Molecular evolutionary insights from PRLR in mammals

•PRLR-ICD variability and its structural features were selectively maintained.•Motif sequences were strongly maintained under purifying selection.•Adaptive or pre-adaptive elements may have emerged in Simiiformes: YLDP 318–321, Y283, and Y290. Prolactin (PRL) is a pleiotropic neurohormone secreted b...

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Published inGeneral and comparative endocrinology Vol. 309; p. 113791
Main Authors Paré, Pamela, Reales, Guillermo, Paixão-Côrtes, Vanessa R., Vargas-Pinilla, Pedro, Viscardi, Lucas Henriques, Fam, Bibiana, Pissinatti, Alcides, Santos, Fabrício R., Bortolini, Maria Cátira
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.08.2021
Subjects
Animals
Evolution, Molecular
Female
Intracellular signal
Mammals
Mammals - genetics
Mammals - metabolism
Molecular evolution
Pituitary Gland - metabolism
Prolactin - metabolism
Prolactin receptor
Receptors, Prolactin - genetics
Receptors, Prolactin - metabolism
Molecular evolution
Prolactin receptor
Mammals
Intracellular signal
Online AccessGet full text
ISSN0016-6480
1095-6840
1095-6840
DOI10.1016/j.ygcen.2021.113791

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Abstract •PRLR-ICD variability and its structural features were selectively maintained.•Motif sequences were strongly maintained under purifying selection.•Adaptive or pre-adaptive elements may have emerged in Simiiformes: YLDP 318–321, Y283, and Y290. Prolactin (PRL) is a pleiotropic neurohormone secreted by the mammalian pituitary gland into the blood, thus reaching many tissues and organs beyond the brain. PRL binds to its receptor, PRLR, eliciting a molecular signaling cascade. This system modulates essential mammalian behaviors and promotes notable modifications in the reproductive female tissues and organs. Here, we explore how the intracellular domain of PRLR (PRLR-ICD) modulates the expression of the PRLR gene. Despite differences in the reproductive strategies between eutherian and metatherian mammals, there is no clear distinction between PRLR-ICD functional motifs. However, we found selection signatures that showed differences between groups, with many conserved functional elements strongly maintained through purifying selection across the class Mammalia. We observed a few residues under relaxed selection, the levels of which were more pronounced in Eutheria and particularly striking in primates (Simiiformes), which could represent a pre-adaptive genetic element protected from purifying selection. Alternative, new motifs, such as YLDP (318–321) and others with residues Y283 and Y290, may already be functional. These motifs would have been co-opted in primates as part of a complex genetic repertoire related to some derived adaptive phenotypes, but these changes would have no impact on the primordial functions that characterize the mammals as a whole and that are related to the PRL-PRLR system.
AbstractList Prolactin (PRL) is a pleiotropic neurohormone secreted by the mammalian pituitary gland into the blood, thus reaching many tissues and organs beyond the brain. PRL binds to its receptor, PRLR, eliciting a molecular signaling cascade. This system modulates essential mammalian behaviors and promotes notable modifications in the reproductive female tissues and organs. Here, we explore how the intracellular domain of PRLR (PRLR-ICD) modulates the expression of the PRLR gene. Despite differences in the reproductive strategies between eutherian and metatherian mammals, there is no clear distinction between PRLR-ICD functional motifs. However, we found selection signatures that showed differences between groups, with many conserved functional elements strongly maintained through purifying selection across the class Mammalia. We observed a few residues under relaxed selection, the levels of which were more pronounced in Eutheria and particularly striking in primates (Simiiformes), which could represent a pre-adaptive genetic element protected from purifying selection. Alternative, new motifs, such as YLDP (318-321) and others with residues Y283 and Y290, may already be functional. These motifs would have been co-opted in primates as part of a complex genetic repertoire related to some derived adaptive phenotypes, but these changes would have no impact on the primordial functions that characterize the mammals as a whole and that are related to the PRL-PRLR system.Prolactin (PRL) is a pleiotropic neurohormone secreted by the mammalian pituitary gland into the blood, thus reaching many tissues and organs beyond the brain. PRL binds to its receptor, PRLR, eliciting a molecular signaling cascade. This system modulates essential mammalian behaviors and promotes notable modifications in the reproductive female tissues and organs. Here, we explore how the intracellular domain of PRLR (PRLR-ICD) modulates the expression of the PRLR gene. Despite differences in the reproductive strategies between eutherian and metatherian mammals, there is no clear distinction between PRLR-ICD functional motifs. However, we found selection signatures that showed differences between groups, with many conserved functional elements strongly maintained through purifying selection across the class Mammalia. We observed a few residues under relaxed selection, the levels of which were more pronounced in Eutheria and particularly striking in primates (Simiiformes), which could represent a pre-adaptive genetic element protected from purifying selection. Alternative, new motifs, such as YLDP (318-321) and others with residues Y283 and Y290, may already be functional. These motifs would have been co-opted in primates as part of a complex genetic repertoire related to some derived adaptive phenotypes, but these changes would have no impact on the primordial functions that characterize the mammals as a whole and that are related to the PRL-PRLR system.
