Farnaz Hadaegh scite author profile

Farnaz Hadaegh

3Publications

24Citation Statements Received

22Citation Statements Given

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Massachusetts General Hospital, Harvard University

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The rostromedial tegmental nucleus: a key modulator of pain and opioid analgesia

Taylor

Long

Pei

et al. 2019

Pain

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A recently defined structure, the rostromedial tegmental nucleus (RMTg; aka tail of the ventral tegmental area [VTA]), has been proposed as an inhibitory control center for dopaminergic activity of the VTA. This region is composed of GABAergic cells that send afferent projections to the ventral midbrain and synapse onto dopaminergic cells in the VTA and substantia nigra. These cells exhibit µ-opioid receptor immunoreactivity, and in vivo, ex vivo, and optogenetic/electrophysiological approaches demonstrate that morphine excites dopamine neurons by targeting receptors on GABAergic neurons localized in the RMTg. This suggests that the RMTg may be a key modulator of opioid effects and a major brake regulating VTA dopamine systems. However, no study has directly manipulated RMTg GABAergic neurons in vivo and assessed the effect on nociception or opioid analgesia. In this study, multiplexing of GABAergic neurons in the RMTg was achieved using stimulatory Designer Receptors Exclusively Activated by Designer Drugs (DREADDs) and inhibitory kappa-opioid receptor DREADDs (KORD). Our data show that locally infused RMTg morphine or selective RMTg GABAergic neuron inhibition produces 87% of the maximal antinociceptive effect of systemic morphine, and RMTg GABAergic neurons modulate dopamine release in the nucleus accumbens. In addition, chemoactivation of VTA dopamine neurons significantly reduced pain behaviors both in resting and facilitated pain states and reduced by 75% the dose of systemic morphine required to produce maximal antinociception. These results provide compelling evidence that RMTg GABAergic neurons are involved in processing of nociceptive information and are important mediators of opioid analgesia.

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Developing myelin specific promoters for schwannoma gene therapy

Ahmed

Hadaegh

Brenner

2019

Journal of Neuroscience Methods

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Background: Schwannomas are peripheral nerve sheath tumors composed entirely of Schwannlineage cells that cause pain and sensory-motor dysfunction through compression of peripheral nerves, the spinal cord, and/or the brain stem. Treatment of schwannoma is largely limited to resection which itself has limited value. The goal of this study is to establish a technique to identify the most efficient and tissue-specific promoter for use in a schwannoma gene therapy construct. New Method: This work involves transfection of schwannoma cells with adeno-associated viral vector plasmids expressing GFP under different myelin cell specific promoters. The transfected cells were evaluated for green fluorescence intensity in vitro, and in vivo after implantation into sciatic nerves of nude mice. Results: Our data demonstrate that myelin protein zero (MPZ, P0) and peripheral myelin protein 22 (PMP22) promoters produce greater GFP expression in schwannoma cell lines than myelin basic protein (MBP) promoter. In vitro, P0 promoter activity in schwannoma cell lines was shown to be less active than the cytomegalovirus and chicken β-actin (CBA) promoter. However, we did not observe any significant difference between the activity of the CBA and P0 promoters in a xenograft schwannoma model. Comparison with Existing Method(s): We show here the influence of the peripheral nerve microenvironment on promoter efficacy in expressing transgenes using simple transfection by lipofection followed by prompt implantation of the transfected cells into the sciatic nerve of nude mice. Conclusions: We demonstrate that of the myelin specific promoters evaluated, P0 is optimal for driving expression of transgenes in schwannoma cells.

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635. Mechanisms of Caspase-1 Mediated Schwannoma Regression

et al. 2015

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CanCer -TargeTed gene and Cell Therapy II a one-step subcutaneous hepatocyte transplantation procedure without a pre-transplant vascularization step such as implanting a FGF-releasing device. The transplanted EHFSs were laminated and formed a vascularized subcutaneous human liver tissues (VSLTs). The VSLTs had liver-specific features such as glycogen stores and albumin, A1AT, and coagulation factor IX syntheses. The aggregated hepatocytes formed several linear structures. Furthermore, subacute hepatic failure model mice (TK-NOG mice) with VSLT were alive at least 7 weeks after liver damage.The present study describes a new approach for vascularized human liver organogenesis under mouse skin. This approach could prove valuable for establishing novel minimally invasive cell therapies for liver diseases.

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Farnaz Hadaegh

The rostromedial tegmental nucleus: a key modulator of pain and opioid analgesia

Developing myelin specific promoters for schwannoma gene therapy

635. Mechanisms of Caspase-1 Mediated Schwannoma Regression

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