Sultan Ahmad scite author profile

Several peptide fragments are produced by proteolytic cleavage of the opioid peptide precursor proenkephalin A, and among these are a number of enkephalin fragments, in particular bovine adrenal medulla peptide 22 (BAM22). These peptide products have been implicated in diverse biological functions, including analgesia. We have cloned a newly identified family of 'orphan' G protein--coupled receptors (GPCRs) and demonstrate that BAM22 and a number of its fragments bind to and activate these receptors with nanomolar affinities. This family of GPCRs is uniquely localized in the human and rat small sensory neuron, and we called this family the sensory neuron--specific G protein--coupled receptors (SNSRs). Receptors of the SNSR family are distinct from the traditional opioid receptors in their insensitivity to the classical opioid antagonist naloxone and poor activation by opioid ligands. The unique localization of SNSRs and their activation by proenkephalin A peptide fragments indicate a possible function for SNSRs in sensory neuron regulation and in the modulation of nociception.

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Induction of CB2 receptor expression in the rat spinal cord of neuropathic but not inflammatory chronic pain models

Zhang

Hoffert

et al. 2003

Eur J of Neuroscience

371

306

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Cannabinoids have been considered for some time as potent therapeutic agents in chronic pain management. Central and systemic administration of natural, synthetic and endogenous cannabinoids produce antinociceptive and antihyperalgesic effects in both acute and chronic animal pain models. Although much of the existing data suggest that the analgesic effects of cannabinoids are mediated via neuronal CB1 receptors, there is increasing evidence to support a role for peripheral CB2 receptors, which are expressed preferentially on immune cells. As yet, little is known about the central contribution of CB2 in neuropathic pain states. We report here that chronic pain models associated with peripheral nerve injury, but not peripheral inflammation, induce CB2 receptor expression in a highly restricted and specific manner within the lumbar spinal cord. Moreover, the appearance of CB2 expression coincides with the appearance of activated microglia.

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The receptor for the orexigenic peptide melanin-concentrating hormone is a G-protein-coupled receptor

et al. 1999

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Gene-knockout studies of melanin-concentrating hormone (MCH) and its effect on feeding and energy balance have firmly established MCH as an orexigenic (appetite-stimulating) peptide hormone. Here we identify MCH as the ligand for the orphan receptor SLC-1. The rat SLC-1 is activated by nanomolar concentrations of MCH and is coupled to the G protein G alpha i/o. The pattern of SLC-1 messenger RNA expression coincides with the distribution of MCH-containing nerve terminals and is consistent with the known central effects of MCH. Our identification of an MCH receptor could have implications for the development of new anti-obesity therapies.

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Restricted distribution of galanin receptor 3 (GalR3) mRNA in the adult rat central nervous system

Mennicken

Hoffert

Pelletier

et al. 2002

Journal of Chemical Neuroanatomy

181

150

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Expression of the novel galanin receptor subtype GALR2 in the adult rat CNS: Distinct distribution from GALR1

et al. 1999

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A stop codon mutation in SCN9A causes lack of pain sensation

Ahmad

Dahllund²,

Eriksson³

et al. 2007

163

118

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The general lack of pain experience is a rare occurrence in humans, and the molecular causes for this phenotype are not well understood. Here we have studied a Canadian family from Newfoundland with members who exhibit a congenital inability to experience pain. We have mapped the locus to a 13.7 Mb region on chromosome 2q (2q24.3-2q31.1). Screening of candidate genes in this region identified a protein-truncating mutation in SCN9A, which encodes for the voltage-gated sodium channel Na(v)1.7. The mutation is a C-A transversion at nucleotide 984 transforming the codon for tyrosine 328 to a stop codon. The predicted product lacks all pore-forming regions of Na(v)1.7. Indeed, expression of this altered gene in a cell line did not produce functional responses, nor did it cause compensatory effects on endogenous voltage-gated sodium currents when expressed in ND7/23 cells. Because a homozygous knockout of Na(v)1.7 in mice has been shown to be lethal, we explored why a deficiency of Na(v)1.7 is non-lethal in humans. Expression studies in monkey, human, mouse and rat tissue indicated species-differences in the Na(v)1.7 expression profile. Whereas in rodents the channel was strongly expressed in hypothalamic nuclei, only weak mRNA levels were detected in this area in primates. Furthermore, primate pituitary and adrenal glands were devoid of signal, whereas these two glands were mRNA-positive in rodents. This species difference may explain the non-lethality of the observed mutation in humans. Our data further establish Na(v)1.7 as a critical element of peripheral nociception in humans.

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A widely expressed human protein-tyrosine phosphatase containing src homology 2 domains.

Ahmad

Banville

Zhao

et al. 1993

Proc. Natl. Acad. Sci. U.S.A.

