Antigen itself antibody: an alternative one-step immunoassay for measuring the anti-idiotypic antibody titer.

Immunoassay designs rely on the great specificity of antibodies and a suitable marker that facilitates generation of a quantitative signal. Currently, there is no reliable method for measuring the titers of an anti-idiotypic antibody. Our initial attempt to measure titers of mouse anti-idiotypic antibody after idiotypic vaccination with HM-1 killer toxin neutralizing monoclonal antibody (nmAb-KT) failed. Because the injected antigen, nmAb-KT, is a mouse IgG, using a commercial antibody to measure the antibody titer always gave a false positive signal against control mouse serum antibody in parallel with the antigen-treated immunized serum antibodies. To get a reliable and clearly differentiable signal by ELISA, idiotypic antigen was labeled with HRP and HRP-conjugated-nmAb-KT used to measure the antibody titers in the antigen-treated mice. Compared with control mice, signals were found in high anti-nmAb-KT IgG responses in test mice; however, untreated control mice had a significant amount of purified non-specific IgG. This method is amenable to long read lengths and will likely enable anti-idiotypic antibody titer measurement in a more specific and cost effective way without requiring commercial antibody.

The high-osmolarity glycerol- and cell wall integrity-MAP kinase pathways of Saccharomyces cerevisiae are involved in adaptation to the action of killer toxin HM-1.

Fps1p is an aquaglyceroporin important for turgor regulation of Saccharomyces cerevisiae. Previously we reported the involvement of Fps1p in the yeast-killing action of killer toxin HM-1. The fps1 cells showed a high HM-1-resistant phenotype in hypotonic medium and an HM-1-susceptible phenotype in hypertonic medium. This osmotic dependency in HM-1 susceptibility was similar to those observed in Congo red, but different from those observed in other cell wall-disturbing agents. These results indicate that HM-1 exerts fungicidal activity mainly by binding and inserting into the yeast cell wall structure, rather than by inhibiting 1,3-ß-glucan synthase. We next determined HM-1-susceptibility and diphospho-MAP kinase inductions in S. cerevisiae. In the wild-type cell, expressions of diphospho-Hog1p and -Slt2p, and mRNA transcription of CWP1 and HOR2, were induced within 1 h after an addition of HM-1. ssk1 and pbs2 cells, but not sho1 and hkr1 cells, showed HM-1-sensitive phenotypes and lacked inductions of phospho-Hog1p in response to HM-1. mid2, rom2 and bck1 cells showed HM-1-sensitive phenotypes and decreased inductions of phospho-Slt2p in response to HM-1. From these results, we postulated that the Sln1-Ypd1-Ssk1 branch of the high-osmolality glycerol (HOG) pathway and plasma membrane sensors of the cell wall integrity (CWI) pathway detect cell wall stresses caused by HM-1. We further suggested that activations of both HOG and CWI pathways have an important role in the adaptive response to HM-1 toxicity.

Peptide derived from anti-idiotypic single-chain antibody is a potent antifungal agent compared to its parent fungicide HM-1 killer toxin peptide.

Based on anti-idiotypic network theory in light of the need for new antifungal drugs, we attempted to identify biologically active fragments from HM-1 yeast killer toxin and its anti-idiotypic antibody and to compare their potency as an antifungal agent. Thirteen overlapping peptides from HM-1 killer toxin and six peptides from its anti-idiotypic single-chain variable fragment (scFv) antibodies representing the complementarity determining regions were synthesized. The binding affinities of these peptides were investigated and measured by Dot blot and surface plasmon resonance analysis and finally their antifungal activities were investigated by inhibition of growth, colony forming unit assay. Peptide P6, containing the potential active site of HM-1 was highly capable of inhibiting the growth of Saccharomyces cerevisiae but was less effective on pathogenic fungi. However, peptide fragments derived from scFv antibody exerted remarkable inhibitory effect on the growth of pathogenic strains of Candida and Cryptococcus species in vitro. One scFv-derived decapeptide (SP6) was selected as the strongest killer peptide for its high binding affinity and antifungal abilities on both Candida and Cryptococcus species with IC(50) values from 2.33 × 10(-7) M to 36.0 × 10(-7) M. SP6 peptide activity was neutralized by laminarin, a ß-1,3-glucan molecule, indicating this peptide derived from scFv anti-idiotypic antibody retains antifungal activity through interaction with cell wall ß-glucan of their target fungal cells. Experimental evidence strongly suggested the possibility of development of anti-idiotypic scFv peptide-based antifungal agents which may lead to improve therapeutics for the management of varieties of fungal infections.

