Your search keyword '"Prolactin-releasing peptide"' showing total 350 results

1. Novel implication of the prolactin (PRL) gene in the comorbidity of type 2 diabetes and depression.

Author

AMIN, M., WU, R., POSTOLACHE, T. T., and GRAGNOLI, C.

Abstract

OBJECTIVE: The prolactin (PRL) system plays important behavioral, social, and metabolic roles, such as mediating social bonding and insulin secretion. Inherited dysfunction of the PRL pathway-related genes is associated with psychopathology and insulin resistance. We have previously suggested that the PRL system might be implicated in the comorbidity of psychiatric (depression) and type 2 diabetes (T2D) owing to the pleiotropy of PRL pathway-related genes. To our knowledge, no PRL variants have so far been reported in patients with either major depressive disorder (MDD) and/or T2D. PATIENTS AND METHODS: In this study, we analyzed 6 variants within the PRL gene and tested them for the presence of parametric linkage and/or linkage disequilibrium (LD, i.e., linkage and association) with familial MDD, T2D, and their comorbidity. RESULTS: We found, for the first time, that the PRL gene and its novel risk variants are linked to and in LD (i.e., linkage and association) with familial MDD, T2D, and MDD-T2D comorbidity. CONCLUSIONS: PRL might play a key role in mental-metabolic comorbidity and can be considered a novel gene in MDD and T2D. [ABSTRACT FROM AUTHOR]

Published

2023

2. Lipidized PrRP Analog Exhibits Strong Anti-Obesity and Antidiabetic Properties in Old WKY Rats with Obesity and Glucose Intolerance.

Author

Mráziková, Lucia, Hojná, Silvie, Vaculová, Petra, Strnad, Štěpán, Vrkoslav, Vladimír, Pelantová, Helena, Kuzma, Marek, Železná, Blanka, Kuneš, Jaroslav, and Maletínská, Lenka

Abstract

Prolactin-releasing peptide (PrRP) is an anorexigenic neuropeptide that has potential for the treatment of obesity and its complications. Recently, we designed a palmitoylated PrRP31 analog (palm11-PrRP31) that is more stable than the natural peptide and able to act centrally after peripheral administration. This analog acted as an anti-obesity and glucose-lowering agent, attenuating lipogenesis in rats and mice with high-fat (HF) diet-induced obesity. In Wistar Kyoto (WKY) rats fed a HF diet for 52 weeks, we explored glucose intolerance, but also prediabetes, liver steatosis and insulin resistance-related changes, as well as neuroinflammation in the brain. A potential beneficial effect of 6 weeks of treatment with palm11-PrRP31 and liraglutide as comparator was investigated. Liver lipid profiles, as well as urinary and plasma metabolomic profiles, were measured by lipidomics and metabolomics, respectively. Old obese WKY rats showed robust glucose intolerance that was attenuated by palm11-PrRP31, but not by liraglutide treatment. On the contrary, liraglutide had a beneficial effect on insulin resistance parameters. Despite obesity and prediabetes, WKY rats did not develop steatosis owing to HF diet feeding, even though liver lipogenesis was enhanced. Plasma triglycerides and cholesterol were not increased by HFD feeding, which points to unincreased lipid transport from the liver. The liver lipid profile was significantly altered by a HF diet that remained unaffected by palm11-PrRP31 or liraglutide treatment. The HF-diet-fed WKY rats revealed astrogliosis in the brain cortex and hippocampus, which was attenuated by treatment. In conclusion, this study suggested multiple beneficial anti-obesity-related effects of palm11-PrRP31 and liraglutide in both the periphery and brain. [ABSTRACT FROM AUTHOR]

Published

2023

3. The Relation between Increasing Anxiety and Prolactin-Releasing Peptide in Rats.

Author

Ghazi Ghanim, K., Saab Kadhim, M., Hameed Abed Ali, B., and Jawad, R. A.

Subjects

PEPTIDES, ODORS, ANXIETY, RATS, ANIMAL cages, PITUITARY tumors

Abstract

PrRP, also known as prolactoliberin, is a bovine hypothalamic extract neurohormone that stimulates prolactin synthesis in a rat pituitary adenoma cell line and lactating rat pituitary cells. PrRP has been shown to control the intake of food and energy expenditure, but it may also have a role in stress sensitivity, reproduction, cardia productivity, secretion of endocrine components, and lately, neuroprotective characteristics, among others. The current study was performed to identify if prolactin-releasing peptide (PrRP) had any effect in increasing anxiety clinical features in rats as an animal model. The study included 114 Wistar handling-acclimated male rats (160 gm, 2 months old); divided randomly into three major groups. The rats were divided randomly into three major groups (38-control animals (38C), and 38-PrRP animals (38P), both were examined using the EPM test to test for stress-related signs, such as fear of height (5 mins duration for each rat). The maze was cleaned with water to eliminate the previous rat odor after the experiment for each rat was completed. The tests were performed between 13:00 to 17:00 of the day. Then, a week later, 38 (19-PrRP animals (19P) and 19-control animals (19C)) were examined using the SP test conducted between 13:00 to 16:00 of the day. Fifteen minutes before EPM, the 38C received intranasal 0.9%-10µl NaCl (per nostril), and 38P received intranasal 10-10mol/l-10 µl PrRP (per nostril), and the anxiety-related signs, such as time spent in open arms (less time means more anxious), during the EPM test were recorded. The 19P and 19C received 10-10mol/l-10µl PrRP and 0.9%-10µl NaCl, respectively, (intranasal, per nostril, and 15 minutes before the SP test, where a stranger rat was placed in a specific cage in front of each of the 19P and 19C animals in a separate cage, in which both cages provided visual and olfactory but no confrontational contact). The results showed that PrRP significantly (P<0.05) decreased the time spent by the treated rats on the open arms. In addition, PrRP revealed significant (P<0.05) decreases in the time spent close to the stranger rat, which means increased anxiety levels. The current findings revealed that prolactin-releasing peptide increases anxiety and decreases sociality in the studied male rats. [ABSTRACT FROM AUTHOR]

Published

2023

4. The role of nucleus of the solitary tract glucagon‐like peptide‐1 and prolactin‐releasing peptide neurons in stress: anatomy, physiology and cellular interactions.

Author

Holt, Marie K. and Rinaman, Linda

Subjects

*SOLITARY nucleus, *PEPTIDES, *NEURONS, *ANATOMY, *PHYSIOLOGY, *NEURAL circuitry

Abstract

Neuroendocrine, behavioural and autonomic responses to stressful stimuli are orchestrated by complex neural circuits. The caudal nucleus of the solitary tract (cNTS) in the dorsomedial hindbrain is uniquely positioned to integrate signals of both interoceptive and psychogenic stress. Within the cNTS, glucagon‐like peptide‐1 (GLP‐1) and prolactin‐releasing peptide (PrRP) neurons play crucial roles in organising neural responses to a broad range of stressors. In this review we discuss the anatomical and functional overlap between PrRP and GLP‐1 neurons. We outline their co‐activation in response to stressful stimuli and their importance as mediators of behavioural and physiological stress responses. Finally, we review evidence that PrRP neurons are downstream of GLP‐1 neurons and outline unexplored areas of the research field. Based on the current state‐of‐knowledge, PrRP and GLP‐1 neurons may be compelling targets in the treatment of stress‐related disorders. LINKED ARTICLES: This article is part of a themed issue on GLP1 receptor ligands (BJP 75th Anniversary). To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v179.4/issuetoc [ABSTRACT FROM AUTHOR]

Published

2022

5. Lipidized Prolactin-Releasing Peptide as a New Potential Tool to Treat Obesity and Type 2 Diabetes Mellitus: Preclinical Studies in Rodent Models.

Author

Mráziková, Lucia, Neprašová, Barbora, Mengr, Anna, Popelová, Andrea, Strnadová, Veronika, Holá, Lucie, Železná, Blanka, Kuneš, Jaroslav, and Maletínská, Lenka

Subjects

TYPE 2 diabetes, HIGH-fat diet, LEPTIN receptors, INSULIN resistance, MORBID obesity, OBESITY, METABOLIC syndrome

Abstract

Obesity and type 2 diabetes mellitus (T2DM) are preconditions for the development of metabolic syndrome, which is reaching pandemic levels worldwide, but there are still only a few anti-obesity drugs available. One of the promising tools for the treatment of obesity and related metabolic complications is anorexigenic peptides, such as prolactin-releasing peptide (PrRP). PrRP is a centrally acting neuropeptide involved in food intake and body weight (BW) regulation. In its natural form, it has limitations for peripheral administration; thus, we designed analogs of PrRP lipidized at the N-terminal region that showed high binding affinities, increased stability and central anorexigenic effects after peripheral administration. In this review, we summarize the preclinical results of our chronic studies on the pharmacological role of the two most potent palmitoylated PrRP31 analogs in various mouse and rat models of obesity, glucose intolerance, and insulin resistance. We used mice and rats with diet-induced obesity fed a high-fat diet, which is considered to simulate the most common form of human obesity, or rodent models with leptin deficiency or disrupted leptin signaling in which long-term food intake regulation by leptin is distorted. The rodent models described in this review are models of metabolic syndrome with different severities, such as obesity or morbid obesity, prediabetes or diabetes and hypertension. We found that the effects of palmitoylated PrRP31 on food intake and BW but not on glucose intolerance require intact leptin signaling. Thus, palmitoylated PrRP31 analogs have potential as therapeutics for obesity and related metabolic complications. [ABSTRACT FROM AUTHOR]

Published

2021

6. Lipidized Prolactin-Releasing Peptide as a New Potential Tool to Treat Obesity and Type 2 Diabetes Mellitus: Preclinical Studies in Rodent Models

Author

Lucia Mráziková, Barbora Neprašová, Anna Mengr, Andrea Popelová, Veronika Strnadová, Lucie Holá, Blanka Železná, Jaroslav Kuneš, and Lenka Maletínská

Subjects

prolactin-releasing peptide, rodent models, obesity, type 2 diabetes, leptin resistance, Therapeutics. Pharmacology, RM1-950

Abstract

Obesity and type 2 diabetes mellitus (T2DM) are preconditions for the development of metabolic syndrome, which is reaching pandemic levels worldwide, but there are still only a few anti-obesity drugs available. One of the promising tools for the treatment of obesity and related metabolic complications is anorexigenic peptides, such as prolactin-releasing peptide (PrRP). PrRP is a centrally acting neuropeptide involved in food intake and body weight (BW) regulation. In its natural form, it has limitations for peripheral administration; thus, we designed analogs of PrRP lipidized at the N-terminal region that showed high binding affinities, increased stability and central anorexigenic effects after peripheral administration. In this review, we summarize the preclinical results of our chronic studies on the pharmacological role of the two most potent palmitoylated PrRP31 analogs in various mouse and rat models of obesity, glucose intolerance, and insulin resistance. We used mice and rats with diet-induced obesity fed a high-fat diet, which is considered to simulate the most common form of human obesity, or rodent models with leptin deficiency or disrupted leptin signaling in which long-term food intake regulation by leptin is distorted. The rodent models described in this review are models of metabolic syndrome with different severities, such as obesity or morbid obesity, prediabetes or diabetes and hypertension. We found that the effects of palmitoylated PrRP31 on food intake and BW but not on glucose intolerance require intact leptin signaling. Thus, palmitoylated PrRP31 analogs have potential as therapeutics for obesity and related metabolic complications.

