Age-dependent and -independent behavioral deficits in Tg2576 mice.

The Tg2576 mouse model of excessive cerebral beta-amyloid deposition is now more than a decade old, yet consensus as to its exact characteristics and utility as a model of Alzheimer's disease is still lacking. Four different cohorts of control and Tg2576 mice, aged approximately 3, 9, 13 and 21 months, were therefore subjected to a battery of tests, principally to assess cognitive and species-typical behaviors. A novel test, the paddling Y-maze, demonstrated an age-dependent deficit in 10 and 14, but not 3 month Tg2576 mice, also in aged (21 month) control mice. However, in many other cognitive tests few Tg2576-related deficits could be shown. This frequently seemed attributable to poor performance of control mice. Tests of species-typical behaviors showed that Tg2576 mice had a deficit in burrowing behavior at all ages. An age-independent deficit was also seen in nest construction, but only when mice were group-housed; most individually housed mice in either group made reasonable nests. Overall, the results suggested that these Tg2576 mice are not a simple, suitable or reliable model for routine screening of treatments for Alzheimer's disease. However, this model might perform better behaviorally on a different genetic background.

Transgenic mouse models of Alzheimer's disease.

Alzheimer's disease (AD) pathology is characterized by A beta peptide-containing plaques, neurofibrillary tangles consisting of hyperphosphorylated tau, extensive neuritic degeneration, and distinct neuron loss. We generated several transgenic mouse lines expressing the human amyloid precursor protein (APP751) containing the AD-linked KM670/671NL double mutation (Swedish mutation) under the control of a neuron-specific Thy-1 promoter fragment. In the best APP-expressing line (APP23), compact A beta deposits can be detected at 6 months of age. These plaques dramatically increase with age, are mostly Congo Red positive, and accumulate typical plaque-associated proteins such as heparansulfate proteoglycan and apolipoprotein E. Activated astrocytes and microglia indicative of inflammatory processes reminiscent of AD accumulate around the deposits. Furthermore, plaques are surrounded by enlarged dystrophic neurites as visualized by neurofilament or Holmes-Luxol staining. Strong staining for acetylcholinesterase activity is found throughout the plaques and is accompanied by local distortion of the cholinergic fiber network. All congophilic plaques contain hyperphosphorylated tau reminiscent of early tau pathology. Modern stereologic methods demonstrate a significant loss of neurons in the hippocampal CA1 region, correlating with an increasing A beta plaque load. Interestingly, APP23 mice develop cerebral amyloid angiopathy in addition to amyloid plaques even though the APP transgene is only expressed in neurons. Crossbreeding of APP23 mice with transgenic mice carrying AD-linked presenilin mutations but not wild-type presenilin resulted in enhanced formation of pathology. In conclusion, our APP transgenic mice present many pathologic features, similar to those observed in AD and therefore offer excellent tools for studying the contribution of A beta to AD pathogenesis.

Aged Tg2576 mice are impaired on social memory and open field habituation tests.

In a previous publication [Deacon RMJ, Cholerton LL, Talbot K, Nair-Roberts RG, Sanderson DJ, Romberg C, et al. Age-dependent and -independent behavioral deficits in Tg2576 mice. Behav Brain Res 2008;189:126-38] we found that very few cognitive tests were suitable for demonstrating deficits in Tg2576 mice, an amyloid over-expression model of Alzheimer's disease, even at 23 months of age. However, in a retrospective analysis of a separate project on these mice, tests of social memory and open field habituation revealed large cognitive impairments. Controls showed good open field habituation, but Tg2576 mice were hyperactive and failed to habituate. In the test of social memory for a juvenile mouse, controls showed considerably less social investigation on the second meeting, indicating memory of the juvenile, whereas Tg2576 mice did not show this decrement.As a control for olfactory sensitivity, on which social memory relies, the ability to find a food pellet hidden under wood chip bedding was assessed. Tg2576 mice found the pellet as quickly as controls. As this test requires digging ability, this was independently assessed in tests of burrowing and directly observed digging. In line with previous results and the hippocampal dysfunction characteristic of aged Tg2576 mice, they both burrowed and dug less than controls.

Secretion of soluble pre-B cell receptors by pre-B cells.

Pre-B cells can express secretory mu (mu(s))- as well as membrane mu (mu(m))-chains. We evaluated the ability of mu(s)-chains to associate with surrogate light chains and assemble into a pre-B cell receptor (BCR) complex in pre-B cells, and explored whether mu(s)-chains could be exploited to generate a secreted soluble pre-BCR. We demonstrate that mu(s)-chains can associate with SLC internally. The mu(s)-containing complexes form higher order polymeric structures, but these are never assembled into completed covalent structures. Instead, the complexes are efficiently retained and rapidly degraded. Alteration of the intracellular redox state by incubation with 2-ME resulted in the secretion of mu(s)-chains, suggesting that they are retained by a thiol-mediated retention mechanism. To identify the sequences on mu(s)-chains responsible for their retention, we generated stable transfectants of a mu-negative pre-B cell line expressing either wild-type or mutant mu(s) constructs. Mutation of a single cysteine (Cys575) in the mu(s) tailpiece resulted in the release and secretion of the mu(s) H chains. These were associated with the surrogate light chain proteins lambda5 and VpreB, and thus appear to constitute an authentic secreted soluble pre-BCR. The soluble pre-BCR has a specificity distinct from Ab consisting of the same heavy chain V region paired with conventional light chains.

Roles of heavy and light chains in IgM polymerization.

IgM antibodies are secreted as multisubunit polymers that consist of as many as three discrete polypeptides: mu heavy chains, light (L) chains, and joining (J) chains. We wished to determine whether L chains that are required to confer secretory competence on immunoglobulin molecules must be present for IgM to polymerize--that is, for intersubunit disulfide bonds to form between mu chains. Using a L-chain-loss variant of an IgM-secreting hybridoma, we demonstrated that mu chains were efficiently polymerized independent of L chains, in a manner similar to that observed for conventional microL complexes, and that the mu polymers incorporated J chain. These mu polymers were not secreted but remained associated with the endoplasmic reticulum-resident chaperone BiP (GRP78). This finding is consistent with the endoplasmic reticulum being the subcellular site of IgM polymerization. We conclude that mu chain alone has the potential to direct the polymerization of secreted IgM, a process necessary but not sufficient for IgM to attain secretory competence.

Abeta-induced inflammatory processes in microglia cells of APP23 transgenic mice.

A microglial response is part of the inflammatory processes in Alzheimer's disease (AD). We have used APP23 transgenic mice overexpressing human amyloid precursor protein with the Swedish mutation to characterize this microglia response to amyloid deposits in aged mice. Analyses with MAC-1 and F4/80 antibodies as well as in vivo labeling with bromodeoxyuridine demonstrate that microglia in the plaque vicinity are in an activated state and that proliferation contributes to their accumulation at the plaque periphery. The amyloid-induced microglia activation may be mediated by scavenger receptor A, which is generally elevated, whereas the increased immunostaining of the receptor for advanced glycation end products is more restricted. Although components of the phagocytic machinery such as macrosialin and Fc receptors are increased in activated microglia, efficient clearance of amyloid is missing seemingly because of the lack of amyloid-bound autoantibodies. Similarly, although up-regulation of major histocompatibility complex class II (IA) points toward an intact antigen-presenting function of microglia, lack of T and B lymphocytes does not indicate a cell-mediated immune response in the brains of APP23 mice. The similar characteristics of microglia in the APP23 mice and in AD render the mouse model suitable to study the role of inflammatory processes during AD pathogenesis.