New avenues for phage-display library to produce a Cryptococcus-specific anti-idiotypic antibody of HM-1 killer toxin.

Existing antifungal drugs are notable for their inability to act rapidly, as well as their toxicity and limited spectrum. The identification of fungal-specific genes and virulence factors would provide targets for new and influential drugs. The display of repertories of antibody fragments on the surface of filamentous phage offers a new way to produce immunoreagents as defined specificities. Here we report the selection of Cryptococcus-specific targets by using phage-display panning from a cDNA library, where bactericidal antibodies have been developed against conserved surface-exposed antigens. A single-chain variable fragment (scFv) phage library was constructed from splenocyte of an immunized mouse by idiotypic vaccination with HM-1 killer toxin (HM-1) neutralizing monoclonal antibody (nmAb-KT) that was used for selection against Cryptococcus neoformans membrane fraction (CnMF). Key elements were the selection against antigen (nmAb-KT and CnMF) and the release of bound phages using competitive panning elution with CnMF at neutral pH condition. Isolated scFvs react specifically with C. neoformans and some other pathogenic and non-pathogenic fungal strain's cell wall receptors by exerting strong antifungal activity in vitro. A high affinity clone, designated M1 was selected for detailed characterization and tested anti-cryptococcal activity with IC(50) values at 5.33 × 10(-7) to 5.56 × 10(-7) M against C. neoformans. The method described here is a new technique for the isolation of cell membrane specific immunoreactive phages in the form of scFv using CnMF that contained cell membrane associated proteins.

Isolation and characterization of recombinant single chain fragment variable anti-idiotypic antibody specific to Aspergillus fumigatus membrane protein.

Aspergillus fumigatus causes the highly lethal form of invasive aspergillosis (IA). In the present study to develop a novel anti-fungal drug for protection against invasive disease, we identified a single chain fragment variable (scFv) antibody (scFv AF1) by panning against A. fumigatus membrane fraction (AMF) or HM-1 killer toxin (HM-1) neutralizing monoclonal antibody (nmAb-KT) as antigen. The key step was elution of bound phages with phosphate buffered saline (PBS) at pH 7.0 containing AMF. The specificity of soluble scFv AF1 antibody to antigens was verified by ELISA, which specifically binds to both AMF and nmAb-KT. After nucleotide sequencing, clone expression and purification by HisTrap HP affinity column, scFv AF1 showed in vitro anti-fungal activity against A. fumigatus. By SPR analysis it showed high binding affinity to nmAb-KT (K(d)=5.22×10(-11) M). The method used to isolate scFv AF1 was a new method and we believe that it will be applicable to isolate the specific scFv against any kind of membrane protein of yeast or fungus.

An altered camelid-like single domain anti-idiotypic antibody fragment of HM-1 killer toxin: acts as an effective antifungal agent.