Published

2021

7. Effect of the administration of prolactin‐releasing peptide2 on feeding activity in the intertidal blenny Rhabdoblennius nitidus (Günther, 1861).

Author

Takegaki, Takeshi, Nakatake, Yosuke, and Amiya, Noriko

Subjects

*CANNIBALISM, *APPETITE, *EGGS, *PARENTS

Abstract

Prolactin‐releasing peptide2 (PrRP2) was administered intraperitoneally to male intertidal blenny Rhabdoblennius nitidus, a species with male uniparental care of eggs, to investigate the effect on their feeding activity. A significant inhibitory effect on appetite was observed in the breeding season, but not in the nonbreeding season. These results suggest that PrRP2 and PrRP2 receptors are more active during the breeding season. The presence of a mechanism to inhibit feeding activity while parents take care of their offspring may be important for the success of parental care. [ABSTRACT FROM AUTHOR]

Published

2020

8. Colocalized neurotransmitters in the hindbrain cooperate in adaptation to chronic hypernatremia.

Author

Matuska, Rita, Zelena, Dóra, Könczöl, Katalin, Papp, Rege Sugárka, Durst, Máté, Guba, Dorina, Török, Bibiana, Varnai, Peter, and Tóth, Zsuzsanna E.

Subjects

*RHOMBENCEPHALON, *TYROSINE hydroxylase, *DIABETES insipidus, *PARAVENTRICULAR nucleus, *SOLUTION (Chemistry)

Abstract

Chronic hypernatremia activates the central osmoregulatory mechanisms and inhibits the function of the hypothalamic–pituitary–adrenal (HPA) axis. Noradrenaline (NE) release into the periventricular anteroventral third ventricle region (AV3V), the supraoptic (SON) and hypothalamic paraventricular nuclei (PVN) from efferents of the caudal ventrolateral (cVLM) and dorsomedial (cDMM) medulla has been shown to be essential for the hypernatremia-evoked responses and for the HPA response to acute restraint. Notably, the medullary NE cell groups highly coexpress prolactin-releasing peptide (PrRP) and nesfatin-1/NUCB2 (nesfatin), therefore, we assumed they contributed to the reactions to chronic hypernatremia. To investigate this, we compared two models: homozygous Brattleboro rats with hereditary diabetes insipidus (DI) and Wistar rats subjected to chronic high salt solution (HS) intake. HS rats had higher plasma osmolality than DI rats. PrRP and nesfatin mRNA levels were higher in both models, in both medullary regions compared to controls. Elevated basal tyrosine hydroxylase (TH) expression and impaired restraint-induced TH, PrRP and nesfatin expression elevations in the cVLM were, however, detected only in HS, but not in DI rats. Simultaneously, only HS rats exhibited classical signs of chronic stress and severely blunted hormonal reactions to acute restraint. Data suggest that HPA axis responsiveness to restraint depends on the type of hypernatremia, and on NE capacity in the cVLM. Additionally, NE and PrRP signalization primarily of medullary origin is increased in the SON, PVN and AV3V in HS rats. This suggests a cooperative action in the adaptation responses and designates the AV3V as a new site for PrRP's action in hypernatremia. [ABSTRACT FROM AUTHOR]

Published

2020

9. Synergistic effect of leptin and lipidized PrRP on metabolic pathways in ob/ob mice.

Author

Kořínková, Lucia, Holubová, Martina, Neprašová, Barbora, Hrubá, Lucie, Pražienková, Veronika, Bencze, Michal, Haluzík, Martin, Kuneš, Jaroslav, Maletínská, Lenka, and Železná, Blanka

Subjects

*LEPTIN, *PROTEIN kinases, *BLOOD sugar, *MICE, *BODY weight

Abstract

Lack of leptin production in ob/ob mice results in obesity and prediabetes that could be partly reversed by leptin supplementation. In the hypothalamus, leptin supports the production of prolactin-releasing peptide (PrRP), an anorexigenic neuropeptide synthesized and active in the brain. In our recent studies, the palmitoylated PrRP analog palm11-PrRP31 showed a central anorexigenic effect after peripheral administration. This study investigates whether PrRP could compensate for the deficient leptin in ob/ob mice. In two separate experiments, palm11-PrRP31 (5 mg/kg) and leptin (5 or 10 µg/kg) were administered subcutaneously twice daily for 2 or 8 weeks to 8- (younger) or 16-(older) week-old ob/ob mice, respectively, either separately or in combination. The body weight decreasing effect of palm11-PrRP31 in both younger and older ob/ob mice was significantly powered by a subthreshold leptin dose, the combined effect could be then considered synergistic. Leptin and palm11-PrRP31 also synergistically lowered liver weight and blood glucose in younger ob/ob mice. Reduced liver weight was linked to decreased mRNA expression of lipogenic enzymes. In the hypothalamus of older ob/ob mice, two main leptin anorexigenic signaling pathways, namely, Janus kinase, signal transducer and activator of transcription-3 activation and AMP-activated protein kinase de-activation, were induced by leptin, palm11-PrRP31, and their combination. Thus, palm11-PrRP31 could partially compensate for leptin deficiency in ob/ob mice. In conclusion, the results demonstrate a synergistic effect of leptin and our lipidized palm11-PrRP31 analog. [ABSTRACT FROM AUTHOR]

Published

2020

10. Identification of hypothalamic genes in associating with food intake during incubation behavior in domestic chicken.

Author

Takeda, Misa and Ohkubo, Takeshi

Subjects

*FOOD consumption, *ANOREXIA nervosa, *CHICKENS, *GENES, *GENE expression, *HENS, *PROLACTIN

Abstract

The molecular mechanism underlying in the onset and maintenance of incubation behavior are not fully understood, and it is still unknown the reason why White Leghorn, a layer strain, hens never display incubation behavior. Therefore, to explore specific hypothalamic genes regulating incubation behavior, cap analysis of gene expression (CAGE) were applied to comparison between incubating Silkie and laying White Leghorn hens. In addition, mRNA expression of some differentially expressed genes (DEGs) and melanocortinergic appetite genes including agouti‐related peptide (AgRP) and pro‐opiomelanocortin (POMC) was also analyzed on Silkie hens under natural anorexia and starvation. The CAGE identified 217 hypothalamic DEGs in incubating Silkie hens, and that of two, transthyretin (TTR) and prolactin‐releasing peptide (PrRP), suggested as appetite gene, were markedly up– and down‐regulated in incubating hens, respectively. In addition, AgRP and POMC expression also increased in incubating bird. mRNA expression of TTR, PrRP, and appetite genes were not differed significantly by starvation, although TTR mRNA expression was relatively high in fasting hens. Consequently, transcriptome by CAGE identified a number of hypothalamic genes differentially expressed by incubation behavior in Silkie hens. Of these, it is suggested that TTR and PrRP may, at least in part, be related to adaptation to natural anorexia in incubating Silkie chickens. [ABSTRACT FROM AUTHOR]

Published

2019

11. Prolactin-releasing peptide increases rat anxiety

Author

D. A. Zhukov, A. G. Markov, and E. P. Vinogradova

Subjects

Prolactin-Releasing Hormone, medicine.medical_specialty, Behavior, Animal, business.industry, Endocrinology, Diabetes and Metabolism, Prolactin-releasing peptide, Central nervous system, Anxiety, Prolactin, Rats, Endocrinology, medicine.anatomical_structure, Internal medicine, medicine, Animals, Rats, Wistar, medicine.symptom, business

Abstract

BACKGROUND: Prolactin-releasing peptide(Prl-RP), in addition to stimulating the production of prolactin, interacts with various parts of the central nervous system, participating in the implementation of many functions that are reflected in behavior.AIM: The effect of Prl-RP on the anxiety of white Wistar rats was studied since there were no data in the literature on the relationship between Prl-RP and anxiety.MATERIALS AND METHODS: Anxiety was assessed in two tests. In the elevated plus-maze (EPM), the time spent in the open arms and the number of edge reactions were recorded. In the social preference test, the time spent near a stranger, near a familiar individual, and in neutral territory were recorded.RESULTS: The administration of Prl-RP at a dose of 10-10 M with a volume of 10 µl in each nostril reduced the time spent by the animals in the open arms of the EPM, and the number of edge reactions. For testing the social interaction, animals were pre-selected for high or low levels of anxiety in the EPM. In rats with initially low levels of anxiety, Prl-RP reduced the time spent near a stranger, indicating an increase in anxiety levels. The behavior of rats with initially high levels of anxiety did not change after application of the Prl-RP.CONCLUSION: The results of our experiments indicate that the intranasal administration of Prl-RP increases the anxiety of rats.

Published

2021

12. Lipidized PrRP Analog Exhibits Strong Anti-Obesity and Antidiabetic Properties in Old WKY Rats with Obesity and Glucose Intolerance

Author

Lucia Mráziková, Silvie Hojná, Petra Vaculová, Štěpán Strnad, Vladimír Vrkoslav, Helena Pelantová, Marek Kuzma, Blanka Železná, Jaroslav Kuneš, and Lenka Maletínská

Subjects

Nutrition and Dietetics, diet-induced obesity, Wistar Kyoto rats, glucose intolerance, prolactin-releasing peptide, liraglutide, lipid metabolism, astrocytosis, lipidomics, metabolomics, Food Science

Abstract

Prolactin-releasing peptide (PrRP) is an anorexigenic neuropeptide that has potential for the treatment of obesity and its complications. Recently, we designed a palmitoylated PrRP31 analog (palm11-PrRP31) that is more stable than the natural peptide and able to act centrally after peripheral administration. This analog acted as an anti-obesity and glucose-lowering agent, attenuating lipogenesis in rats and mice with high-fat (HF) diet-induced obesity. In Wistar Kyoto (WKY) rats fed a HF diet for 52 weeks, we explored glucose intolerance, but also prediabetes, liver steatosis and insulin resistance-related changes, as well as neuroinflammation in the brain. A potential beneficial effect of 6 weeks of treatment with palm11-PrRP31 and liraglutide as comparator was investigated. Liver lipid profiles, as well as urinary and plasma metabolomic profiles, were measured by lipidomics and metabolomics, respectively. Old obese WKY rats showed robust glucose intolerance that was attenuated by palm11-PrRP31, but not by liraglutide treatment. On the contrary, liraglutide had a beneficial effect on insulin resistance parameters. Despite obesity and prediabetes, WKY rats did not develop steatosis owing to HF diet feeding, even though liver lipogenesis was enhanced. Plasma triglycerides and cholesterol were not increased by HFD feeding, which points to unincreased lipid transport from the liver. The liver lipid profile was significantly altered by a HF diet that remained unaffected by palm11-PrRP31 or liraglutide treatment. The HF-diet-fed WKY rats revealed astrogliosis in the brain cortex and hippocampus, which was attenuated by treatment. In conclusion, this study suggested multiple beneficial anti-obesity-related effects of palm11-PrRP31 and liraglutide in both the periphery and brain.

