beta-Subunit 102-104 residues are crucial to confer FSH activity to equine LH/CG but are not sufficient to confer FSH activity to human CG.
Abstract: Horse LH/CG (eLH/CG) and donkey LH/CG (dkLH/CG) are strictly LH-specific in their respective homologous species. However, both bind to the FSH receptors from non-equid species, whereas the zebra hormone (zbLH/CG) does not. The FSH/LH ratio of eLH/CG and of the alphadkbetae hybrid is about tenfold higher than that of dkLH/CG and of the alphaebetadk hybrid, showing that the betae subunit contains the structural features responsible for the high FSH activity of eLH/CG. Only six amino acid positions (51, 94, 95, 102, 103 and 106) are unique to the betae subunit when compared with the betadk and betazb subunits. The Gly-Pro and Val-Phe sequences in positions 102-103 of betadk and betae respectively were swapped by site-directed mutations and the mutated beta-subunits cDNAs were cotransfected in COS cells with either alphae or alphadk subunit cDNA. Other mutations were also introduced in 102-103 dkLH/CG beta-subunit: Ala-Ala, Gly-Ala or Ala-Pro. These mutations with Ala-Ala, Gly-Ala or Ala-Pro in the 102-103 betadkLH/CG subunit did not change the FSH/LH ratio of dkLH/CG but the Gly(102)-Pro(103)-->Val(102)-Phe(103) mutation promoted a marked increase in the FSH/LH activity ratio. This was observed with the two heterodimers containing alphae or alphadk. Conversely, the Val(102)-Phe(103) mutation in betae led to a dramatic drop in FSH/LH activity ratio of eLH/CG, to a level similar to that of dkLH/CG. Since all FSHs possess a Gly residue at position 104, we introduced the Gly(102)-Pro(103)-Arg(104)-->Val(102)-Phe(103)-Gly(104) mutation in betadk with the expectation that the increase in FSH activity observed with the Gly(102)-Pro(103)-->Val(102)-Phe(103) mutation could be potentiated. In fact, the additional Arg(104)-->Gly(104) mutation was found to abolish the increase in FSH activity observed with Gly(102)-Pro(103)-->Val(102)-Phe(103). Mutations Gly(102)-Pro(103)-->Val(102)-Arg(103) or Gly(102)-Pro(103)-Lys(104)--> Val(102)-Arg(103)-Gly(104) were also introduced in human CGbeta (hCGbeta) to compare the impact of these amino acid changes in the well-studied gonadotrophin hCG. The betahCG mutants obtained, co-expressed either with the human or the horse alpha-subunit, did not display any FSH activity. In conclusion, the 102-104 sequence in eLH/CG beta-subunits appears to be of utmost importance for their binding to FSH receptors. However, these results obtained with equid beta-subunits are not transposable to other gonadotrophins as similar mutations in hCGbeta did not lead to any increase in FSH activity.
Publication Date: 2001-03-16 PubMed ID: 11250646DOI: 10.1677/joe.0.1690055Google Scholar: Lookup
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- Journal Article
Summary
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This study indicates that specific amino acid sequences (residues 102-104) in the beta-subunit of equine LH/CG hormones are crucial for their function, however, manipulating these sequences in human hormones does not yield the same results.
Understanding the Research
- The research revolved around understanding the role of specific amino acid sequences in different LH/CG (Luteinizing Hormone / Chorionic Gonadotropin) molecules in equines and humans.
- It was known that horse and donkey LH hormones (eLH/CG and dkLH/CG) are highly specific to their species while strangely also binding to FSH (Follicle-Stimulating Hormone) receptors of other species. Yet, Zebra LH (zbLH/CG), a close relative, does not possess the same ability.
Findings From Experiments
- The researchers found six unique amino acid positions in the eLH/CG beta subunit in horses when compared to donkeys and zebras. They suspected that these unique sequences facilitated the hormone’s high FSH binding activity.
- To study this further, researchers swapped certain amino acid sequences between dkLH/CG and eLH/CG at positions 102-103. Surprisingly, any form of mutation retaining characteristics of dkLH/CG did not alter the FSH/LH ratio. However, using eLH/CG sequences (Val(102)-Phe(103)) significantly increased FSH/LH activity ratio.
