Peyman Sahbaie scite author profile

A combination of targeted probes and new imaging technologies provides a powerful set of tools with the potential to improve the early detection of cancer. To develop a probe for detecting colon cancer, we screened phage display peptide libraries against fresh human colonic adenomas for high-affinity ligands with preferential binding to premalignant tissue. We identified a specific heptapeptide sequence, VRPMPLQ, which we synthesized, conjugated with fluorescein and tested in patients undergoing colonoscopy. We imaged topically administered peptide using a fluorescence confocal microendoscope delivered through the instrument channel of a standard colonoscope. In vivo images were acquired at 12 frames per second with 50-microm working distance and 2.5-microm (transverse) and 20-microm (axial) resolution. The fluorescein-conjugated peptide bound more strongly to dysplastic colonocytes than to adjacent normal cells with 81% sensitivity and 82% specificity. This methodology represents a promising diagnostic imaging approach for the early detection of colorectal cancer and potentially of other epithelial malignancies.

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Gabrb3 gene deficient mice exhibit impaired social and exploratory behaviors, deficits in non-selective attention and hypoplasia of cerebellar vermal lobules: A potential model of autism spectrum disorder

DeLorey

Sahbaie

Hashemi

et al. 2008

Behavioural Brain Research

200

143

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Gene Expression Profiling Reveals Stromal Genes Expressed in Common Between Barrett’s Esophagus and Adenocarcinoma

Ying

Triadafilopoulos

Sahbaie³

et al. 2006

Gastroenterology

131

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Background & Aims-Barrett's esophagus is a precursor of esophageal adenocarcinoma. DNA microarrays that enable a genome-wide assessment of gene expression enhance the identification of specific genes as well as gene expression patterns that are expressed by Barrett's esophagus and adenocarcinoma compared to normal tissues. Barrett's esophagus length has also been identified as a risk factor for progression to adenocarcinoma, but whether there are intrinsic biological differences between short and long-segment Barrett's esophagus can be explored with microarrays.

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Autoimmunity contributes to nociceptive sensitization in a mouse model of complex regional pain syndrome

Guo

Shi

et al. 2014

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Complex regional pain syndrome (CRPS) is a painful, disabling, chronic condition whose etiology remains poorly understood. The recent suggestion that immunological mechanisms may underlie CRPS provides an entirely novel framework in which to study the condition and consider new approaches to treatment. Using a murine fracture/cast model of CRPS, we studied the effects of B-cell depletion using anti-CD20 antibodies or by performing experiments in genetically B-cell-deficient (µMT) mice. We observed that mice treated with anti-CD20 developed attenuated vascular and nociceptive CRPS-like changes after tibial fracture and 3 weeks of cast immobilization. In mice with established CRPS-like changes, the depletion of CD-20+ cells slowly reversed nociceptive sensitization. Correspondingly, µMT mice, deficient in producing immunoglobulin M (IgM), failed to fully develop CRPS-like changes after fracture and casting. Depletion of CD20+ cells had no detectable effects on nociceptive sensitization in a model of postoperative incisional pain, however. Immunohistochemical experiments showed that CD20+ cells accumulate near the healing fracture but few such cells collect in skin or sciatic nerves. On the other hand, IgM-containing immune complexes were deposited in skin and sciatic nerve after fracture in wild-type, but not in µMT fracture/cast, mice. Additional experiments demonstrated that complement system activation and deposition of membrane attack complexes were partially blocked by anti-CD20+ treatment. Collectively, our results suggest that CD20-positive B cells produce antibodies that ultimately support the CRPS-like changes in the murine fracture/cast model. Therapies directed at reducing B-cell activity may be of use in treating patients with CRPS.

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From mouse to man: the 5-HT3 receptor modulates physical dependence on opioid narcotics

Chu

Liang

et al. 2009

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Objectives Addiction to opioid narcotics represents a major public health challenge. Animal models of one component of addiction, physical dependence, show this trait to be highly heritable. The analysis of opioid dependence using contemporary in-silico techniques offers an approach to discover novel treatments for dependence and addiction. Methods In these experiments, opioid withdrawal behavior in 18 inbred strains of mice was assessed. Mice were treated for 4 days with escalating doses of morphine before the administration of naloxone allowing the quantification of opioid dependence. After haplotypic analysis, experiments were designed to evaluate the top gene candidate as a modulator of physical dependence. Behavioral studies as well as measurements of gene expression on the mRNA and protein levels were completed. Finally, a human model of opioid dependence was used to quantify the effects of the 5-HT3 antagonist ondansetron on signs and symptoms of withdrawal. Results The Htr3a gene corresponding to the 5-HT3 receptor emerged as the leading candidate. Pharmacological studies using the selective 5-HT3 antagonist ondansetron supported the link in mice. Morphine strongly regulated the expression of the Htr3a gene in various central nervous system regions including the amygdala, dorsal raphe, and periaqueductal gray nuclei, which have been linked to opioid dependence in previous studies. Using an acute morphine administration model, the role of 5-HT3 in controlling the objective signs of withdrawal in humans was confirmed. Conclusion These studies show the power of in-silico genetic mapping, and reveal a novel target for treating an important component of opioid addiction.