Published

2023

13. Lipidované analogy peptidu uvolňujícího prolaktin jako potenciální antiobezitika: zkoumání mechanizmu účinku

Author

Karnošová, Alena, Maletínská, Lenka, Žáková, Lenka, and Janovská, Petra

Subjects

prolactin-releasing peptide, analogs, GPCR, obesity, cell signaling, GPR10 and NPFFR2 knock-out mice, peptid uvolňující prolaktin, analogy, obezita, buněčná signalizace, myšis vyřazeným genem pro GPR10 a NPFFR2

Abstract

Obesity is a common metabolic condition that is becoming more prevalent globally, but current treatments have limitations. Prolactin-releasing peptide (PrRP), a neuropeptide that reduces food intake after administration to the third ventricle, loses this ability when administered peripherally. However, lipidization of peptides enhances their stability in the bloodstream and facilitates their central effect after peripheral administration. We developed lipidized analogs of PrRP, which have high potential as a treatment option for obesity. We previously demonstrated that peripheral administration of lipidized PrRP analogs led to a substantial reduction in food intake and body weight in mice, with palm-PrRP31 and palm11 -PrRP31 emerging as key analogs. In this study, we aimed to further investigate the mechanisms underlying the effects of these two PrRP31 analogs in vitro. Natural PrRP31 binds to its receptor GPR10 and with high affinity to neuropeptide FF receptor type 2 (NPFFR2), which are both expressed in regions involved in food intake regulation. The palmitoylation of PrRP31 increased their binding and agonist properties for both GPR10 and NPFFR2 receptors. Lipidized analogs exhibited a stronger affinity also for another neuropeptide FF receptor, NPFFR1, suggesting that NPFFR1 could be a new potential...

Published

2023

14. Lipidized Prolactin-Releasing Peptide Agonist Attenuates Hypothermia-Induced Tau Hyperphosphorylation in Neurons.

Author

Pražienková, Veronika, Schirmer, Claire, Holubová, Martina, Železná, Blanka, Kuneš, Jaroslav, Galas, Marie-Christine, and Maletínská, Lenka

Subjects

*NEUROFIBRILLARY tangles, *TAU proteins, *ALZHEIMER'S disease, *INDUCED hypothermia, *AMYLOID plaque, *THERAPEUTICS, *NEURODEGENERATION

Abstract

Alzheimer's disease (AD) is one of the most prevalent neurodegenerative diseases, characterized by the accumulation of extracellular amyloid plaques and intraneuronal neurofibrillary tangles. These tangles mainly consist of hyperphosphorylated tau protein. As it induces tau hyperphosphorylation in vitro and in vivo, hypothermia is a useful tool for screening potential neuroprotective compounds that ameliorate tau pathology. In this study, we examined the effect of prolactin-releasing peptide (PrRP), its lipidized analog palm11-PrRP31 and glucagon-like-peptide-1 agonist liraglutide, substances with anorexigenic and antidiabetic properties, on tau phosphorylation and on the main kinases and phosphatases involved in AD development. Our study was conducted in a neuroblastoma cell line SH-SY5Y and rat primary neuronal cultures under normothermic and hypothermic conditions. Hypothermia induced a significant increase in tau phosphorylation at the pThr212 and pSer396/pSer404 epitopes. The palmitoylated analogs liraglutide and palm11-PrRP31 attenuated tau hyperphosphorylation, suggesting their potential use in the treatment of neurodegenerative diseases. [ABSTRACT FROM AUTHOR]

Published

2019

15. GLP‐1 neurons form a local synaptic circuit within the rodent nucleus of the solitary tract.

Author

Card, J. Patrick, Johnson, Aaron L., Llewellyn‐Smith, Ida J., Zheng, Huiyuan, Anand, Rishi, Brierley, Daniel I., Trapp, Stefan, and Rinaman, Linda

Abstract

Glutamatergic neurons that express pre‐proglucagon (PPG) and are immunopositive (+) for glucagon‐like peptide‐1 (i.e., GLP‐1+ neurons) are located within the caudal nucleus of the solitary tract (cNTS) and medullary reticular formation in rats and mice. GLP‐1 neurons give rise to an extensive central network in which GLP‐1 receptor (GLP‐1R) signaling suppresses food intake, attenuates rewarding, increases avoidance, and stimulates stress responses, partly via GLP‐1R signaling within the cNTS. In mice, noradrenergic (A2) cNTS neurons express GLP‐1R, whereas PPG neurons do not. In this study, confocal microscopy in rats confirmed that prolactin‐releasing peptide (PrRP)+ A2 neurons are closely apposed by GLP‐1+ axonal varicosities. Surprisingly, GLP‐1+ appositions were also observed on dendrites of PPG/GLP‐1+ neurons in both species, and electron microscopy in rats revealed that GLP‐1+ boutons form asymmetric synaptic contacts with GLP‐1+ dendrites. However, RNAscope confirmed that rat GLP‐1 neurons do not express GLP‐1R mRNA. Similarly, Ca2+ imaging of somatic and dendritic responses in mouse ex vivo slices confirmed that PPG neurons do not respond directly to GLP‐1, and a mouse crossbreeding strategy revealed that <1% of PPG neurons co‐express GLP‐1R. Collectively, these data suggest that GLP‐1R signaling pathways modulate the activity of PrRP+ A2 neurons, and also reveal a local "feed‐forward" synaptic network among GLP‐1 neurons that apparently does not use GLP‐1R signaling. This local GLP‐1 network may instead use glutamatergic signaling to facilitate dynamic and potentially selective recruitment of GLP‐1 neural populations that shape behavioral and physiological responses to internal and external challenges. Confocal imaging of dual immunfluorescent labeling for prolactin‐releasing peptide (PrRP; magenta) and glucagon‐like peptide‐1 (GLP‐1; green) within the rat caudal nucleus of the solitary tract. This study reveals that GLP‐1+ axon terminals contact both PrRP and GLP‐1 neurons, but only PrRP neurons express mRNA for GLP‐1 receptor. [ABSTRACT FROM AUTHOR]

Published

2018

16. Repeated peripheral administration of lipidized prolactin-releasing peptide analog induces c-fos and FosB expression in neurons of dorsomedial hypothalamic nucleus in male C57 mice.

Author

Pirník, Zdenko, Kolesárová, Mária, Železná, Blanka, and Maletínská, Lenka

Subjects

*HOMEOSTASIS, *HYPOTHALAMIC hormones, *PROLACTIN, *IMMUNOHISTOCHEMISTRY, *HYPOTHALAMUS

Abstract

Previous studies indicate that hypothalamic prolactin-releasing peptide (PrRP), signaling via GPR10 and neuropeptide FF2 receptor, is involved in energy homeostasis, stress responses, and cardiovascular regulation. Energy homeostasis depends on the balance between food intake regulation and energy expenditure, in which the hypothalamus plays a key role. The lipidization of PrRP31 with palmitoyl acid allows it to produce its anorexigenic effect after repeated peripheral administration and to reduce body weight and improve metabolic parameters in diet-induced obese (DIO) mice. The aim of this study was to reveal the transient and long-lasting changes in neuronal activity via c-Fos and FosB immunohistochemistry in brain nuclei related to food intake regulation and energy homeostasis during the first days of treatment with a newly designed lipidized analog of PrRP31 (palm 11 -PrRP31) with promising antiobesity effects. The data revealed that the anorexigenic effect of repeated application of palm 11 -PrRP31 was associated with delayed but gradually significantly reduced cumulative food intake in mice as well as with a significant reduction in their body weight. Moreover, while the repeated application of palm 11 -PrRP31 was associated with a significant reduction in acute cell activity in the paraventricular hypothalamic nucleus (PVN) and nucleus of the solitary tract (NTS) compare to its acute treatment, both acute and long-lasting cell activity in the dorsomedial hypothalamic nucleus (DMN) were increased. The data indicate that DMN neurons might be tonically activated after repeated administration of lipidized PrRP analogs that may be associated with the process of long-term adaptation to modified energy homeostasis. [ABSTRACT FROM AUTHOR]

Published

2018

17. Cholecystokinin system is involved in the anorexigenic effect of peripherally applied palmitoylated prolactin-releasing peptide in fasted mice

Author

Blanka Železná, Jaroslav Kuneš, Lucia Kořínková, Maletínská L, Jana Osacka, and Zdenko Pirník

Subjects

Male, Agonist, medicine.medical_specialty, Physiology, medicine.drug_class, Injections, Subcutaneous, Prolactin-releasing peptide, Devazepide, Sincalide, Eating, Hormone Antagonists, Internal medicine, Appetite Depressants, Solitary Nucleus, medicine, Animals, Receptor, Cholecystokinin, Prolactin-Releasing Hormone, Chemistry, digestive, oral, and skin physiology, Antagonist, Solitary tract, Fasting, Feeding Behavior, Articles, General Medicine, Peptide Fragments, Mice, Inbred C57BL, Endocrinology, nervous system, Chemokines, CC, Cell activation, Proto-Oncogene Proteins c-fos, Injections, Intraperitoneal, hormones, hormone substitutes, and hormone antagonists, Paraventricular Hypothalamic Nucleus, Signal Transduction

Abstract

Prolactin-releasing peptide (PrRP) has been proposed to mediate the central satiating effects of cholecystokinin (CCK) through the vagal CCK1 receptor. PrRP acts as an endogenous ligand of G protein-coupled receptor 10 (GPR10), which is expressed at the highest levels in brain areas related to food intake regulation, e.g., the paraventricular hypothalamic nucleus (PVN) and nucleus of the solitary tract (NTS). The NTS and PVN are also significantly activated after peripheral CCK administration. The aim of this study was to determine whether the endogenous PrRP neuronal system in the brain is involved in the central anorexigenic effect of the peripherally administered CCK agonist JMV236 or the CCK1 antagonist devazepide and whether the CCK system is involved in the central anorexigenic effect of the peripherally applied lipidized PrRP analog palm-PrRP31 in fasted lean mice. The effect of devazepide and JMV236 on the anorexigenic effects of palm-PrRP31 as well as devazepide combined with JMV236 and palm-PrRP31 on food intake and Fos cell activation in the PVN and caudal NTS was examined. Our results suggest that the anorexigenic effect of JMV236 is accompanied by activation of PrRP neurons of the NTS in a CCK1 receptor-dependent manner. Moreover, while the anorexigenic effect of palm-PrRP31 was not affected by JMV236, it was partially attenuated by devazepide in fasted mice. The present findings indicate that the exogenously influenced CCK system may be involved in the central anorexigenic effect of peripherally applied palm-PrRP31, which possibly indicates some interaction between the CCK and PrRP neuronal systems.

Published

2021

18. Protective effect of Prolactin releasing peptide against 1,2-diacetylbenzene -induced neuroinflammation.

Author

Hoang, Ngoc Minh Hong, Jo, Wonhee, and Kim, Min-Sun

Abstract

Prolactin-releasing peptide (PrRP) has been investigated as a potential therapeutic for diabetes by the effect of food intake reduction, increasing leptin signaling, and insulin tolerance. Recent studies focused on its synaptogenesis and protective effects against neurodegeneration. Whereas 1,2-diacetylbenzene (DAB), a common metabolite of a neurotoxicant 1,2-diethyl benzene, causes memory impairment and neurotoxicity partly through the inflammatory process. Our present study assessed the effect of PrRP in microglia and its action in balancing the inflammation to protect against DAB. We observed that PrRP modulated NADPH oxidase - regulated NLRP3 inflammasome and PRL signaling pathways differently between physical and toxic conditions in microglia. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

19. Regulation of Hypothalamo-Pituitary-Adrenocortical Responses to Stressors by the Nucleus of the Solitary Tract/Dorsal Vagal Complex.

Author

Herman, James P.