- The sequence swap had a converse effect when performed on eLH/CG, causing a dramatic drop in FSH/LH activity to levels similar to dkLH/CG.
- The team also experimented with introducing other amino acid mutations, including replacing Arginium (Arg) at position 104 with Glycine (Gly), which all FSHs possess. Unfortunately, this mutation negated any increase in FSH activity, which the Gly(102)-Pro(103)–>Val(102)-Phe(103) mutation had caused earlier.
Comparative Study With Human CG
- The implications of these changes were studied comparatively in human Chorionic Gonadotropin (hCG). Despite introducing the same mutations, the resulting hCG mutants showed no FSH activity.
- This clearly implied that the findings specific to equine LH/CG beta-subunits were not universally applicable to other gonadotrophins.
Conclusions
- The researchers concluded that the amino acid sequence at positions 102-104 in the eLH/CG beta subunits influences its binding to the FSH receptors.
- However, the findings specific to equine hormones are not universally applicable, as seen from the non-reactivity of hCG despite similar mutations.
Cite This Article
APA
Chopineau M, Martinat N, Galet C, Guillou F, Combarnous Y.
(2001).
beta-Subunit 102-104 residues are crucial to confer FSH activity to equine LH/CG but are not sufficient to confer FSH activity to human CG.
J Endocrinol, 169(1), 55-63.
https://doi.org/10.1677/joe.0.1690055 Publication
Researcher Affiliations
- Station de Physiologie de la Reproduction et des Comportements (PRC), Institut National de la Recherche Agronomique, UMR 6073, 37380 Nouzilly, France. chopinea@tours.inra.fr
MeSH Terms
- Animals
- Biological Assay
- COS Cells
- Chorionic Gonadotropin / genetics
- DNA Primers
- Enzyme-Linked Immunosorbent Assay
- Equidae / metabolism
- Follicle Stimulating Hormone / genetics
- Follicle Stimulating Hormone / metabolism
- Follicle Stimulating Hormone, beta Subunit
- Glycoprotein Hormones, alpha Subunit / genetics
- Humans
- Leydig Cells / drug effects
- Leydig Cells / metabolism
- Luteinizing Hormone / genetics
- Luteinizing Hormone / metabolism
- Male
- Mutagenesis, Site-Directed
- Rats
- Recombinant Proteins / metabolism
- Species Specificity
- Testosterone / biosynthesis
- Transfection
Citations
This article has been cited 5 times.- Lee SY, Byambaragchaa M, Choi SH, Kang HJ, Kang MH, Min KS. Roles of N-linked and O-linked glycosylation sites in the activity of equine chorionic gonadotropin in cells expressing rat luteinizing hormone/chorionic gonadotropin receptor and follicle-stimulating hormone receptor. BMC Biotechnol 2021 Sep 5;21(1):52.
- Byambaragchaa M, Park A, Gil SJ, Lee HW, Ko YJ, Choi SH, Kang MH, Min KS. Luteinizing hormone-like and follicle-stimulating hormone-like activities of equine chorionic gonadotropin β-subunit mutants in cells expressing rat luteinizing hormone/chorionic gonadotropin receptor and rat follicle-stimulating hormone receptor. Anim Cells Syst (Seoul) 2021;25(3):171-181.
- Min KS, Park JJ, Byambaragchaa M, Kang MH. Characterization of tethered equine chorionic gonadotropin and its deglycosylated mutants by ovulation stimulation in mice. BMC Biotechnol 2019 Aug 13;19(1):60.
- Byambaragchaa M, Lee SY, Kim DJ, Kang MH, Min KS. Signal Transduction of Eel Luteinizing Hormone Receptor (eelLHR) and Follicle Stimulating Hormone Receptor (eelFSHR) by Recombinant Equine Chorionic Gonadotropin (rec-eCG) and Native eCG. Dev Reprod 2018 Mar;22(1):55-64.
- Park JJ, Seong HK, Kim JS, Munkhzaya B, Kang MH, Min KS. Internalization of Rat FSH and LH/CG Receptors by rec-eCG in CHO-K1 Cells. Dev Reprod 2017 Jun;21(2):111-120.
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