Natalia Shiryaev scite author profile

Activity-dependent neuroprotective protein (ADNP) is essential for brain formation and partial deficiency in ADNP results in cognitive deficits coupled with tauopathy and neuronal cell death. Our previous results indicated that a peptide snippet from ADNP, NAPVSIPQ (NAP, generic name, davunetide) can restore in part ADNP deficiencies. NAP interacts with tubulin and this interaction is displaced by the NAP related peptide that is derived from activity-dependent neurotrophic factor (ADNF), SALLRSIPA (SAL) and its all D-amino acid peptide derivative (D-SAL, also known as AL-309). Both NAP and D-SAL were shown to protect neurons against amyloid beta toxicity however the mechanism of protection is still under investigation. In addition, NAP protects against tau hyperphosphorylation associated with ADNP deficiency, in vivo. To investigate whether the mechanism of in vitro neuroprotection relates to the in vivo protection against tauopathy and to draw potential additional parallelism between NAP and D-SAL, we asked if: 1]NAP and D-SAL protect against amyloid beta related tau hyperphosphorylation in vitro; and 2] D-SAL protects against haploinsufficiency in ADNP, inhibiting tauopathy in vivo. Assessment of NAP and D-SAL neuroprotection in primary cortical neuro-glial cultures treated with amyloid beta showed that both peptides reduced toxin-related neuronal damage and protected against tau hyperphosphorylation. In vivo, chronic D-SAL administration protected against tau hyperphosphorylation associated with ADNP deficiency (ADNP+/- mice), showing for the first time protection against deficits in odor discrimination and in social recognition. These studies associate neuroprotection in vivo and in vitro and provide a broad base for future drug development based on NAP and D-SAL against multiple neurodegenerative conditions.

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3R tau expression modifies behavior in transgenic mice

Shiryaev

Jouroukhin

Gozes

2010

J of Neuroscience Research

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Tauopathy is a group of disorders characterized by the accumulation of hyperphosphorylated tau protein in the brain, resulting in dementia. Here, tau-related behavior was evaluated in a mouse model with brain overexpression of the shortest human tau isoform (0N3R). Two groups of animals [tau-transgenic (tau-tg) and control littermates] were tested for learning and memory at 1 and 7 months. In the Morris water maze, all mice learned the task at 1 month of age and did not learn at 7 months. In contrast, at 7 months, the tau-tg animals demonstrated better retention of the passive avoidance response compared with their control littermates, which did not learn. In the open field test, no differences were measured between transgenic and nontransgenic young mice, but significantly higher locomotion was observed in the 7-month-old tau-tg mice compared with controls. Behavior during the elevated plus maze test was the same at 1 month, but at 7 months increased entrance to the different arms was observed in the tau-tg group. Tau expression and phosphorylation levels were analyzed at 8 months. In the subcortical brain region associated with passive avoidance behavior, the tau-tg mice demonstrated increased brain tau expression coupled with reduced relative phosphorylation. In contrast, increased tau expression and phosphorylation were measured in the cerebral cortex of the tau-tg mice. In conclusion, 7-8-month-old tau-tg mice overexpressing nonmutated 0N3R human tau isoform demonstrated enhanced behavior in the passive avoidance test, paralleled by relative tau hypophosphorylation in the subcortical brain region.

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S4–04–03: Protecting the brain by nasal peptide delivery: From concept to the clinic

Gozes

Shiryaev

Jouroukhim

et al. 2006

Alzheimer's & Dementia

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Protecting against the outcome of taupathy: NAP – from concept to the clinic

et al. 2006

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