Subjects

*HYPOTHALAMIC-pituitary-thyroid axis, *RHOMBENCEPHALON, *SOLITARY nucleus, *BRAIN anatomy, *NORADRENERGIC neurons, *CORTICOTROPIN releasing hormone

Abstract

Hindbrain neurons in the nucleus of the solitary tract (NTS) are critical for regulation of hypothalamo-pituitary-adrenocortical (HPA) responses to stress. It is well known that noradrenergic (as well as adrenergic) neurons in the NTS send direct projections to hypophysiotropic corticotropin-releasing hormone (CRH) neurons and control activation of HPA axis responses to acute systemic (but not psychogenic) stressors. Norepinephrine (NE) signaling via alpha1 receptors is primarily excitatory, working either directly on CRH neurons or through presynaptic activation of glutamate release. However, there is also evidence for NE inhibition of CRH neurons (possibly via beta receptors), an effect that may occur at higher levels of stimulation, suggesting that NE effects on the HPA axis may be context-dependent. Lesions of ascending NE inputs to the paraventricular nucleus attenuate stress-induced ACTH but not corticosterone release after chronic stress, indicating reduction in central HPA drive and increased adrenal sensitivity. Non-catecholaminergic NTS glucagon-like peptide 1/glutamate neurons play a broader role in stress regulation, being important in HPA activation to both systemic and psychogenic stressors as well as HPA axis sensitization under conditions of chronic stress. Overall, the data highlight the importance of the NTS as a key regulatory node for coordination of acute and chronic stress. [ABSTRACT FROM AUTHOR]

Published

2018

20. RFamide Peptides: Structure, Function, Mechanisms and Pharmaceutical Potential

Author

Maria Findeisen, Annette G. Beck-Sickinger, and Daniel Rathmann

Subjects

RFamide, neuropeptide FF, kisspeptin, prolactin-releasing peptide, QRFP, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Different neuropeptides, all containing a common carboxy-terminal RFamide sequence, have been characterized as ligands of the RFamide peptide receptor family. Currently, five subgroups have been characterized with respect to their N-terminal sequence and hence cover a wide pattern of biological functions, like important neuroendocrine, behavioral, sensory and automatic functions. The RFamide peptide receptor family represents a multiligand/multireceptor system, as many ligands are recognized by several GPCR subtypes within one family. Multireceptor systems are often susceptible to cross-reactions, as their numerous ligands are frequently closely related. In this review we focus on recent results in the field of structure-activity studies as well as mutational exploration of crucial positions within this GPCR system. The review summarizes the reported peptide analogs and recently developed small molecule ligands (agonists and antagonists) to highlight the current understanding of the pharmacophoric elements, required for affinity and activity at the receptor family. Furthermore, we address the biological functions of the ligands and give an overview on their involvement in physiological processes. We provide insights in the knowledge for the design of highly selective ligands for single receptor subtypes to minimize cross-talk and to eliminate effects from interactions within the GPCR system. This will support the drug development of members of the RFamide family.

Published

2011

21. Neuroprotective effects of novel anorexigenic analogs of prolactin-releasing peptide (PrRP) in models of neurodegeneration in vitro and in vivo

Author

Mengr, Anna, Maletínská, Lenka, Sumová, Alena, and Hampl, Aleš

Subjects

neuronální buněčné kultury, neurodegeneration, prolactin-releasing peptide, neuronal cell culture, neurodegenerace, myší modely, peptid uvolňující prolaktin, mouse models

Abstract

Alzheimer's disease (AD) is a progressive brain disorder characterized by extracellular beta amyloid (Aβ) plaques, intracellular neurofibrillary tangles formed by hyperphosphorylated Tau protein and neuroinflammation. Since obesity and type 2 diabetes mellitus (T2DM) have been established as risk factors for the development of neurological disorders, anorexigenic and antidiabetic peptides, such as prolactin-releasing peptide (PrRP) seem to be potential neuroprotective agents. In the first part of the study, the molecular mechanisms of action of natural PrRP31 and its lipidized analog palm11 -PrRP31 was studied in the human neuroblastoma cell line SH-SY5Y. Both compounds significantly activated the signaling pathways typical for insulin promoting cell survival and growth. Moreover, PrRP31 and palm11 -PrRP31 increased cell viability and suppressed apoptosis in methylglyoxal-stressed SH-SY5Y cells. The second part of the thesis was focused on the neuroprotective and anti-inflammatory effects of 2-month-long subcutaneous administration of palm11 -PrRP31 in the brains of APP/PS1 mice, model of Aβ pathology. Palm11 -PrRP31 significantly reduced the Aβ plaque load and microgliosis in the hippocampi, cortices, and cerebella. Furthermore, palm11 -PrRP31 increased the synaptogenesis and attenuated...

Published

2022

22. Effects of stable analogs of anorexigenic neuropeptides in models of metabolic syndrome

Author

Mráziková, Lucia, Maletínská, Lenka, Kříž, Jan, and Bardová, Kristina

Subjects

lipidizace, prolactin-releasing peptide, myší a potkaní modely, lipidization, metabolický syndrom, mouse and rat models, metabolic syndrome, peptid uvolňující prolaktin

Abstract

Obesity is a worldwide health problem and an effective treatment is still scarce. Anorexigenic neuropeptides, such as prolactin-releasing peptide (PrRP), have a potential for the treatment of obesity and its complications, but in their natural form they have several limitations such as poor bioavailability, low stability and inability to cross the blood-brain barrier after peripheral administration. Recently we have designed lipidized analogs of PrRP. Lipidization makes this peptide more stable and able to act centrally after peripheral administration. The aim of this study was to investigate the chronic effect of PrRP palmitoylated at position 11 (palm11 -PrRP31) on obesity and obesity-related metabolic parameters and to clarify mechanisms of its action. We used three rodent models of obesity: Wistar Kyoto (WKY) rats with high-fat diet-induced obesity (DIO) having intact leptin and leptin receptor as well as rodents with disrupted leptin function: leptin deficient ob/ob mice and fa/fa rats with a disturbed leptin signaling. Consumption of a high-fat diet in DIO WKY rats increased their body weight, caused strong glucose intolerance and increased liver mRNA expression of enzymes of de novo lipogenesis. Palm11 -PrRP31 treatment significantly decreased cumulative food intake, body weight, plasma...

Published

2022

23. Search for lipidized PrRP analogs with strong anorexigenic effect: In vitro and in vivo studies.

Author

Strnadová, Veronika, Karnošová, Alena, Blechová, Miroslava, Neprašová, Barbora, Holá, Lucie, Němcová, Anna, Myšková, Aneta, Sýkora, David, Železná, Blanka, Kuneš, Jaroslav, and Maletínská, Lenka

Abstract

Prolactin-releasing peptide (PrRP) is an anorexigenic neuropeptide that attenuates food intake and increases energy expenditure. We designed three series of new lipidized PrRP31 analogs of different lengths of fatty acids attached at amino acids 1 or 11 directly or via linkers, part of them acetylated at the N-terminus and/or modified with dichlorophenylalanine (PheCl 2) at the C-terminus. We tested their affinity for and activation of signaling pathways relevant to receptors GPR10, NPFF-R2, and NPFF-R1, effect on food intake in fasted or freely fed mice and rats, and stability in rat plasma. We aimed to select a strong dual GPR10/NPFF-R2 agonist whose affinity for NPFF-1 was not enhanced. The selected potent analog was then tested for body weight-lowering potency after chronic administration in mice with diet-induced obesity. PrRP31 analogs lipidized by monocarboxylic fatty acids showed strong dual affinity for both GPR10 and NPFF-R2 and activated MAPK/ERK1/2, Akt and CREB in cells overexpressing GPR10 and NPFF-R2. The selected analog stabilized at N- and C-termini and palmitoylated through the TTDS linker to Lys11 is a powerful dual agonist GPR10/NPFF-R2 at not enhanced affinity for NPFF-R1. It showed strong anti-obesity properties in mice with diet-induced obesity and became a potential compound for further studies. • Palmitoylated PrRP31 analogs show strong affinity for GPR10 and NPFF-R2 receptors. • These lipidized PrRP31 analogs have a strong anorexigenic effect. • PrRP31 analogs with hexadecanedioic acid have lowered affinity and in vivo potency. • The most potent analog revealed strong anti-obesity properties. • Dual GPR10/NPFF-R2 agonism is needed for anorexigenic effect [ABSTRACT FROM AUTHOR]

Published

2023

24. Prolactin-releasing peptide: a new tool for obesity treatment.

Author

Kuneš, Jaroslav, Pražienková, Veronika, Popelová, Andrea, Mikulášková, Barbora, Zemenová, Jana, and Maletínská, Lenka

Subjects

*PROLACTIN, *GONADOTROPIN, *PROTEIN hormones, *LACTATION, *WEIGHT loss

Abstract

Obesity is an escalating epidemic, but an effective noninvasive therapy is still scarce. For obesity treatment, anorexigenic neuropeptides are promising tools, but their delivery from the periphery to the brain is complicated because peptides have a low stability and limited ability to cross the blood-brain barrier. In this review, we summarize results of several studies with our newly designed lipidized analogs of prolactin-releasing peptide (PrRP). PrRP is involved in feeding and energy balance regulation as demonstrated by obesity phenotypes of both PrRP- and PrRP-receptor-knockout mice. Lipidized PrRP analogs showed binding affinity and signaling in PrRP receptor-expressing cells similar to natural PrRP. Moreover, these analogs showed high binding affinity also to anorexigenic neuropeptide FF (NPFF)-2 receptor. Acute peripheral administration of myristoylated and palmitoylated PrRP analogs to mice and rats induced strong and long-lasting anorexigenic effects and neuronal activation in the brain areas involved in food intake regulation. Two-week-long subcutaneous administration of palmitoylated PrRP31 and myristoylated PrRP20 lowered food intake, body weight, improved metabolic parameters and attenuated lipogenesis in mice with diet-induced obesity. A strong anorexigenic, body weight-reducing and glucose tolerance-improving effect of palmitoylated-PrRP31 was shown also in diet-induced obese rats after its repeated 2-week-long peripheral administration. Thus, the strong anorexigenic and body weight-reducing effects of palmitoylated PrRP31 and myristoylated PrRP20 make these analogs attractive candidates for antiobesity treatment. Moreover, PrRP receptor might be a new target for obesity therapy. [ABSTRACT FROM AUTHOR]

Published

2016

25. Palmitoylated PrRP analog decreases body weight in DIO rats but not in ZDF rats.

Author

Holubová, Martina, Zemenová, Jana, Mikulášková, Barbora, Panajotova, Vladimíra, Stöhr, Jiří, Haluzík, Martin, Kuneš, Jaroslav, Železná, Blanka, and Maletínská, Lenka

Subjects

*PALMITOYLATION, *BODY weight, *APPETITE depressants, *BLOOD-brain barrier, *LABORATORY rats, *LEPTIN, *ADIPOSE tissues

