptor (NK-1R) h... more Destruction of neurons in the superficial dorsal horn that express substance P receptor (NK-1R) has been reported to block development of behavioral hypersensitivity following peripheral sensitization of nociceptors. Baseline sensitivity was not altered in these rat models that assessed innate reflex responses (i.e. hind-paw withdrawal to thermal or mechanical stimulation). In the present study, we evaluated effects of intrathecal substance P-saporin (SP-sap), a toxin selective for cells expressing NK-1R, on operant escape responses of rats to thermal stimulation. For comparison, lick/guard reflex testing was performed. Injection of a modest dose (175 ng) of SP-sap into the lumbar subarachnoid space produced a partial loss of lamina I/II NK-1R-expressing dorsal horn neurons but did not affect NK-1R-expressing neurons in deeper laminae. Lick/guard responses to 0.3, 44 or 47 degrees C were not affected after SP-sap treatment, but escape responses to these temperatures were significant...
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