Phage-display and competitive panning elution leads to the identification of minimum-sized antigen binders together with conventional antibodies from a mouse cDNA library constructed from HM-1 killer toxin neutralizing monoclonal antibody (nmAb-KT). Antigen-specific altered camelid-like single-domain heavy chain antibody (scFv K2) and a conventional antibody (scFv K1) have been isolated against the idiotypic antigen nmAb-KT. The objectives of the study were to examine (1) their properties as compared to conventional antibodies and also (2) their antifungal activity against different pathogenic and non-pathogenic fungal species. The alternative small antigen-binder, i.e., the single-domain heavy chain antibody, was originated from a conventional mouse scFv phage library through somatic hyper-mutation while selection against antigen. This single-domain antibody fragment was well expressed in bacteria and specifically bound with the idiotypic antigen nmAb-KT and had a high stability and solubility. Experimental data showed that the binding affinity for this single-domain antibody was 272-fold higher (K(d)=1.07×10(-10) M) and antifungal activity was three- to fivefold more efficient (IC(50)=0.46×10(-6) to 1.17×10(-6) M) than that for the conventional antibody (K(d)=2.91×10(-8) M and IC(50)=2.14×10(-6) to 3.78×10(-6) M). The derived single-domain antibody might be an ideal scaffold for anti-idiotypic antibody therapy and the development of smaller peptides or peptide mimetic drugs due to their less complex antigen-binding site. We expect that such single-domain synthetic antibodies will find their way into a number of biotechnological or medical applications.

Genome-wide screen of Saccharomyces cerevisiae for killer toxin HM-1 resistance.

We screened a set of Saccharomyces cerevisiae deletion mutants for resistance to killer toxin HM-1, which kills susceptible yeasts through inhibiting 1,3-beta-glucan synthase. By using HM-1 plate assay, we found that eight gene-deletion mutants had higher HM-1-resistance compared with the wild-type. Among these eight genes, five--ALG3, CAX4, MNS1, OST6 and YBL083C--were associated with N-glycan formation and maturation. The ALG3 gene has been shown before to be highly resistant to HM-1. The YBL083C gene may be a dubious open reading frame that overlaps partially the ALG3 gene. The deletion mutant of the MNS1 gene that encodes 1,2-alpha-mannosidase showed with a 13-fold higher HM-1 resistance compared with the wild-type. By HM-1 binding assay, the yeast plasma membrane fraction of alg3 and mns1 cells had less binding ability compared with wild-type cells. These results indicate that the presence of the terminal 1,3-alpha-linked mannose residue of the B-chain of the N-glycan structure is essential for interaction with HM-1. A deletion mutant of aquaglyceroporin Fps1p also showed increased HM-1 resistance. A deletion mutant of osmoregulatory mitogen-activated protein kinase Hog1p was more sensitive to HM-1, suggesting that high-osmolarity glycerol pathways plays an important role in the compensatory response to HM-1 action.

Synthesis, anti-fungal and 1,3-ß-D-glucan synthase inhibitory activities of caffeic and quinic acid derivatives.

New derivatives of caffeic acid and quinic acid were synthesized and their anti-fungal and inhibitory activities on fungal 1,3-ß-glucan synthase were determined in comparison with those of the corresponding chlorogenic acid derivatives. All the chlorogenic, quinic and caffeic acid derivatives that were coupled with an H(2)N-orn-4-(octyloxy) aniline group (1, 1b and 1c) displayed potent activities in both anti-fungal and inhibition of 1,3-glucan synthase assays. Compounds 1 and 1c inhibited the fungal membrane enzyme with the potency comparable to that of a known 1,3-ß-D-glucan synthase inhibitor, aculeacin A. The results revealed that the anti-fungal activity of the chlorogenic acid derivative with a free amino group was at least partly due to inhibition of the fungal 1,3-ß-glucan synthase. These results suggest that further investigation on caffeic acid derivatives may lead to the discovery of novel anti-fungal agents with drug-like properties.

Purification and functional characterization of a Camelid-like single-domain antimycotic antibody by engineering in affinity tag.