Abstract

Anorexigenic neuropeptides produced and acting in the brain have the potential to decrease food intake and ameliorate obesity, but are ineffective after peripheral application, owing to a limited ability to cross the blood-brain barrier. We have designed lipidized analogs of prolactin-releasing peptide (PrRP), which is involved in energy balance regulation as demonstrated by obesity phenotypes of both Prrp-knockout and Prrp receptor-knockout mice. The aim of this study was to characterize the subchronic effect of a palmitoylated PrRP analog in two rat models of obesity and diabetes: diet-induced obese Sprague-Dawley rats and leptin receptor-deficient Zucker diabetic (ZDF) rats. In the rats with diet-induced obesity (DIO), a two-week intraperitoneal treatment with palmitoylated PrRP lowered food intake by 24% and body weight by 8%. This treatment also improved glucose tolerance and tended to decrease leptin levels and adipose tissue masses in a dose-dependent manner. In contrast, in ZDF rats, the same treatment with palmitoylated PrRP lowered food intake but did not significantly affect body weight or glucose tolerance, probably in consequence of severe leptin resistance due to a nonfunctional leptin receptor. Our data indicate a good efficacy of lipidized PrRP in DIO rats. Thus, the strong anorexigenic, body weight-reducing, and glucose tolerance-improving effects make palmitoylated PrRP an attractive candidate for anti-obesity treatment. [ABSTRACT FROM AUTHOR]

Published

2016

26. Design of a Long-Acting and Selective MEG-Fatty Acid Stapled Prolactin-Releasing Peptide Analog

Author

Matthew S. Tremblay, Huafei Zou, Shan Yu, Van Nguyen-Tran, Candy Lee, Elsa Pflimlin, Andrew To, Sam Lear, Sean B. Joseph, and Weijun Shen

Subjects

chemistry.chemical_classification, biology, Chemistry, Prolactin-releasing peptide, Organic Chemistry, Serum albumin, Fatty acid, Peptide, Pharmacology, Biochemistry, In vitro, Hypothalamus, In vivo, Drug Discovery, biology.protein, Potency

Abstract

[Image: see text] Anorexigenic peptides offer promise as potential therapies targeting the escalating global obesity epidemic. Prolactin-releasing peptide (PrRP), a novel member of the RFamide family secreted by the hypothalamus, shows therapeutic potential by decreasing food intake and body weight in rodent models via GPR10 activation. Here we describe the design of a long-acting PrRP using our recently developed novel multiple ethylene glycol-fatty acid (MEG-FA) stapling platform. By incorporating serum albumin binding fatty acids onto a covalent side chain staple, we have generated a series of MEG-FA stapled PrRP analogs with enhanced serum stability and in vivo half-life. Our lead compound 18-S4 exhibits good in vitro potency and selectivity against GPR10, improved serum stability, and extended in vivo half-life (7.8 h) in mouse. Furthermore, 18-S4 demonstrates a potent body weight reduction effect in a diet-induced obesity (DIO) mouse model, representing a promising long-acting PrRP analog for further evaluation in the chronic obesity setting.

Published

2019

27. Metabolomic Study of Obesity and Its Treatment with Palmitoylated Prolactin-Releasing Peptide Analog in Spontaneously Hypertensive and Normotensive Rats

Author

Barbora Neprašová, Lenka Maletínská, Marek Kuzma, Blanka Železná, Blanka Šedivá, Petra Tomášová, Jaroslav Kuneš, Helena Pelantová, and Martina Cermakova

Subjects

0301 basic medicine, medicine.medical_specialty, Taurine, hypertension, Magnetic Resonance Spectroscopy, Prolactin-releasing peptide, Urine, Diet, High-Fat, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, Metabolomics, Allantoin, Rats, Inbred SHR, Internal medicine, medicine, Animals, Obesity, Prediabetes, Dimethylamine, antiobesity therapy, Prolactin-Releasing Hormone, 030102 biochemistry & molecular biology, Body Weight, General Chemistry, medicine.disease, NMR, Rats, high-fat diet, 030104 developmental biology, Endocrinology, chemistry, Glycine, Metabolome, Anti-Obesity Agents

Abstract

In this study, the combination of metabolomics and standard biochemical and biometric parameters was used to describe the metabolic effects of diet-induced obesity and its treatment with the novel antiobesity compound palm11-PrRP31 (palmitoylated prolactin-releasing peptide) in spontaneously hypertensive rats (SHR) and normotensive Wistar Kyoto rats (WKY). The results showed that SHR on a high-fat (HF) diet were normoglycemic with obesity and hypertension, while WKY on the HF diet were normotensive and obese with prediabetes. NMR-based metabolomics revealed mainly several microbial cometabolites altered by the HF diet, particularly in urine. The HF diet induced similar changes in both models. However, two groups of genotype-specific metabolites were defined: metabolites specific to the genotype at baseline (e.g., 1-methylnicotinamide, phenylacetylglycine, taurine, methylamine) and metabolites reacting specifically to the HF diet in individual genotypes (2-oxoglutarate, dimethylamine, N-butyrylglycine, p-cresyl sulfate). The palm11-PrRP31 lowered body weight and improved biochemical and biometric parameters in both strains, and it improved glucose tolerance in WKY rats on the HF diet. In urine, the therapy induced significant decrease of formate and 1-methylnicotinamide in SHR and alanine, allantoin, dimethylamine, and N-butyrylglycine in WKY. Altogether, our study confirms the effectiveness of palm11-PrRP31 for antiobesity treatment.

Published

2019

28. Lipidized Prolactin-Releasing Peptide Agonist Attenuates Hypothermia-Induced Tau Hyperphosphorylation in Neurons

Author

Jaroslav Kuneš, Marie-Christine Galas, Claire Schirmer, Blanka Železná, Veronika Pražienková, Lenka Maletínská, Martina Holubová, Centre de Recherche Jean-Pierre AUBERT Neurosciences et Cancer - U837 (JPArc), Université Lille Nord de France (COMUE)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille, Centre de Recherche Jean-Pierre AUBERT Neurosciences et Cancer - U1172 Inserm - U837 (JPArc), and Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Lille Nord de France (COMUE)-Université de Lille

Subjects

0301 basic medicine, Agonist, SH-SY5Y, medicine.drug_class, [SDV]Life Sciences [q-bio], [SDV.NEU.NB]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Neurobiology, Prolactin-releasing peptide, Phosphatase, Tau protein, tau Proteins, Pharmacology, Neuroprotection, Cell Line, 03 medical and health sciences, 0302 clinical medicine, Glucagon-Like Peptide 1, Hypothermia, Induced, medicine, Animals, Humans, Phosphorylation, ComputingMilieux_MISCELLANEOUS, Neurons, Prolactin-Releasing Hormone, biology, Kinase, Chemistry, General Neuroscience, Neurodegenerative Diseases, General Medicine, Liraglutide, Hypothermia, Rats, 3. Good health, Psychiatry and Mental health, Clinical Psychology, Neuroprotective Agents, 030104 developmental biology, biology.protein, Geriatrics and Gerontology, medicine.symptom, 030217 neurology & neurosurgery

Abstract

Alzheimer's disease (AD) is one of the most prevalent neurodegenerative diseases, characterized by the accumulation of extracellular amyloid plaques and intraneuronal neurofibrillary tangles. These tangles mainly consist of hyperphosphorylated tau protein. As it induces tau hyperphosphorylation in vitro and in vivo, hypothermia is a useful tool for screening potential neuroprotective compounds that ameliorate tau pathology. In this study, we examined the effect of prolactin-releasing peptide (PrRP), its lipidized analog palm11-PrRP31 and glucagon-like-peptide-1 agonist liraglutide, substances with anorexigenic and antidiabetic properties, on tau phosphorylation and on the main kinases and phosphatases involved in AD development. Our study was conducted in a neuroblastoma cell line SH-SY5Y and rat primary neuronal cultures under normothermic and hypothermic conditions. Hypothermia induced a significant increase in tau phosphorylation at the pThr212 and pSer396/pSer404 epitopes. The palmitoylated analogs liraglutide and palm11-PrRP31 attenuated tau hyperphosphorylation, suggesting their potential use in the treatment of neurodegenerative diseases.

Published

2019

29. Functions of two distinct prolactin-releasing peptides evolved from a common ancestral gene

Author

Tetsuya eTachibana and Tatsuya eSakamoto

Subjects

Prolactin, Vertebrates, stress, feeding, Prolactin-releasing peptide, Prolactin-releasing peptide-2, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Prolactin-releasing peptide (PrRP) is one of the RF-amide peptides and was originally identified in the bovine hypothalamus as a stimulator of prolactin (PRL) release. Independently, another RF-amide peptide was found in Japanese crucian carp and named Carassius RFa (C-RFa), which shows high homology to PrRP and stimulates PRL secretion in teleost fish. Therefore, C-RFa has been recognized as fish PrRP. However, recent work has revealed that PrRP and C-RFa in non-mammalian vertebrates are encoded by separate genes originated through duplication of an ancestral gene. Indeed, both PrRP and C-RFa are suggested to exist in teleost, amphibian, reptile, and avian species. Therefore, we propose that non-mammalian PrRP (C-RFa) be renamed PrRP2. Despite a common evolutionary origin, PrRP2 appears to be a physiological regulator of PRL, whereas this is not a consistent role for PrRP itself. Further work revealed that the biological functions of PrRP and PrRP2 are not limited solely to PRL release, because they are also neuromodulators of several hypothalamus-pituitary axes and are involved in some brain circuits related to the regulation of food intake, stress, and cardiovascular functions. However, these actions appear to be different among vertebrates. For example, central injection of PrRP inhibits feeding behavior in rodents and teleosts while it stimulates it in chicks. Therefore, both PrRP and PrRP2 have acquired diverse actions through evolution. In this review, we integrate the burgeoning information of structures, expression profiles, and multiple biological actions of PrRP in higher vertebrates, as well as those of PrRP2 in non-mammals.

Published

2014

30. Palmitoylation of Prolactin-Releasing Peptide Increased Affinity for and Activation of the GPR10, NPFF-R2 and NPFF-R1 Receptors: In Vitro Study

Author

Blanka Železná, Veronika Strnadová, Jaroslav Kuneš, Alena Karnošová, Lucie Holá, and Lenka Maletínská

Subjects

Receptors, Neuropeptide, medicine.medical_specialty, GPR10, QH301-705.5, Prolactin-releasing peptide, Lipoylation, Neuropeptide, CHO Cells, In Vitro Techniques, Catalysis, Article, prolactin-releasing peptide, Receptors, G-Protein-Coupled, Inorganic Chemistry, Cricetulus, neuropeptide FF, Palmitoylation, NPFF-R2, Internal medicine, Cricetinae, medicine, NPFF-R1, Animals, Humans, Neuropeptide FF, Physical and Theoretical Chemistry, Biology (General), Receptor, Molecular Biology, Protein kinase B, QD1-999, Spectroscopy, Prolactin-Releasing Hormone, Chemistry, Organic Chemistry, General Medicine, Neuropeptide Y receptor, signaling pathways, Computer Science Applications, Endocrinology, binding properties, Calcium, Signal transduction

Abstract

The anorexigenic neuropeptide prolactin-releasing peptide (PrRP) is involved in the regulation of food intake and energy expenditure. Lipidization of PrRP stabilizes the peptide, facilitates central effect after peripheral administration and increases its affinity for its receptor, GPR10, and for the neuropeptide FF (NPFF) receptor NPFF-R2. The two most potent palmitoylated analogs with anorectic effects in mice, palm11-PrRP31 and palm-PrRP31, were studied in vitro to determine their agonist/antagonist properties and mechanism of action on GPR10, NPFF-R2 and other potential off-target receptors related to energy homeostasis. Palmitoylation of both PrRP31 analogs increased the binding properties of PrRP31 to anorexigenic receptors GPR10 and NPFF-R2 and resulted in a high affinity for another NPFF receptor, NPFF-R1. Moreover, in CHO-K1 cells expressing GPR10, NPFF-R2 or NPFF-R1, palm11-PrRP and palm-PrRP significantly increased the phosphorylation of extracellular signal-regulated kinase (ERK), protein kinase B (Akt) and cAMP-responsive element-binding protein (CREB). Palm11-PrRP31, unlike palm-PrRP31, did not activate either c-Jun N-terminal kinase (JNK), p38, c-Jun, c-Fos or CREB pathways in cells expressing NPFF-1R. Palm-PrRP31 also has higher binding affinities for off-target receptors, namely, the ghrelin, opioid (KOR, MOR, DOR and OPR-L1) and neuropeptide Y (Y1, Y2 and Y5) receptors. Palm11-PrRP31 exhibited fewer off-target activities, therefore, it has a higher potential to be used as an anti-obesity drug with anorectic effects.