198

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A cDNA encoding a nontransmembrane protein-tyrosine phosphatase (PTP; EC 3.1.3.48), termed PTP2C, was isolated from a human umbilical cord cDNA library. The enzyme contains a single phosphatase domain and two adjacent copies of the src homology 2 (SH2) domain at its amino terminus. A variant of PTP2C (PTP2Ci) which has four extra amino acid residues within the catalytic domain has been identified also. PTP2C is widely expressed in human tissues and is particularly abundant in heart, brain, and skeletal muscle. The catalytic domain ofPTP2C was expressed as a recombinant enzyme in Escherichia coli and purified to near homogeneity by two chromatographic steps. The recombinant enzyme was totally specific toward phosphotyrosine residues. The structural similarity between PTP2C and the previously described PTP1C suggests the existence of a subfamily of SH2-containing PTPs; these may play an important role in signal transduction through interaction of their SH2 domains with phosphotyrosine-containing proteins.Phosphorylation of several intracellular proteins on tyrosine residues has been implicated in a number of critical physiological and pathological processes, including cell growth, differentiation, and neoplastic transformation (1-5). The specificity of the interaction will determine which particular signal pathway may become activated. In the present report, we describe another soluble phosphatase, designated as PTP2C; it also contains two SH2 domains and is widely expressed in human tissues. § We further identified a variant of this enzyme having an in-frame insertion of 12 base pairs within the catalytic domain. MATERIALS AND METHODSIsolation of PTP2C Clones. For the polymerase chain reaction (PCR), a set ofdegenerate primers was designed from two highly conserved regions within the catalytic domain of PTPs. One primer corresponded to the amino acid sequence KC(A/ D)QYWP and the other, to VHCSAGV. PCR fragments of about 250 bp were amplified from a human umbilical cord cDNA library. PCRs were performed for 30 cycles with a 94°C denaturation and a 50°C annealing temperature under standard conditions. The products were purified by electrophoresis on a 1.6% agarose gel and cloned in the pBluescript II KS (+) vector (Stratagene). One of the cloned PCR fragments was used as a probe to screen the cDNA library at 50°C in 4x SSC/2x Denhardt's solution/0.5% SDS/0.1 M sodium phosphate buffer, pH 7.0, containing sodium dextran sulfate at 100 mg/ml, and sonicated and denatured salmon sperm DNA at 100 ,g/ml (lx SSC = 0.15 M NaCl/0.015 M sodium citrate; lx Denhardt's solution = 0.02% bovine serum albumin/ 0.02% Ficoll/0.02% polyvinylpyrrolidone). Positive clones were subcloned in the pBluescript KS vector and sequenced with oligonucleotides or internal restriction fragment primers (17), using a T7 DNA polymerase sequencing kit (Pharmacia).Northern Blot Analysis. A human multiple-tissue Northern blot system (Clontech) was used to determine the level of expression of PTP2C in various tissues. The blot was prehybridized ...

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Phylogenetic changes in the expression of delta opioid receptors in spinal cord and dorsal root ganglia

Mennicken

Zhang

Hoffert

et al. 2003

J of Comparative Neurology

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To assess the validity of rodent models for investigating the role of delta opioid receptors (DOR) in analgesia, the distribution of DOR binding and mRNA were compared between rodent and primate spinal cord and dorsal root ganglia (DRG), using receptor autoradiography and in situ hybridization, respectively. In mouse and rat spinal cord, [(125)I]-deltorphin-labeled DOR binding sites were detected throughout the gray matter. In contrast, in primate and particularly in human spinal cord, DOR binding was mainly present in laminae I-II, with little to no binding in deeper layers. Accordingly, in rodent spinal cord, DOR mRNA was expressed by a large number of neurons distributed throughout the ventral and dorsal horns, whereas in the primate, DOR expression was significantly lower, as evidenced by a moderate number of labeled cells throughout the gray matter in monkey and by only few labeled cells in human, mainly in Clarke's column and lamina IX. Major species differences in DOR expression were also observed in primary afferent cells bodies. In rat DRG, intense DOR mRNA hybridization was primarily observed over large ganglion cells immunopositive for neurofilament 200. In contrast, in monkey and human DRG, DOR mRNA was primarily detected over small and medium-sized ganglion cells. These results demonstrate major differences in the expression and distribution of DOR in the spinal cord and DRG between mammalian species. Specifically, they point to a progressive specialization of DOR toward the regulation of primary somatosensory, namely nociceptive, inputs during phylogeny and suggest that the effects of DOR agonists in rodents may not be entirely predictive of their action in humans.

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Sultan Ahmad

Proenkephalin A gene products activate a new family of sensory neuron–specific GPCRs

Induction of CB2 receptor expression in the rat spinal cord of neuropathic but not inflammatory chronic pain models

The receptor for the orexigenic peptide melanin-concentrating hormone is a G-protein-coupled receptor

Restricted distribution of galanin receptor 3 (GalR3) mRNA in the adult rat central nervous system

Expression of the novel galanin receptor subtype GALR2 in the adult rat CNS: Distinct distribution from GALR1

A stop codon mutation in SCN9A causes lack of pain sensation

A widely expressed human protein-tyrosine phosphatase containing src homology 2 domains.

Phylogenetic changes in the expression of delta opioid receptors in spinal cord and dorsal root ganglia

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