Single-domain single-chain variable fragment (scFv) antibody is sometimes critical for purification using affinity tagging strategy. We failed in our initial effort to purify a prematurely developed Camelid-like E-tagged short scFv-K2 antibody that contained a complete variable region of the heavy chain and partial region of the light chain by using an anti-E-tag affinity column. To expedite the purification of this altered but interesting antimycotic agent, we replaced a long and large E-tag by a short and hydrophilic 6x-Histidine (His(6)) affinity tag by polymerase chain reaction. The short and compact His(6)-tag was placed on the previously constructed expression vector pCANTAB 5 E that contained the large affinity E-tag sequence (13 amino acids) by PCR-based mutagenesis and was expressed in Escherichia coli. The recombinant protein can then be purified by immobilized metal affinity chromatography (IMAC) and be used for biochemical and other functional characterization. This His(6)-tagged short scFv-K2 antibody (20 kDa) had strong cytocidal activity against Saccharomyces and Candida species with a IC(50) value of 0.44x10(-6)M and 1.10 x 10(-6)M, respectively. Tag replacement facilitates the purification of a Camelid-like single-domain scFv antibody and after that meets its different functional characteristics. The present study reflects that the V(H) domain of the scFv antibody is mainly responsible for its biological activity and single-domain scFv antibody may acts as a potent antimicrobial agent.

Different buffer effects in selecting HM-1 killer toxin single-chain fragment variable anti-idiotypic antibodies.

We reported previously competitive panning elution with PBS (pH 7.0) that contains HM-1 killer toxin (HM-1) and Candida albicans membrane fraction (CaMF) to release phages bound with CaMF as an antigen. Here, as an alternative strategy, we isolated high-binding affinity recombinant single-chain fragment variables (scFvs) with in vitro anti-fungal activity from an scFv phage library. The competitive panning elution contained acidic, neutral and basic pH buffers with original antigen HM-1 or HM-1 peptide 6 used to release phages bound with HM-1-neutralizing monoclonal antibody (nmAb-KT). For neutral pH eluted conditions, 87.5% of clones showed high-binding affinity against nmAb-KT by using ELISA, but was 16% and 26% for acidic and basic eluted conditions, respectively. After nucleotide sequencing, we obtained seven different anti-idiotypic antibodies from the different selection procedures. The clone expression and purification by using a HisTrap HP column, showed that clones scFv S3, S4 and S7 had in vitro antifungal activity against Saccharomyces cerevisiae, Candida albicans. The purified scFvs showed strong binding affinity with nmAb-KT by using ELISA. These results showed that changing the buffer pH with competing elements plays important role in elution of bound phages to targeted antigen and also in identification of positive scFv phages.

An improved phage-display panning method to produce an HM-1 killer toxin anti-idiotypic antibody.

BACKGROUND: Phage-display panning is an integral part of biomedical research. Regular panning methods are sometimes complicated by inefficient detachment of the captured phages from the antigen-coated solid supports, which prompted us to modify. Here, we produce an efficient antigen-specific single chain fragment variable (scFv) antibody by using a target-related molecule that favored selection of recombinant antibodies. RESULTS: To produce more selective and specific anti-idiotypic scFv-antibodies from a cDNA library, constructed from HM-1 killer toxin (HM-1)-neutralizing monoclonal antibodies (nmAb-KT), the method was modified by using an elution buffer supplemented with HM-1 that shares structural and functional similarities with the active site of the scFv antibody. Competitive binding of HM-1 to nmAb-KT allowed easy and quick dissociation of scFv-displayed phages from immobilized nmAb-KT to select specific anti-idiotypic scFv antibodies of HM-1. After modified panning, 80% clones (40/50) showed several times higher binding affinity to nmAb-KT than regular panning. The major populations (48%) of these clones (scFv K1) were genotypically same and had strong cytocidal activity against Saccharomyces and Candida species. The scFv K1 (K(d) value = 4.62 x 10(-8) M) had strong reactivity toward nmAb-KT, like HM-1 (K(d) value = 6.74 x 10(-9) M) as judged by SPR analysis. CONCLUSION: The scFv antibodies generated after modified subtractive panning appear to have superior binding properties and cytocidal activity than regular panning. A simple modification of the elution condition in the phage-display panning protocol makes a large difference in determining success. Our method offers an attractive platform to discover potential therapeutic candidates.