Published

2021

31. Palmitoylated Prolactin-releasing Peptide Reduced Aβ Plaques and Microgliosis in the Cerebellum: APP/PS1 Mice Study

Author

Andrea Popelová, Martina Holubová, Anna Mengr, Jaroslav Kuneš, Lenka Maletínská, Blanka Železná, Lucie Hrubá, and Aneta Exnerová

Subjects

medicine.medical_specialty, Prolactin-releasing peptide, Synaptogenesis, Hippocampus, Mice, Transgenic, Plaque, Amyloid, Microgliosis, Neuroprotection, Amyloid beta-Protein Precursor, Mice, Alzheimer Disease, Internal medicine, Cerebellum, mental disorders, Presenilin-1, Medicine, Animals, Humans, Neuroinflammation, Prolactin-Releasing Hormone, Amyloid beta-Peptides, Glial fibrillary acidic protein, biology, Microglia, business.industry, Disease Models, Animal, medicine.anatomical_structure, Endocrinology, Neurology, Diabetes Mellitus, Type 2, biology.protein, Neurology (clinical), business

Abstract

Background:Prolactin-releasing peptide (PrRP) is a potential drug for the treatment of obesity and associated Type 2 Diabetes Mellitus (T2DM) due to its strong anorexigenic and antidiabetic properties. In our recent study, the lipidized PrRP analog palm11-PrRP31 was proven to exert beneficial effects in APP/PS1 mice, a model of Alzheimer´s Disease (AD)-like amyloid-β (Aβ) pathology, reducing the Aβ plaque load, microgliosis and astrocytosis in the hippocampus and cortex.Objective:In this study, we focused on the neuroprotective and anti-inflammatory effects of palm11-PrRP31 and its possible impact on synaptogenesis in the cerebellum of APP/PS1 mice, because others have suggested that cerebellar Aβ plaques contribute to cognitive deficits in AD.Methods:APP/PS1 mice were treated subcutaneously with palm11-PrRP31 for 2 months, then immunoblotting and immunohistochemistry were used to quantify pathological markers connected to AD, compared to control mice.Results:In the cerebella of 8 months old APP/PS1 mice, we found widespread Aβ plaques surrounded by activated microglia detected by ionized calcium-binding adapter molecule (Iba1), but no increase in astrocytic marker Glial Fibrillary Acidic Protein (GFAP) compared to controls. Interestingly, no difference in both presynaptic markers syntaxin1A and postsynaptic marker spinophilin was registered between APP/PS1 and control mice. Palm11-PrRP31 treatment significantly reduced the Aβ plaque load and microgliosis in the cerebellum. Furthermore, palm11-PrRP31 increased synaptogenesis and attenuated neuroinflammation and apoptosis in the hippocampus of APP/PS1 mice.Conclusion:These results suggest palm11-PrRP31 is a promising agent for the treatment of neurodegenerative disorders.

Published

2021

32. The role of nucleus of the solitary tract glucagon-like peptide-1 and prolactin-releasing peptide neurons in stress: anatomy, physiology and cellular interactions

Author

Linda Rinaman and Marie K. Holt

Subjects

0301 basic medicine, Pharmacology, Neurons, endocrine system, Prolactin-Releasing Hormone, Physiological Stress Responses, Prolactin-releasing peptide, Solitary tract, Hindbrain, Biology, Glucagon-like peptide-1, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Glucagon-Like Peptide 1, Stress, Physiological, medicine, Biological neural network, Solitary Nucleus, Nucleus, Neuroscience, 030217 neurology & neurosurgery

Abstract

Neuroendocrine, behavioural and autonomic responses to stressful stimuli are orchestrated by complex neural circuits. The caudal nucleus of the solitary tract (cNTS) in the dorsomedial hindbrain is uniquely positioned to integrate signals of both interoceptive and psychogenic stress. Within the cNTS, glucagon-like peptide-1 (GLP-1) and prolactin-releasing peptide (PrRP) neurons play crucial roles in organising neural responses to a broad range of stressors. In this review we discuss the anatomical and functional overlap between PrRP and GLP-1 neurons. We outline their co-activation in response to stressful stimuli and their importance as mediators of behavioural and physiological stress responses. Finally, we review evidence that PrRP neurons are downstream of GLP-1 neurons and outline unexplored areas of the research field. Based on the current state-of-knowledge, PrRP and GLP-1 neurons may be compelling targets in the treatment of stress-related disorders. LINKED ARTICLES: This article is part of a themed issue on GLP1 receptor ligands (BJP 75th Anniversary). To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v179.4/issuetoc.

Published

2021

33. Effect of palmitoylated prolactin-releasing peptide on food intake and neural activation after different routes of peripheral administration in rats.

Author

Mikulášková, Barbora, Zemenová, Jana, Pirník, Zdenko, Pražienková, Veronika, Bednárová, Lucie, Železná, Blanka, Maletínská, Lenka, and Kuneš, Jaroslav

Subjects

*OBESITY treatment, *PALMITOYLATION, *MICELLES, *PROLACTIN, *FOOD consumption, *EPIDEMICS

Abstract

Obesity is an escalating epidemic, but an effective non-invasive therapy is still scarce. For obesity treatment, anorexigenic neuropeptides are promising tools, but their delivery from the periphery to the brain is complicated by their peptide character. In order to overcome this unfavorable fact, we have applied the lipidization of neuropeptide prolactin-releasing peptide (PrRP), whose strong anorexigenic effect was demonstrated. A palmitoylated analog of human PrRP (h palm-PrRP31) was injected in free-fed Wistar rats by three routes: subcutaneous (s.c.), intraperitoneal (i.p) (both 5 mg/kg) and intravenous (i.v.) (from 0.01 to 0.5 mg/kg). We found a circulating compound in the blood after all three applications with the highest concentration after i.v. administration. This corresponds to the effect on food intake, which was also strongest after i.v. injection. Moreover, this is in agreement with the fact that the expression of c-Fos in specific brain regions involved in food intake regulation was also highest after intravenous application. Pharmacokinetic data are further supported by results obtained from dynamic light scattering and CD spectroscopy. Human palm-PrRP31 analog showed a strong tendency to micellize, and formation of aggregates suggested lower availability after i.p. or s.c. application. We have demonstrated that palm-PrRP influenced food intake even in free fed rats. Not surprisingly, the maximal effect was achieved after the intravenous application even though two orders of magnitude lower dose was used compared to both two other applications. We believe that palm-PrRP could have a potential as an antiobesity drug when its s.c. application would be improved. [ABSTRACT FROM AUTHOR]

Published

2016

34. Exogenous prolactin-releasing peptide's orexigenic effect is associated with hypothalamic neuropeptide Y in chicks.

Author

Wang, Guoqing, Tachibana, Tetsuya, Gilbert, Elizabeth R., and Cline, Mark A.

Abstract

Exogenous administration of prolactin-releasing peptide (PrRP) exerts anorexigenic effects in rats while causing orexigenic effects in chicks. While the central mechanism mediating PrRP's effect on food intake in rodents is somewhat understood, in chicks information is lacking. Therefore, this study was designed to elucidate the hypothalamic mechanism of PrRP induction of hunger perception in chicks. Chicks that received intracerebroventricular (ICV) injections of PrRP dose-dependently increased their food intake with no effect on water intake or whole blood glucose concentration. The threshold of food intake stimulation was as low as 3 pmol, thus as compared to other neuropeptides PrRP is exceptionally potent. The mRNA abundance of several appetite-associated neuropeptide genes was quantified and hypothalamic neuropeptide Y (NPY) mRNA was increased in PrRP-injected chicks. Therefore, the orexigenic effects of PrRP may be associated with increased NPY-ergic tone. These results provide insight into the evolutionary aspects of appetite regulation during the course of divergent evolution of mammals and birds. [ABSTRACT FROM AUTHOR]

Published

2015

35. Peripheral administration of palmitoylated prolactin-releasing peptide induces Fos expression in hypothalamic neurons involved in energy homeostasis in NMRI male mice.

Author

Pirnik, Zdenko, Železná, Blanka, Kiss, Alexander, and Maletínská, Lenka

Subjects

*HYPOTHALAMUS physiology, *NEURONS, *PALMITOYLATION, *HOMEOSTASIS, *PROLACTIN, *DRUG administration, *LABORATORY mice

Abstract

Energy homeostasis is the result of a balance between energy intake and expenditure, and the hypothalamus plays a key role in the regulation of these processes. The hypothalamic prolactin-releasing peptide (PrRP) is involved in food intake regulation and energy homeostasis, although only its lipidized analogs exert central anorexigenic effects after peripheral administration. The aim of the present study was to delineate the extent of the Fos expression as a marker of neuronal activation within the hypothalamic structures involved in food intake regulation after peripherally administered palmitoylated PrRP31 (palm-PrRP31) and to determine whether the anorexigenic effect of peripherally administered palm-PrRP31 influence the activity of hypocretin (HCRT) and oxytocin (OXY) neurons, i.e., the neuropeptides crucially involved in the regulation of energy homeostasis. The data confirmed an anorexigenic effect of palm-PrRP31 treatment (5 mg/kg, s.c.) in mice. In the palm-PrRP31-treated animals, a significant increase in Fos expression was observed in the hypothalamic paraventricular (PVN), dorsomedial (DMN), and arcuate (Arc) nuclei and in the neurons of the nucleus of the solitary tract (NTS). Moreover, significant Fos expression was observed in the lateral hypothalamic area (LHA) HCRT neurons and PVN OXY neurons after palm-PrRP31 administration. The present findings may indicate that palm-PrRP31 may be involved in energy homeostasis via the activation of several hypothalamic structures. Fos activation of the hypothalamic OXY and HCRT neurons in the PVN and LHA emphasizes the importance of the areas mentioned in the central action of palm-PrRP31. [ABSTRACT FROM AUTHOR]

Published

2015

36. Dietary Macronutrient Composition Affects the Influence of Exogenous Prolactin-Releasing Peptide on Appetite Responses and Hypothalamic Gene Expression in Chickens.