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Role of substance P signaling in enhanced nociceptive sensitization and local cytokine production after incision

et al. 2009

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Substance P (SP) signaling facilitates nociceptive sensitization in various inflammatory and chronic pain models and we postulated that SP signaling might also contribute to the development of post-incisional hyperalgesia. These studies used mice with a deletion of the pre-protachykinin A gene (ppt-A −/−) which codes for SP to determine the role of SP signaling in post-incisional pain and in the increased cytokine and nerve growth factor (NGF) expression observed in the incised skin. SP deficient ppt-A(−/−) mice displayed reduced mechanical allodynia and heat hyperalgesia compared to the wild type (wt) mice at all post-incision time points, despite similar baseline values (p<0.001). Furthermore, the NK-1 receptor antagonist LY303870 attenuated mechanical allodynia produced by incision in the wt mice (p<0.001). Incision also up-regulated IL-6, TNF-α and KC levels but not IL-1β after 2 hours in the wt mice skin. However, ppt-A(−/−) mice had more skin NGF levels 2 hours post incision. Subcutaneous hind paw SP injection produced acute and transient elevations of IL-1β, IL-6, and KC but modest elevations in TNF-α levels in the wt mice. Systemic LY303870 reversed the SP induced elevations of these cytokines. Hind paw injection of IL-6 and NGF dose dependently produced less mechanical allodynia in the ppt-A(−/−) compared to wt mice. Additionally, SP produced mechanical allodynia in a dose dependent fashion in wt mice. Therefore, SP supports nociceptive sensitization after hind paw incision and potentially participates directly in modulating the intensity of inflammatory response in peri-incisional tissue.

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Brain Neuroplastic Changes Accompany Anxiety and Memory Deficits in a Model of Complex Regional Pain Syndrome

Tajerian

Leu²,

Zou³

et al. 2014

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Background Complex regional pain syndrome (CRPS) is a painful condition with ~50,000 annual new cases in the United States. It is a major cause of work-related disability, chronic pain after limb fractures and persistent pain after extremity surgery. Additionally, CRPS patients often experience cognitive changes, anxiety and depression. The supraspinal mechanisms linked to these CRPS-related comorbidities remain poorly understood. Methods We used a previously-characterized mouse model of tibia fracture/cast immobilization showing the principal stigmata of CRPS (n=8–20/group) observed in humans. Our central hypothesis was that fracture/cast mice manifest changes in measures of thigmotaxis (indicative of anxiety) and working memory reflected in neuroplastic changes in amygdala, perirhinal cortex, and hippocampus. Results We demonstrate that nociceptive sensitization in these mice is accompanied by altered thigmotactic behaviors in the zero maze but not open field assay, and working memory dysfunction in novel object recognition and social memory but not in novel location recognition. Furthermore, we found evidence of structural changes and synaptic plasticity including changes in dendritic architecture and decreased levels of synaptophysin and brain derived neurotrophic factor in specific brain regions. Conclusions Our findings provide novel observations regarding behavioral changes and brain plasticity in a mouse model of CRPS. In addition to elucidating some of the supraspinal correlates of the syndrome, this work supports the potential use of therapeutic interventions that not only directly target sensory input and other peripheral mechanisms, but also attempt to ameliorate the broader pain experience by modifying its associated cognitive and emotional comorbidities.

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Epigenetic Regulation of Spinal CXCR2 Signaling in Incisional Hypersensitivity in Mice

Sun

Sahbaie²,

Liang³

et al. 2013

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Peyman Sahbaie

Detection of colonic dysplasia in vivo using a targeted heptapeptide and confocal microendoscopy

Gabrb3 gene deficient mice exhibit impaired social and exploratory behaviors, deficits in non-selective attention and hypoplasia of cerebellar vermal lobules: A potential model of autism spectrum disorder

Gene Expression Profiling Reveals Stromal Genes Expressed in Common Between Barrett’s Esophagus and Adenocarcinoma

Autoimmunity contributes to nociceptive sensitization in a mouse model of complex regional pain syndrome

From mouse to man: the 5-HT3 receptor modulates physical dependence on opioid narcotics

Role of substance P signaling in enhanced nociceptive sensitization and local cytokine production after incision

Brain Neuroplastic Changes Accompany Anxiety and Memory Deficits in a Model of Complex Regional Pain Syndrome

Epigenetic Regulation of Spinal CXCR2 Signaling in Incisional Hypersensitivity in Mice

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