•PRLR-ICD variability and its structural features were selectively maintained.•Motif sequences were strongly maintained under purifying selection.•Adaptive or pre-adaptive elements may have emerged in Simiiformes: YLDP 318–321, Y283, and Y290. Prolactin (PRL) is a pleiotropic neurohormone secreted by the mammalian pituitary gland into the blood, thus reaching many tissues and organs beyond the brain. PRL binds to its receptor, PRLR, eliciting a molecular signaling cascade. This system modulates essential mammalian behaviors and promotes notable modifications in the reproductive female tissues and organs. Here, we explore how the intracellular domain of PRLR (PRLR-ICD) modulates the expression of the PRLR gene. Despite differences in the reproductive strategies between eutherian and metatherian mammals, there is no clear distinction between PRLR-ICD functional motifs. However, we found selection signatures that showed differences between groups, with many conserved functional elements strongly maintained through purifying selection across the class Mammalia. We observed a few residues under relaxed selection, the levels of which were more pronounced in Eutheria and particularly striking in primates (Simiiformes), which could represent a pre-adaptive genetic element protected from purifying selection. Alternative, new motifs, such as YLDP (318–321) and others with residues Y283 and Y290, may already be functional. These motifs would have been co-opted in primates as part of a complex genetic repertoire related to some derived adaptive phenotypes, but these changes would have no impact on the primordial functions that characterize the mammals as a whole and that are related to the PRL-PRLR system.
Prolactin (PRL) is a pleiotropic neurohormone secreted by the mammalian pituitary gland into the blood, thus reaching many tissues and organs beyond the brain. PRL binds to its receptor, PRLR, eliciting a molecular signaling cascade. This system modulates essential mammalian behaviors and promotes notable modifications in the reproductive female tissues and organs. Here, we explore how the intracellular domain of PRLR (PRLR-ICD) modulates the expression of the PRLR gene. Despite differences in the reproductive strategies between eutherian and metatherian mammals, there is no clear distinction between PRLR-ICD functional motifs. However, we found selection signatures that showed differences between groups, with many conserved functional elements strongly maintained through purifying selection across the class Mammalia. We observed a few residues under relaxed selection, the levels of which were more pronounced in Eutheria and particularly striking in primates (Simiiformes), which could represent a pre-adaptive genetic element protected from purifying selection. Alternative, new motifs, such as YLDP (318-321) and others with residues Y283 and Y290, may already be functional. These motifs would have been co-opted in primates as part of a complex genetic repertoire related to some derived adaptive phenotypes, but these changes would have no impact on the primordial functions that characterize the mammals as a whole and that are related to the PRL-PRLR system.
ArticleNumber 113791
Author Pissinatti, Alcides
Santos, Fabrício R.
Bortolini, Maria Cátira
Fam, Bibiana
Viscardi, Lucas Henriques
Paré, Pamela
Paixão-Côrtes, Vanessa R.
Vargas-Pinilla, Pedro
Reales, Guillermo
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  surname: Santos
  fullname: Santos, Fabrício R.
  email: fsantos@icb.ufmg.br
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/33872604$$D View this record in MEDLINE/PubMed
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Keywords Molecular evolution
Prolactin receptor
Mammals
Intracellular signal
Language English
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Snippet •PRLR-ICD variability and its structural features were selectively maintained.•Motif sequences were strongly maintained under purifying selection.•Adaptive or...
Prolactin (PRL) is a pleiotropic neurohormone secreted by the mammalian pituitary gland into the blood, thus reaching many tissues and organs beyond the brain....
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SubjectTerms Animals
Evolution, Molecular
Female
Intracellular signal
Mammals
Mammals - genetics
Mammals - metabolism
Molecular evolution
Pituitary Gland - metabolism
Prolactin - metabolism
Prolactin receptor
Receptors, Prolactin - genetics
Receptors, Prolactin - metabolism
Title Molecular evolutionary insights from PRLR in mammals
URI https://www.clinicalkey.com/#!/content/1-s2.0-S0016648021000848
https://dx.doi.org/10.1016/j.ygcen.2021.113791
https://www.ncbi.nlm.nih.gov/pubmed/33872604
https://www.proquest.com/docview/2515685385
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