Author

Guoqing Wang, Tachibana, Tetsuya, Gilbert, Elizabeth R., Cline, Mark A., and Wang, Guoqing

Subjects

*ANIMAL experimentation, *APPETITE, *APPETITE stimulants, *DRUG-food interactions, *DOSE-effect relationship in pharmacology, *CARBOHYDRATE content of food, *FOOD preferences, *GENES, *GENETIC techniques, *HYPOTHALAMIC hormones, *HYPOTHALAMUS, *INGESTION, *NEURONS, *NEUROPEPTIDES, *POULTRY, *DIETARY proteins, *RATS, *STATISTICAL sampling, *WEIGHT gain, *INTRAVENTRICULAR injections, *PHARMACODYNAMICS

Abstract

Background: The interaction between the effects of exogenous neurotransmitters and dietary composition on appetite regulation in nonmammalian species is unclear.Objective: The objective of this study was to determine the effects of exogenous prolactin-releasing peptide (PrRP) and dietary macronutrient composition on food intake regulation in broiler chicks.Methods: Three isocaloric diets were formulated: high-carbohydrate (HC), high-fat (HF; 60% of ME from lard) and high-protein (HP) diets. In Expt. 1, 4-d-old Hubbard × Cobb-500 chicks fed 1 of the 3 diets since hatch were intracerebroventricularly injected with 0 (vehicle), 3, or 188 pmol PrRP (n = 10). Food intake was measured for 180 min. In Expt. 2, hypothalamic mRNA abundance of appetite-associated factors was measured in hypothalamus samples obtained 1 h postinjection of 0 or 188 pmol PrRP. In Expt. 3, chicks were given free access to all diets before and after intracerebroventricular injection and food intake was measured.Results: Three and 188 pmol PrRP increased (P = 0.0008 and 0.04) HP diet intake, but only 188 pmol PrRP was efficacious at increasing HC (P = 0.0011) and HF (P = 0.01) consumption compared with the vehicle. There was a diet effect on mRNA abundance of all genes (P < 0.05), with greater expression in chicks fed the HF or HP than the HC diet. Whereas neuropeptide Y (NPY) mRNA was similar between vehicle- and PrRP-injected chicks that consumed HP or HF diets, expression was greater (P < 0.05) in PrRP- than vehicle-injected chicks that consumed the HC diet. When chicks had access to all diets, 188 pmol PrRP caused preferential (P < 0.0001) intake of the HP over the HC and HF diets.Conclusion: The HP diet enhanced the sensitivity of chicks to the food intake-stimulating effects of PrRP, and PrRP in turn increased preference for the HP diet. Thus, dietary macronutrient composition influences PrRP-mediated food intake, and PrRP in turn affects nutrient intake and transcriptional regulation in chicks. [ABSTRACT FROM AUTHOR]

Published

2015

37. Anorexigenic Lipopeptides Ameliorate Central Insulin Signaling and Attenuate Tau Phosphorylation in Hippocampi of Mice with Monosodium Glutamate-Induced Obesity.

Author

Špolcová, Andrea, Mikulášková, Barbora, Holubová, Martina, Nagelová, Veronika, Pirnik, Zdenko, Zemenová, Jana, Haluzík, Martin, Železná, Blanka, Galas, Marie-Christine, and Maletínská, Lenka

Subjects

*EPIDEMIOLOGY, *PEOPLE with diabetes, *OVERWEIGHT persons, *COGNITION disorder risk factors, *ALZHEIMER'S disease risk factors, *PHOSPHORYLATION, *PHYSIOLOGY

Abstract

Numerous epidemiological and experimental studies have demonstrated that patients who suffer from metabolic disorders, such as type 2 diabetes mellitus (T2DM) or obesity, have higher risks of cognitive dysfunction and of Alzheimer's disease (AD). Impaired insulin signaling in the brain could contribute to the formation of neurofibrillary tangles, which contain an abnormally hyperphosphorylated tau protein. This study aimed to determine whether potential tau hyperphosphorylation could be detected in an obesity-induced pre-diabetes state and whether anorexigenic agents could affect this state. We demonstrated that 6-month-old mice with monosodium glutamate (MSG) obesity, which represent a model of obesity-induced pre-diabetes, had increased tau phosphorylation at Ser396 and Thr231 in the hippocampus compared with the controls, as determined by western blots. Two weeks of subcutaneous treatment with a lipidized analog of prolactin-releasing peptide (palm-PrRP31) or with the T2DM drug liraglutide, which both had a central anorexigenic effect, resulted in increased phosphorylation of the insulin cascade kinases PDK1 (Ser241), Akt (Thr308), and GSK-3β (Ser9). Furthermore, these drugs attenuated phosphorylation at Ser396, Thr231, and Thr212 of tau and of the primary tau kinases in the hippocampi of 6-month-old MSG-obese mice. We identified tau hyperphosphorylation in the obesity-induced pre-diabetes state in MSG-obese mice and demonstrated the beneficial effects of palm-PrRP31 and liraglutide, both of known central anorexigenic effects, on hippocampal insulin signaling and on tau phosphorylation. [ABSTRACT FROM AUTHOR]

Published

2015

38. Melatonin counteracts changes in hypothalamic gene expression of signals regulating feeding behavior in high-fat fed rats.

Author

Ríos-Lugo, María J., Jiménez-Ortega, Vanesa, Cano-Barquilla, Pilar, Mateos, Pilar Fernández, Spinedi, Eduardo J., Cardinali, Daniel P., and Esquifino, Ana I.

Subjects

*MELATONIN, *HYPOTHALAMIC hormones, *PROOPIOMELANOCORTIN, *INSULIN, *LEPTIN

Abstract

Background: Previous studies indicate that the administration of melatonin caused body weight and abdominal visceral fat reductions in rodent models of hyperadiposity. The objective of the present study performed in high-fat fed rats was to evaluate the activity of melatonin on gene expression of some medial basal hypothalamus (MBH) signals involved in feeding behavior regulation, including neuropeptide γ (NPγ), proopiomelanocortin (POMC), prolactin-releasing peptide (PrRP), leptin- and insulinreceptors (R) and insulin-R substrate (IRS)-1 and -2. Blood levels of leptin and adiponectin were also measured. Methods: Adult Wistar male rats were divided intofour groups (n = 16 per group): (i) control diet (3% fat); (ii) highfat (35%) diet; (iii) high-fat diet+melatonin; (iv) control diet+melatonin. Rats had free access to high-fat or control chow and one of the following drinking solutions: (a) tap water; (b) 25 Yg/mL of melatonin. Results: After 10 weeks, the high-fat fed rats showed augmented MBH mRNA levels of NPY, leptin-R, PrRP, insulin-R, IRS-1 and IRS-2. The concomitant administration of melatonin counteracted this increase. Feeding of rats with a high-fat diet augmented expression of the MBH POMC gene through an effect insensitive to melatonin treatment. The augmented levels of circulating leptin and adiponectin seen in high-fat fed rats were counteracted by melatonin as was the augmented body weight: melatonin significantly attenuated a body weight increase in highfat fed rats without affecting chow or water consumption. Melatonin augmented plasma leptin and adiponectin in control rats. Conclusions: The results indicate that an effect on gene expression of feeding behavior signals at the central nervous system (CNS) may complement a peripheral rise of the energy expenditure produced by melatonin to decrease body weight in high-fat fed rats. [ABSTRACT FROM AUTHOR]

Published

2015

39. Prolactin-Releasing Peptide Differentially Regulates Gene Transcriptomic Profiles in Mouse Bone Marrow-Derived Macrophages

Author

Zhuo Zuo, Yulong Sun, and Yuanyuan Kuang

Subjects

Male, GPR10, QH301-705.5, Prolactin-releasing peptide, Neuropeptide, Bone marrow-derived macrophage, Biology, Catalysis, Article, prolactin-releasing peptide, Inorganic Chemistry, Transcriptome, Mice, Animals, Biology (General), Physical and Theoretical Chemistry, KEGG, Receptor, QD1-999, Molecular Biology, Gene, Spectroscopy, Prolactin-Releasing Hormone, Macrophages, Organic Chemistry, RNA, Computational Biology, RNA sequencing, General Medicine, bioinformatics, bone marrow-derived macrophage, Computer Science Applications, Cell biology, Mice, Inbred C57BL, Chemistry, Gene Expression Regulation, transcriptomic profiles

Abstract

Prolactin-releasing Peptide (PrRP) is a neuropeptide whose receptor is GPR10. Recently, the regulatory role of PrRP in the neuroendocrine field has attracted increasing attention. However, the influence of PrRP on macrophages, the critical housekeeper in the neuroendocrine field, has not yet been fully elucidated. Here, we investigated the effect of PrRP on the transcriptome of mouse bone marrow-derived macrophages (BMDMs) with RNA sequencing, bioinformatics, and molecular simulation. BMDMs were exposed to PrRP (18 h) and were subjected to RNA sequencing. Differentially expressed genes (DEGs) were acquired, followed by GO, KEGG, and PPI analysis. Eight qPCR-validated DEGs were chosen as hub genes. Next, the three-dimensional structures of the proteins encoded by these hub genes were modeled by Rosetta and Modeller, followed by molecular dynamics simulation by the Gromacs program. Finally, the binding modes between PrRP and hub proteins were investigated with the Rosetta program. PrRP showed no noticeable effect on the morphology of macrophages. A total of 410 DEGs were acquired, and PrRP regulated multiple BMDM-mediated functional pathways. Besides, the possible docking modes between PrRP and hub proteins were investigated. Moreover, GPR10 was expressed on the cell membrane of BMDMs, which increased after PrRP exposure. Collectively, PrRP significantly changed the transcriptome profile of BMDMs, implying that PrRP may be involved in various physiological activities mastered by macrophages.

Published

2021

40. Sex and metabolic state interact to influence expression of passive avoidance memory in rats: Potential contribution of A2 noradrenergic neurons

Author

Caitlyn M. Edwards, Linda Rinaman, and Tyla Dolezel

Subjects

Metabolic state, Noradrenergic neurons, Adrenergic Neurons, Male, Food deprivation, medicine.medical_specialty, Prolactin-releasing peptide, Experimental and Cognitive Psychology, Context (language use), Biology, Article, Rats, Sprague-Dawley, 03 medical and health sciences, Behavioral Neuroscience, 0302 clinical medicine, Internal medicine, medicine, Solitary Nucleus, Animals, 0501 psychology and cognitive sciences, 050102 behavioral science & comparative psychology, Prolactin-Releasing Hormone, 05 social sciences, Solitary tract, Glucagon-like peptide-1, Rats, Stria terminalis, medicine.anatomical_structure, Endocrinology, Female, Septal Nuclei, Passive avoidance, Neuroscience, Nucleus, 030217 neurology & neurosurgery

Abstract

Competing motivational drives coordinate behaviors essential for survival. For example, interoceptive feedback from the body during a state of negative energy balance serves to suppress anxiety-like behaviors and promote exploratory behaviors in rats. Results from past research suggest that this shift in motivated behavior is linked to reduced activation of specific neural populations within the caudal nucleus of the solitary tract (cNTS). However, the potential impact of metabolic state and the potential role of cNTS neurons on conditioned avoidance behaviors has not been examined. The present study investigated these questions in male and female rats, using a task in which rats learn to avoid a context (i.e., a darkened chamber) after it is paired with a single mild footshock. When rats later were tested for passive avoidance of the shock-paired chamber, male rats tested in an overnight food-deprived state and female rats (regardless of feeding status) displayed significantly less avoidance compared to male rats that were fed ad libitum prior to testing. Based on prior evidence that prolactin-releasing peptide (PrRP)-positive noradrenergic neurons and glucagon-like peptide 1 (GLP1)-positive neurons within the cNTS are particularly sensitive to metabolic state, we examined whether these neural populations are activated in conditioned rats after re-exposure to the shock-paired chamber, and whether neural activation is modulated by metabolic state. Compared to the control condition, chamber re-exposure activated PrRP+ noradrenergic neurons and also activated neurons within the anterior ventrolateral bed nucleus of the stria terminalis (vlBNST), which receives dense input from PrRP+ terminals. In parallel with sex differences in passive avoidance behavior, PrRP+ neurons were less activated in female vs. male rats after chamber exposure. GLP1+ neurons were not activated in either sex. Overnight food deprivation before chamber re-exposure reduced activation of PrRP+ neurons, and also reduced vlBNST activation. Our results support the view that PrRP+ noradrenergic neurons and their inputs to the vlBNST contribute to the expression of passive avoidance memory, and that this contribution is modulated by metabolic state.

