Inducible desensitization to capsaicin with repeated low-dose exposure in human volunteers
•Participants rinsed with capsaicin ∼28 times over 2 weeks.•Capsaicin burn was reduced in the treatment group.•No changes were observed for sucrose, menthol, or SOA.•Papillae biopsies were performed.•TRPV1 expression did not predict changes in burn. Responses to capsaicin are reduced following repea...
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| Published in | Physiology & behavior Vol. 275; p. 114447 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Elsevier Inc
01.03.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0031-9384 1873-507X 1873-507X |
| DOI | 10.1016/j.physbeh.2023.114447 |
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| Abstract | •Participants rinsed with capsaicin ∼28 times over 2 weeks.•Capsaicin burn was reduced in the treatment group.•No changes were observed for sucrose, menthol, or SOA.•Papillae biopsies were performed.•TRPV1 expression did not predict changes in burn.
Responses to capsaicin are reduced following repeated exposure, a phenomenon known as capsaicin desensitization. Heavy consumers of chilies consistently report reduced oral burn relative to infrequent consumers, presumably due to chronic desensitization. However, the mechanism(s) underlying capsaicin desensitization remain poorly understood. We hypothesized that reduced response to capsaicin due to repeated oral exposure may result from a change in the expression of the capsaicin receptor (TRPV1) gene. To test this, we conducted two longitudinal desensitization studies in healthy human volunteers. In Study 1, 51 adults completed a 17-day capsaicin desensitization protocol. The study consisted of three in-person visits where they were asked to sample stimuli, including 3, 6, and 9 ppm capsaicin, and rate intensity on a general labeled magnitude scale (gLMS). Between days 3 & 17, participants rinsed at home with 6 ppm capsaicin (n = 31) or a control (n = 20) solution (20 uM sucrose octaccetate; SOA) twice a day. Before and after the oral exposure protocol, a clinician collected fungiform papillae. Participants randomized to the capsaicin rinse showed a statistically significant reduction in oral burn ratings that was not observed in controls, indicating repeated low-dose exposure can systematically induce desensitization. TRPV1 expression was not associated with reported capsaicin burn, and there was no evidence of a decrease in TRPV1 expression following capsaicin exposure. In Study 2, participants (n = 45) rinsed with 6 ppm capsaicin in a similar protocol, rating capsaicin, vanillyl butyl ether (VBE), cinnamaldehyde, ethanol, menthol, and sucrose on days 1, 3, & 17. Burn from capsaicin, VBE, cinnamaldehyde, and ethanol all showed a statistically significant change – capsaicin, VBE and cinnamaldehyde burn all dropped ∼20 %, and a larger reduction was seen for ethanol – while menthol cooling and sucrose sweetness did not change. Collectively, this suggests reductions in oral burn following chronic capsaicin exposure generalizes to other stimuli (i.e., cross desensitization) and this cannot be explained by a change in TRPV1 mRNA expression. More work is needed to elucidate the underlying mechanism for capsaicin desensitization in the oral cavity. |
|---|---|
| AbstractList | Responses to capsaicin are reduced following repeated exposure, a
phenomenon known as capsaicin desensitization. Heavy consumers of chilies
consistently report reduced oral burn relative to infrequent consumers,
presumably due to chronic desensitization. However, the mechanism(s) underlying
capsaicin desensitization remain poorly understood. We hypothesized that reduced
response to capsaicin due to repeated oral exposure may result from a change in
the expression of the capsaicin receptor (TRPV1) gene. To test this, we
conducted two longitudinal desensitization studies in healthy human volunteers.
In Study 1, 51 adults completed a 17-day capsaicin desensitization protocol. The
study consisted of three in-person visits where they were asked to sample
stimuli, including 3, 6, and 9 ppm capsaicin, and rate intensity on a general
labeled magnitude scale (gLMS). Between days 3 & 17, participants rinsed at
home with 6 ppm capsaicin (n=31) or a control (n=20) solution (20 uM sucrose
octaccetate; SOA) twice a day. Before and after the oral exposure protocol, a
clinician collected fungiform papillae. Participants randomized to the capsaicin
rinse showed a statistically significant reduction in oral burn ratings that was
not observed in controls, indicating repeated low-dose exposure can
systematically induce desensitization.