Cloning antifungal single chain fragment variable antibodies by phage display and competitive panning elution.

Phage display and two competitive panning elution conditions were used to isolate Candida-specific single chain fragment variable (scFv) antibodies. An scFv phage library constructed from splenic lymphocytes of mice immunized by idiotypic vaccination with an HM-1 killer toxin (HM-1)-neutralizing monoclonal antibody (nmAb-KT) was used for panning against Candidaalbicans membrane fraction (CaMF). Key steps were specific elution conditions to separately release the bound phages with original antigen HM-1+HM-1 peptide 6 and CaMF. The positive phages were screened by using enzyme-linked immunosorbent assay, and after nucleotide sequencing, clone expression, and purification, clone scFv-C1 was selected for detailed characterization. The scFv-C1 showed IC(50) values for cell growth against various Candida species and Saccharomyces cerevisiae as 2.40 to 6.40microM and 2.20microM, respectively. By using surface plasmon resonance analysis, the scFv-C1 had a K(d) value of 3.09x10(-11)M to nmAb-KT, indicating a 260-fold higher affinity than for HM-1. These results showed the generated scFv-C1 mimicking HM-1-binding affinity to nmAb-KT and in vitro antifungal activity. We believe that the effectiveness of the competitive panning elution method and antigen-specific recombinant scFv antibodies obtained in this study are excellent candidates for antimycotic drugs.

Effects of anthocyanins on psychological stress-induced oxidative stress and neurotransmitter status.

There is strong evidence that oxidative stress participates in the etiology of neurodegenerative diseases such as Parkinson's, and Alzheimer's diseases. Moreover, emotional stress effects in the central nervous system play a vital role in homeostasis. The protective effect of anthocyanins on the cerebral oxidative stress was studied using the whiskers cut model. In mice, such treatment causes psychological or emotional distress leading to oxidative stress in tissues. To investigate the in vivo antioxidant activity of anthocyanins, an extract of Vaccinium myrtillis L., an anthocyanin mixture, was orally administered (100 mg/kg of body weight.) to mice for 7 days, and then psychological stress was assessed by cutting off their whiskers. Whisker removal increased both protein carbonyl formation and lipid peroxidation in the brain, heart, kidney, and liver. Further, the levels of oxidative markers showed regional differences in the brain. Concomitantly, dopamine neurotransmitter levels were altered in both the midbrain and the brain cortex. Orally administered anthocyanins were also active in the brain, suppressing stress-induced cerebral oxidative stress and dopamine abnormalities in distressed mice. These effects of anthocyanin treatment suggest their possible usefulness for the treatment of cerebral disorders related to oxidative stress.

Identification of a key amino acid of the human 5-HT(2B) serotonin receptor important for sarpogrelate binding.

Based on radio-ligand binding and molecular modeling studies, sarpogrelate shows a moderate selectivity for 5-HT(2B) versus 5-HT(2A) receptors. To confirm the modeling data of sarpogrelate to 5-HT(2B) receptors predicting interaction of sarpogrelate towards Asp135 in helix 3 of 5-HT(2B) receptors, we constructed and characterized the mutation of this residue by site-directed mutagenesis. The Asp135Ala mutant did not exhibit any affinity for [(3)H]rauwolscine. Therefore, it was not possible to find sarpogrelate affinity to the mutant using [(3)H]rauwolscine. The mutation also abolished agonist-stimulated inositol phosphates formation. These results provide evidence that Asp135 is important for the interaction between 5-HT(2B) receptors and sarpogrelate.

Beta-blockers show inverse agonism to a novel constitutively active mutant of beta1-adrenoceptor.

