Jessica A. Burket scite author profile

Overactivation of the mammalian target of rapamycin (mTOR) has been implicated in the pathogenesis of syndromic forms of autism spectrum disorders (ASDs), such as tuberous sclerosis complex, neurofibromatosis 1, and fragile X syndrome. Administration of mTORC1 (mTOR complex 1) inhibitors (e.g. rapamycin) in syndromic mouse models of ASDs improved behavior, cognition, and neuropathology. However, since only a minority of ASDs are due to the effects of single genes (~10%), there is a need to explore inhibition of mTOR activity in mouse models that may be more relevant to the majority of nonsyndromic presentations, such as the genetically inbred BTBR T+Itpr3tf/J (BTBR) mouse model of ASDs. BTBR mice have social impairment and exhibit increased stereotypic behavior. In prior work, d-cycloserine, a partial glycineB site agonist that targets the N-methyl-d-aspartate (NMDA) receptor, was shown to improve sociability in both Balb/c and BTBR mouse models of ASDs. Importantly, NMDA receptor activation regulates mTOR signaling activity. The current study investigated the ability of rapamycin (10 mg/kg, i.p. × four days), an mTORC1 inhibitor, to improve sociability and stereotypic behavior in BTBR mice. Using a standard paradigm to assess mouse social behavior, rapamycin improved several measures of sociability in the BTBR mouse, suggesting that mTOR overactivation represents a therapeutic target that mediates or contributes to impaired sociability in the BTBR mouse model of ASDs. Interestingly, there was no effect of rapamycin on stereotypic behaviors in this mouse model.

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NMDA receptors on the surface of cancer cells: Target for chemotherapy?

Deutsch

Tang

Burket

et al. 2014

Biomedicine & Pharmacotherapy

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The mammalian target of rapamycin (mTOR), a serine/threonine kinase, is a therapeutic target for many types of cancers. NMDA receptors regulate mTOR signalling activity; their inappropriate expression on several human cancer cell lines represents a potential therapeutic avenue to control dysregulated growth, division and invasiveness. Targeting these receptors with selective ligands (e.g., glycineB site ligands) may be a less toxic and more tolerable approach than administering compounds acting at the mTORC1 complex itself, such as rapamycin and its derivatives. Thus, testing glycineB site ligands in relevant in vitro and in vivo paradigms with established human cancer cells that express NMDA receptors on their surface could provide proofs of concept/principle that would encourage exploration of these and other “non-toxic” strategies. Interestingly, in some cancer models that express NMDA receptors on their surface, NMDA receptor antagonists, such as MK-801 (dizocilpine), were shown to possess anti-proliferative and anti-invasive effects, which conflict with hypotheses about promoting NMDA receptor activation as a cancer chemotherapeutic strategy. Whether NMDA receptor activation or antagonism is associated with anti-proliferative and anti-invasive effects may reflect differences between cancer cell lines in terms of the proteins associated with the NMDA receptors on their cell surfaces, which, in turn, could lead to different “downstream” effects on cascades of intracellular phosphorylations. Irrespective of whether activation or antagonism is associated with anti-proliferative and anti-invasive effects for specific types of cancer, data are emerging that support exploration of targeting NMDA receptors expressed on the surface of cancer cells as a therapeutic strategy.

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d-Cycloserine improves the impaired sociability of the Balb/c mouse

Deutsch

Burket

Jacome

et al. 2011

Brain Research Bulletin

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d-Cycloserine improves sociability in the BTBR T+ Itpr3tf/J mouse model of autism spectrum disorders with altered Ras/Raf/ERK1/2 signaling

Burket¹,

Benson²,

Tang³

et al. 2013

Brain Research Bulletin

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The genetically inbred BTBR T+ Itpr3tf/J (BTBR) mouse is a proposed model of autism spectrum disorders (ASDs). Similar to several syndromic forms of ASDs, mTOR activity may be enhanced in this mouse strain as a result of increased Ras signaling. Recently, d-cycloserine, a partial glycineB site agonist that targets the NMDA receptor, was shown to improve the sociability of the Balb/c mouse strain, another proposed genetically inbred model of ASDs. NMDA receptor activation is an important regulator of mTOR signaling activity. Given the ability of d-cycloserine to improve the sociability of the Balb/c mouse strain and the regulatory role of the NMDA receptor in mTOR signaling, we wondered if d-cycloserine would improve the impaired sociability of the BTBR mouse strain. d-Cycloserine (320 mg/kg, ip) improved measures of sociability in a standard sociability paradigm and spontaneous grooming that emerged during social interaction with an ICR stimulus mouse in the BTBR strain; however, similar effects were observed in the Swiss Webster comparator strain, raising questions about their strain-selectivity. Importantly, the profile of d-cycloserine's effects on both measures of sociability and stereotypies is consistent with that of a desired medication for ASDs; specifically, a desired medication would not improve sociability at the expense of worsening stereotypic behaviors or vice versa.

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d-cycloserine improves sociability and spontaneous stereotypic behaviors in 4-week old mice

et al. 2012

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Jessica A. Burket

Rapamycin improves sociability in the BTBR T+Itpr3/J mouse model of autism spectrum disorders

NMDA receptors on the surface of cancer cells: Target for chemotherapy?

d-Cycloserine improves the impaired sociability of the Balb/c mouse

d-Cycloserine improves sociability in the BTBR T+ Itpr3tf/J mouse model of autism spectrum disorders with altered Ras/Raf/ERK1/2 signaling

d-cycloserine improves sociability and spontaneous stereotypic behaviors in 4-week old mice

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