TRPV1
expression was not
associated with reported capsaicin burn, and there was no evidence of a decrease
in
TRPV1
expression following capsaicin exposure. In Study 2,
participants (n=45) rinsed with 6 ppm capsaicin in a similar protocol, rating
capsaicin, vanillyl butyl ether (VBE), cinnamaldehyde, ethanol, menthol, and
sucrose on days 1, 3, & 17. Burn from capsaicin, VBE, cinnamaldehyde, and
ethanol all showed a statistically significant change – capsaicin, VBE
and cinnamaldehyde burn all dropped ~20%, and a larger reduction was seen
for ethanol – while menthol cooling and sucrose sweetness did not change.
Collectively, this suggests reductions in oral burn following chronic capsaicin
exposure generalizes to other stimuli (i.e., cross desensitization) and this
cannot be explained by a change in
TRPV1
mRNA expression. More
work is needed to elucidate the underlying mechanism for capsaicin
desensitization in the oral cavity. Responses to capsaicin are reduced following repeated exposure, a phenomenon known as capsaicin desensitization. Heavy consumers of chilies consistently report reduced oral burn relative to infrequent consumers, presumably due to chronic desensitization. However, the mechanism(s) underlying capsaicin desensitization remain poorly understood. We hypothesized that reduced response to capsaicin due to repeated oral exposure may result from a change in the expression of the capsaicin receptor (TRPV1) gene. To test this, we conducted two longitudinal desensitization studies in healthy human volunteers. In Study 1, 51 adults completed a 17-day capsaicin desensitization protocol. The study consisted of three in-person visits where they were asked to sample stimuli, including 3, 6, and 9 ppm capsaicin, and rate intensity on a general labeled magnitude scale (gLMS). Between days 3 & 17, participants rinsed at home with 6 ppm capsaicin (n = 31) or a control (n = 20) solution (20 uM sucrose octaccetate; SOA) twice a day. Before and after the oral exposure protocol, a clinician collected fungiform papillae. Participants randomized to the capsaicin rinse showed a statistically significant reduction in oral burn ratings that was not observed in controls, indicating repeated low-dose exposure can systematically induce desensitization. TRPV1 expression was not associated with reported capsaicin burn, and there was no evidence of a decrease in TRPV1 expression following capsaicin exposure. In Study 2, participants (n = 45) rinsed with 6 ppm capsaicin in a similar protocol, rating capsaicin, vanillyl butyl ether (VBE), cinnamaldehyde, ethanol, menthol, and sucrose on days 1, 3, & 17. Burn from capsaicin, VBE, cinnamaldehyde, and ethanol all showed a statistically significant change - capsaicin, VBE and cinnamaldehyde burn all dropped ∼20 %, and a larger reduction was seen for ethanol - while menthol cooling and sucrose sweetness did not change. Collectively, this suggests reductions in oral burn following chronic capsaicin exposure generalizes to other stimuli (i.e., cross desensitization) and this cannot be explained by a change in TRPV1 mRNA expression. More work is needed to elucidate the underlying mechanism for capsaicin desensitization in the oral cavity.Responses to capsaicin are reduced following repeated exposure, a phenomenon known as capsaicin desensitization. Heavy consumers of chilies consistently report reduced oral burn relative to infrequent consumers, presumably due to chronic desensitization. However, the mechanism(s) underlying capsaicin desensitization remain poorly understood. We hypothesized that reduced response to capsaicin due to repeated oral exposure may result from a change in the expression of the capsaicin receptor (TRPV1) gene. To test this, we conducted two longitudinal desensitization studies in healthy human volunteers. In Study 1, 51 adults completed a 17-day capsaicin desensitization protocol. The study consisted of three in-person visits where they were asked to sample stimuli, including 3, 6, and 9 ppm capsaicin, and rate intensity on a general labeled magnitude scale (gLMS). Between days 3 & 17, participants rinsed at home with 6 ppm capsaicin (n = 31) or a control (n = 20) solution (20 uM sucrose octaccetate; SOA) twice a day. Before and after the oral exposure protocol, a clinician collected fungiform papillae. Participants randomized to the capsaicin rinse showed a statistically significant reduction in oral burn ratings that was not observed in controls, indicating repeated low-dose exposure can systematically