We obtained a new mutant of the beta(1)-adrenergic receptor (beta(1)-AR) by point mutations that can constitutively activate beta(1)-AR. Aspartate104 of the beta(1)-AR in the 2nd transmembrane was replaced with alanine. The beta(1)-AR mutant expressed in human embryonic kidney (HEK)-293 cells displayed high level of constitutive activity with respect to wild-type (P<0.05), which could be partially inhibited by some beta-blockers. The constitutive activity of the mutant was confirmed by the finding that the enhanced activity is dependent on the level of receptor expression. The results of this study might have interesting implications for future studies aiming at elucidating the activation process of the beta(1)-AR as well as the mechanism of action of beta-blockers.

Superoxide radical- and peroxynitrite-scavenging activity of anthocyanins; structure-activity relationship and their synergism.

Antioxidant activities of 15 purified bilberry anthocyanins together with pelargonidin 3-O-beta-D-glucopyranoside and 4'-O-methyl delphinidin 3-O-beta-D-glucopyranoside (MDp 3-glc), the major metabolite of delphinidin 3-O-beta-D-glucopyranoside (Dp 3-glc), were evaluated in order to study the structure-antioxidant activity relationship and any synergism among them in the mixture. Both aglycone structure and the attached sugar moiety affected the O*2- and ONOO- -scavenging activities, although the effect of the attached sugar moiety was smaller than that of the aglycone structure. The potency of activity toward the superoxide radical was in the following order: delphinidin > petunidin > malvidin =approximately cyanidin>(+)-catechin > peonidin > pelargonidin. The activity toward ONOO- was: delphinidin > cyanidin =approximately petunidin > malvidin =approximately (+)-catechin > peonidin > pelargonidin. It was confirmed that methylation of 4'-OH markedly reduced the antioxidant activity of anthocyanin. Further, it was revealed that synergism occurred in both - and ONOO- -scavenging activities among the anthocyanins in the mixture.

The role of the histidine-35 residue in the cytocidal action of HM-1 killer toxin.

Diethylpyrocarbonate modification and site-directed mutagenesis studies of histidine-35 in HM-1 killer toxin (HM-1) have shown that a specific feature, the imidazole side chain of histidine-35, is essential for the expression of the killing activity. In subcellular localization experiments, wild-type HM-1 was in the membrane fraction of Saccharomyces cerevisiae BJ1824, but not the HM-1 analogue in which histidine-35 was replaced by alanine (H35A HM-1). Neither wild-type nor H35A HM-1 was detected in cellular fractions of HM-1-resistant yeast S. cerevisiae BJ1824 rhk1Delta : : URA3 and HM-1-insensitive yeast Candida albicans even after 1 h incubation. H35A HM-1 inhibited the activity of partially purified 1,3-beta-glucan synthase from S. cerevisiae A451, and its extent was almost the same as wild-type HM-1. Co-immunoprecipitation experiments showed that wild-type and H35A HM-1 directly interact with the 1,3-beta-glucan synthase complex. These results strongly suggest that histidine-35 has an important role in the cytocidal action of HM-1 that participates in the binding process to the HM-1 receptor protein on the cell membrane, but it is not essential for the interaction with, and inhibition of, 1,3-beta-glucan synthase.

Identification of amino acid residues important for sarpogrelate binding to the human 5-hydroxytryptamine2A serotonin receptor.

