Transgenic mice for the amyloid precursor protein 695 isoform have impaired spatial memory.

Transgenic mice for the human amyloid precursor protein 695 (APP695) isoform may provide an animal model of Alzheimer's disease (AD). To evaluate this, the spatial learning abilities of transgenic and wild strain mice were compared in the Morris water maze task. The transgenic mice were significantly retarded in initial learning and in learning a new escape location, although in each case they eventually reached control levels. The transgenic mice also showed slower swimming speed and reduced nocturnal activity, which may contribute to their deficit in spatial learning. Preliminary neuropathological investigations failed to reveal amyloid depositions. Thus, a gene dosage effect of APP695 may account for the memory impairment but not the plaque formation associated with AD.

Alzheimer's disease amyloidogenic glycoprotein: expression pattern in rat brain suggests a role in cell contact.

The cloned cDNA encoding the rat cognate of the human A4 amyloid precursor protein was isolated from a rat brain library. The predicted primary structure of the 695-amino acid-long protein displays 97% identity to its human homologue shown previously to resemble an integral membrane protein. The protein was detected in rodent brain and muscle by Western blot analysis. Using in situ hybridization and immunocytochemistry on rat brain sections, we discovered that rat amyloidogenic glycoprotein (rAG) and its mRNA are ubiquitously and abundantly expressed in neurons indicating a neuronal original for the amyloid deposits observed in humans with Alzheimer's disease (AD). The protein appears in patches on or near the plasma membranes of neurons suggesting a role for this protein in cell contact. Highest expression was seen in rat brain regions where amyloid is deposited in AD but also in areas which do not contain deposits in AD. Since amyloid deposits are rarely observed in rat brain, we conclude that high expression of AG is not the sole cause of amyloidosis.