induce desensitization. TRPV1 expression was not associated with reported capsaicin burn, and there was no evidence of a decrease in TRPV1 expression following capsaicin exposure. In Study 2, participants (n = 45) rinsed with 6 ppm capsaicin in a similar protocol, rating capsaicin, vanillyl butyl ether (VBE), cinnamaldehyde, ethanol, menthol, and sucrose on days 1, 3, & 17. Burn from capsaicin, VBE, cinnamaldehyde, and ethanol all showed a statistically significant change - capsaicin, VBE and cinnamaldehyde burn all dropped ∼20 %, and a larger reduction was seen for ethanol - while menthol cooling and sucrose sweetness did not change. Collectively, this suggests reductions in oral burn following chronic capsaicin exposure generalizes to other stimuli (i.e., cross desensitization) and this cannot be explained by a change in TRPV1 mRNA expression. More work is needed to elucidate the underlying mechanism for capsaicin desensitization in the oral cavity. Responses to capsaicin are reduced following repeated exposure, a phenomenon known as capsaicin desensitization. Heavy consumers of chilies consistently report reduced oral burn relative to infrequent consumers, presumably due to chronic desensitization. However, the mechanism(s) underlying capsaicin desensitization remain poorly understood. We hypothesized that reduced response to capsaicin due to repeated oral exposure may result from a change in the expression of the capsaicin receptor (TRPV1) gene. To test this, we conducted two longitudinal desensitization studies in healthy human volunteers. In Study 1, 51 adults completed a 17-day capsaicin desensitization protocol. The study consisted of three in-person visits where they were asked to sample stimuli, including 3, 6, and 9 ppm capsaicin, and rate intensity on a general labeled magnitude scale (gLMS). Between days 3 & 17, participants rinsed at home with 6 ppm capsaicin (n = 31) or a control (n = 20) solution (20 uM sucrose octaccetate; SOA) twice a day. Before and after the oral exposure protocol, a clinician collected fungiform papillae. Participants randomized to the capsaicin rinse showed a statistically significant reduction in oral burn ratings that was not observed in controls, indicating repeated low-dose exposure can systematically induce desensitization. TRPV1 expression was not associated with reported capsaicin burn, and there was no evidence of a decrease in TRPV1 expression following capsaicin exposure. In Study 2, participants (n = 45) rinsed with 6 ppm capsaicin in a similar protocol, rating capsaicin, vanillyl butyl ether (VBE), cinnamaldehyde, ethanol, menthol, and sucrose on days 1, 3, & 17. Burn from capsaicin, VBE, cinnamaldehyde, and ethanol all showed a statistically significant change - capsaicin, VBE and cinnamaldehyde burn all dropped ∼20 %, and a larger reduction was seen for ethanol - while menthol cooling and sucrose sweetness did not change. Collectively, this suggests reductions in oral burn following chronic capsaicin exposure generalizes to other stimuli (i.e., cross desensitization) and this cannot be explained by a change in TRPV1 mRNA expression. More work is needed to elucidate the underlying mechanism for capsaicin desensitization in the oral cavity. •Participants rinsed with capsaicin ∼28 times over 2 weeks.•Capsaicin burn was reduced in the treatment group.•No changes were observed for sucrose, menthol, or SOA.•Papillae biopsies were performed.•TRPV1 expression did not predict changes in burn. Responses to capsaicin are reduced following repeated exposure, a phenomenon known as capsaicin desensitization. Heavy consumers of chilies consistently report reduced oral burn relative to infrequent consumers, presumably due to chronic desensitization. However, the mechanism(s) underlying capsaicin desensitization remain poorly understood. We hypothesized that reduced response to capsaicin due to repeated oral exposure may result from a change in the expression of the capsaicin receptor (TRPV1) gene. To test this, we conducted two longitudinal desensitization studies in healthy human volunteers. In Study 1, 51 adults completed a 17-day capsaicin desensitization protocol. The study consisted of three in-person visits where they were asked to sample stimuli, including 3, 6, and 9 ppm capsaicin, and rate intensity on a general labeled magnitude scale (gLMS). Between days 3 & 17, participants rinsed at home with 6 ppm capsaicin (n = 31) or a control (n = 20) solution (20 uM sucrose octaccetate; SOA) twice a