The purpose of the present study was to examine 5-hydroxytryptamine (5-HT)(2A)-receptor sarpogrelate interactions by site-directed mutagenesis. Based on molecular modeling studies, aspartic acid (Asp)155[3.32] and tryptophan (Trp)151[3.28] in transmembrane helix (TMH) III and Trp336[6.48] in TMH VI of the 5-HT(2A) receptor were found to interact with sarpogrelate. All of these residues were mutated to alanine (Ala). The Asp3.32Ala mutant did not exhibit any affinity for [(3)H]ketanserin, whereas the Trp3.28Ala mutant showed a markedly decrease in the binding affinity for [(3)H]ketanserin (K(d) >10,000 nM). Therefore, it was not possible to find any sarpogrelate affinity to the mutants using [(3)H]ketanserin. The mutation also abolished agonist-stimulated formation of [(3)H]inositol phosphates (IP) in both cases. On the other hand, the Trp6.48Ala mutant showed reduced binding affinity for [(3)H]ketanserin (K(d) 2.0 nM vs 0.8 nM for the wild-type receptor) and had reduced affinity for sarpogrelate (pK(i) value of 5.71 vs 9.06 for the wild-type receptor). The Trp6.48Ala mutant also showed the greatest decrease in sensitivity to sarpogrelate (pK(b) value 8.81 for wild-type and 5.11 for mutant) in inhibiting agonist-stimulated IP formation. These results provide direct evidence that Asp3.32, Trp3.28, and less importantly, Trp6.48 are responsible for the interaction between the 5-HT(2A) receptor and sarpogrelate. In addition, these results support the findings obtained from molecular modeling studies.

Recombinant single-chain anti-idiotypic antibody: an effective fungal beta-1,3-glucan synthase inhibitor.

Recombinant single-chain fragment variable anti-idiotypic antibodies were produced to represent the internal image of HM-1 killer toxin and were used as novel and effective antifungal agents to inhibit in vitro beta-1,3-glucan synthase and cell growth. The mechanism of cytocidal activity of anti-idiotypic antibodies was investigated and was compared with the actions of aculeacin A and papulacandin B, the most common antibiotics acting as beta-1,3-glucan synthase inhibitors. The degree of inhibition of beta-1,3-glucan synthase by both antibodies and antibiotics were examined for yeasts Saccharomyces cerevisiae A451, Cryptococcus albidus NBRC 0612 and Candida albicans IFM 40215. Although the mechanism of actions of the anti-idiotypic antibodies and antibiotics seems identical, the IC(50) values for the various yeasts used in this study confirmed that anti-idiotypic antibodies could be used as more effective fungal beta-1,3-glucan synthase inhibitors than those of antibiotics.

Site-directed mutagenesis of the serotonin 5-Hydroxytryptamine2c receptor: identification of amino acids responsible for sarpogrelate binding.

Site-directed mutagenesis was used to investigate the molecular interactions involved in sarpogrelate binding to the human 5-Hydroxytryptamine(5-HT)2C receptor. Based on molecular modeling studies, Aspartic acid (Asp)155[3.32] in transmembrane region III and Serine(Ser)361[7.46] in transmembrane region VII of the 5-HT2C receptor were found to interact with sarpogrelate. Asp3.32 and Ser7.46 were mutated to alanine (Ala) and expressed in COS-7 cells. The radioligand [3H]mesulergine did not show any binding to Asp3.32Ala mutant of 5-HT2C receptor. Therefore, it was not possible to find any sarpogrelate affinity to the mutant using [3H]mesulergine. The mutation also abolished agonist-stimulated IP formation of [3H]myo-inositol. Introduction of dual mutation at position Ser7.46 (Asp3.32Ala-Ser7.46Ala) could not restore the function disrupted by the first mutation (Asp3.32Ala). On the other hand, the Ser7.46Ala mutant showed reduced binding affinity for [3H]mesulergine (Kd 3557 pM versus 573 pM for the wild-type receptor) and had reduced affinity for sarpogrelate. Moreover, the Ser7.46Ala mutant receptor also showed a great loss of potency for sarpogrelate in inhibiting 5-HT-stimulated IP formation of [3H]myo-inositol. The results provide direct evidence that Asp3.32 and less importantly, Ser7.46 are responsible for the interaction between 5-HT2C receptor and [3H]mesulergine as well as sarpogrelate. More interestingly, Ser7.46Ala increases the receptor expression (20-fold vs. wild-type) of the mutant receptors and basal [3H]myo-inositol formation (2.5-fold vs. wild-type), which indicates that the 5-HT2C receptor could be rendered constitutively active by mutating the amino acid serine at position 7.46 to alanine.