day. Before and after the oral exposure protocol, a clinician collected fungiform papillae. Participants randomized to the capsaicin rinse showed a statistically significant reduction in oral burn ratings that was not observed in controls, indicating repeated low-dose exposure can systematically induce desensitization. TRPV1 expression was not associated with reported capsaicin burn, and there was no evidence of a decrease in TRPV1 expression following capsaicin exposure. In Study 2, participants (n = 45) rinsed with 6 ppm capsaicin in a similar protocol, rating capsaicin, vanillyl butyl ether (VBE), cinnamaldehyde, ethanol, menthol, and sucrose on days 1, 3, & 17. Burn from capsaicin, VBE, cinnamaldehyde, and ethanol all showed a statistically significant change – capsaicin, VBE and cinnamaldehyde burn all dropped ∼20 %, and a larger reduction was seen for ethanol – while menthol cooling and sucrose sweetness did not change. Collectively, this suggests reductions in oral burn following chronic capsaicin exposure generalizes to other stimuli (i.e., cross desensitization) and this cannot be explained by a change in TRPV1 mRNA expression. More work is needed to elucidate the underlying mechanism for capsaicin desensitization in the oral cavity. |
| ArticleNumber | 114447 |
| Author | Lenart, Gabrielle Spielman, Andrew I. Hayes, John E. Nolden, Alissa A. |
| AuthorAffiliation | 3 Department of Food Science, College of Agricultural Sciences, The Pennsylvania State University, University Park, Pennsylvania, USA 4 Department of Molecular Pathobiology, College of Dentistry, New York University, New York, NY 1 Department of Food Science, University of Massachusetts, Amherst, Massachusetts, USA 2 Sensory Evaluation Center, The Pennsylvania State University, University Park, Pennsylvania, USA |
| AuthorAffiliation_xml | – name: 4 Department of Molecular Pathobiology, College of Dentistry, New York University, New York, NY – name: 1 Department of Food Science, University of Massachusetts, Amherst, Massachusetts, USA – name: 3 Department of Food Science, College of Agricultural Sciences, The Pennsylvania State University, University Park, Pennsylvania, USA – name: 2 Sensory Evaluation Center, The Pennsylvania State University, University Park, Pennsylvania, USA |
| Author_xml | – sequence: 1 givenname: Alissa A. surname: Nolden fullname: Nolden, Alissa A. organization: Department of Food Science, University of Massachusetts, Amherst, MA, USA – sequence: 2 givenname: Gabrielle surname: Lenart fullname: Lenart, Gabrielle organization: Sensory Evaluation Center, The Pennsylvania State University, University Park, Pennsylvania, USA – sequence: 3 givenname: Andrew I. surname: Spielman fullname: Spielman, Andrew I. organization: Department of Molecular Pathobiology, College of Dentistry, New York University, New York, NY, USA – sequence: 4 givenname: John E. orcidid: 0000-0001-9065-6326 surname: Hayes fullname: Hayes, John E. email: jeh40@psu.edu organization: Sensory Evaluation Center, The Pennsylvania State University, University Park, Pennsylvania, USA |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/38135109$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1016_j_foodres_2024_114889 crossref_primary_10_3390_cancers16030648 crossref_primary_10_1111_1541_4337_70126 crossref_primary_10_3390_pr12040662 crossref_primary_10_1016_j_foodqual_2025_105515 |
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| Keywords | Direct scaling Desensitization Hypoalgesia Oral burn Chemesthesis Capsaicin |
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| Snippet | •Participants rinsed with capsaicin ∼28 times over 2 weeks.•Capsaicin burn was reduced in the treatment group.•No changes were observed for sucrose, menthol,... Responses to capsaicin are reduced following repeated exposure, a phenomenon known as capsaicin desensitization. Heavy consumers of chilies consistently report... Responses to capsaicin are reduced following repeated exposure, a phenomenon known as capsaicin desensitization. Heavy consumers of chilies consistently report... |
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| SubjectTerms | Acrolein - analogs & derivatives Adult Capsaicin Capsaicin - pharmacology Chemesthesis Desensitization Direct scaling Ethanol Healthy Volunteers Humans Hypoalgesia Menthol - pharmacology Oral burn Sucrose |
| Title | Inducible desensitization to capsaicin with repeated low-dose exposure in human volunteers |
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