Published

2021

41. Prolactin-releasing peptide

Author

Tetsuya Tachibana and Tatsuya Sakamoto

Subjects

chemistry.chemical_classification, endocrine system, medicine.medical_specialty, animal structures, Prolactin-releasing peptide, Neuropeptide, Peptide, Biology, Energy homeostasis, Prolactin, Fight-or-flight response, Endocrinology, medicine.anatomical_structure, Hypothalamic Hormones, chemistry, Anterior pituitary, Internal medicine, medicine

Abstract

Prolactin-releasing peptide (PrRP), an RF-amide peptide, had been originally identified as a stimulator of prolactin release from the anterior pituitary. However, further studies revealed that the prolactin-releasing effect of PrRP is inconsistent and different from ordinary hypophysiotropic hormones. However, PrRP is demonstrated to have some physiological roles, such as inhibition of feeding, and obesity, stress response, and control of release of hypothalamic hormones in mammals. On the other hand, PrRP2 (C-RFa) has been identified as a neuropeptide which originates from a common ancestral gene of PrRP. PrRP2 is found in vertebrates except for mammals. PrRP2 is a potent stimulator of prolactin in teleosts, but has a lesser effect in amphibians and chickens. As in PrRP, PrRP2 is related to energy homeostasis in teleosts and chickens. The physiological functions of PrRP and PrRP2 may have changed through evolution.

Published

2021

42. Functions of two distinct "prolactin-releasing peptides" evolved from a common ancestral gene.

Author

Tachibana, Tetsuya and Sakamoto, Tatsuya

Subjects

PROLACTIN, GONADOTROPIN, PROTEIN hormones, PEPTIDES, PROTEINS

Abstract

Prolactin-releasing peptide (PrRP) is one of the RF-amide peptides and was originally identified in the bovine hypothalamus as a stimulator of prolactin (PRL) release. Independently, another RF-amide peptide was found in Japanese crucian carp and named Carassius-RFa (C-RFa), which shows high homology to PrRP and stimulates PRL secretion in teleost fish. Therefore, C-RFa has been recognized as fish PrRP. However, recent work has revealed that PrRP and C-RFa in non-mammalian vertebrates are encoded by separate genes originated through duplication of an ancestral gene. Indeed, both PrRP and C-RFa are suggested to exist in teleost, amphibian, reptile, and avian species. Therefore, we propose that non-mammalian PrRP (C-RFa) be renamed PrRP2. Despite a common evolutionary origin, PrRP2 appears to be a physiological regulator of PRL, whereas this is not a consistent role for PrRP itself. Further work revealed that the biological functions of PrRP and PrRP2 are not limited solely to PRL release, because they are also neuromodulators of several hypothalamus-pituitary axes and are involved in some brain circuits related to the regulation of food intake, stress, and cardiovascular functions. However, these actions appear to be different among vertebrates. For example, central injection of PrRP inhibits feeding behavior in rodents and teleosts, while it stimulates it in chicks. Therefore, both PrRP and PrRP2 have acquired diverse actions through evolution. In this review, we integrate the burgeoning information of structures, expression profiles, and multiple biological actions of PrRP in higher vertebrates, as well as those of PrRP2 in non-mammals. [ABSTRACT FROM AUTHOR]

Published

2014

43. Differential activation of chemically identified neurons in the caudal nucleus of the solitary tract in non-entrained rats after intake of satiating vs. non-satiating meals.

Author

Kreisler, Alison D., Davis, Elizabeth A., and Rinaman, Linda

Subjects

*FOOD consumption, *CELLULAR signal transduction, *GASTROINTESTINAL system physiology, *DIGESTIVE organs, *NORADRENERGIC mechanisms, *GLUCAGON-like peptide 1, *LABORATORY rats

Abstract

Satiety signals arising from the gastrointestinal (GI) tract and related digestive organs during food ingestion and digestion are conveyed by vagal sensory afferents to the hindbrain nucleus of the solitary tract (NST). Two intermingled but chemically distinct NST neuronal populations have been implicated in meal size control: noradrenergic (NA) neurons that comprise the A2 cell group, and glucagon-like peptide-1 (GLP-1)-positive neurons. Previous results indicate that A2 neurons are activated in a meal size-dependent manner in rats that have been acclimated/entrained to a feeding schedule in order to increase meal size, whereas feeding under the same conditions does not activate GLP-1 neurons. The present study was designed to test the hypothesis that both A2 and GLP-1 neuronal populations are recruited in non-entrained rats after voluntary first-time intake of an unrestricted, satiating volume of liquid Ensure. DBH-positive A2 neurons within the caudal visceral NST were progressively recruited to express cFos in rats that consumed progressively larger volumes of Ensure. Among these DBH-positive neurons, the prolactin-releasing peptide (PrRP)-positive subset was more sensitive to feeding-induced activation than the PrRP-negative subset. Notably, significant activation of GLP-1-positive neurons occurred only in rats that consumed the largest volumes of Ensure, corresponding to nearly 5% of their BW. We interpret these results as evidence that progressive recruitment of NA neurons within the caudal NST, especially the most caudally-situated PrRP-positive subset, effectively “tracks” the magnitude of GI satiety signals and other meal-related sensory feedback. Conversely, GLP-1 neurons may only be recruited in response to the homeostatic challenge of consuming a very large, unanticipated meal. [ABSTRACT FROM AUTHOR]

Published

2014

44. Systemic leptin dose-dependently increases STAT3 phosphorylation within hypothalamic and hindbrain nuclei.

Author

Maniscalco, James W. and Rinaman, Linda

Subjects

*LEPTIN, *STAT proteins, *PHOSPHORYLATION, *HYPOTHALAMUS, *RHOMBENCEPHALON, *CENTRAL nervous system, *NEURAL circuitry

Abstract

Leptin released peripherally acts within the central nervous system (CNS) to modulate numerous physiological and behavioral functions. Histochemical identification of leptin-responsive CNS cells can reveal the specific cellular phenotypes and neural circuits through which leptin signaling modulates these functions. Leptin signaling elicits phosphorylation of signal transducer and activator of transcription 3 (pSTAT3), making pSTAT3-immunoreactivity (ir) a useful proxy for identifying leptin-responsive cells. Relatively low systemic doses of leptin (i.e., 10-130 µg/kg body wt) are sufficient to decrease food intake, inhibit gastric emptying, and increase sympathetic activity, but there are no histological reports of central pSTAT3-ir following leptin doses within this range. Considering this, we quantified central pSTAT3-ir in rats after intraperitoneal injections of leptin at doses ranging from 50 to 800 µg/kg body wt. Tissue sections were processed to identify pSTAT3-ir alone or in combination with immunolabeling for cocaine- and amphetamine-regulated transcript (CART), glucagon-like peptide-1 (GLP-1), prolactin-releasing peptide (PrRP), or dopamine-β-hydroxylase (DβH). Leptin doses as low as 50, 100, and 200 µg/kg body wt significantly increased the number of pSTAT3-ir cells in the arcuate nucleus of the hypothalamus (ARC), nucleus of the solitary tract (NTS), and ventromedial nucleus of the hypothalamus, respectively, and also led to robust pSTAT3 labeling in neural processes. The differential dose-dependent increases in pSTAT3-ir across brain regions provide new information regarding central leptin sensitivity. Within the ARC, CART-ir and pSTAT3-ir were often colocalized, consistent with evidence of leptin sensitivity in this neural population. Conversely, within the NTS, pSTAT3 only rarely colocalized with PrRP and/or DβH, and never with GLP-1. [ABSTRACT FROM AUTHOR]

Published

2014

45. Fasting and refeeding induce differential changes in hypothalamic mRNA abundance of appetite-associated factors in 7 day-old Japanese quail, Coturnix japonica

Author

Betty R. McConn, Mark A. Cline, and Elizabeth R. Gilbert

Subjects

0301 basic medicine, medicine.medical_specialty, Physiology, Photoperiod, Prolactin-releasing peptide, media_common.quotation_subject, Hypothalamus, Appetite, Coturnix, Biology, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, biology.animal, mental disorders, medicine, Animals, RNA, Messenger, Galanin, Molecular Biology, media_common, Coturnix japonica, digestive, oral, and skin physiology, Fasting, Feeding Behavior, biology.organism_classification, Neuropeptide Y receptor, Orexin receptor, Quail, 030104 developmental biology, Endocrinology, Melanocortin, Peptides, hormones, hormone substitutes, and hormone antagonists, 030217 neurology & neurosurgery

Abstract

There is little information regarding effects of fasting on feeding behavior and hypothalamic physiology in young Japanese quail. The aim was thus to measure food intake and hypothalamic mRNA in response to fasting and refeeding. Five d-old quail ate little during the dark cycle. Food intake was greatest during the first 2 h of the light cycle. Six day-old quail fasted for 6 h ate the most during the first 15 min of refeeding. In 7 d-old quail, 3 h of fasting up-regulated hypothalamic neuropeptide Y (NPY), NPY receptor sub-type 2 (NPYR2), agouti-related peptide (AgRP), orexin receptor 2 (ORXR2), melanocortin receptors 3 and 4 (MC3R and MC4R, respectively), and neuropeptide S (NPS) and decreased corticotropin-releasing factor receptor sub-type 1 (CRFR1) mRNA. Quail fasted for 3 h and refed for 1 h had greater NPY, AgRP, POMC, and MC3R but less CRFR1 mRNA than fed quail. Quail fasted for 6 h expressed more NPY, NPYR1, NPYR2, and MC3R and less ORXR2, prolactin releasing peptide (PrRP), cocaine- and amphetamine-regulated transcript (CART), and calcitonin (CAL) mRNA than fed quail. Quail fasted for 6 h and refed for 1 h expressed more NPY, NPYR1, NPYR2, AgRP, MC3R, MC4R, and NPS and less galanin, ORXR2, PrRP, CART, and CAL mRNA than fed birds. Hence, fasting induced changes in hypothalamic mRNA, with the largest changes occurring in genes associated with NPY and melanocortin signaling. Most genes remained elevated or downregulated after refeeding, suggesting that there was a time lag for transcription to respond to compensatory feeding.

Published

2019

46. Prolactin-releasing peptide improved leptin hypothalamic signaling in obese mice

Author

Zuzana Majerčíková, Jaroslav Kuneš, Martina Holubová, Lenka Maletínská, Blanka Železná, Lucie Hrubá, Barbora Neprašová, and Zdeňka Lacinová

Subjects

Leptin, Male, 0301 basic medicine, medicine.medical_specialty, Prolactin-releasing peptide, Hypothalamus, Mice, Obese, Apoptosis, Eating, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Internal medicine, Extracellular, Animals, Humans, Medicine, RNA, Messenger, Phosphorylation, Molecular Biology, Protein kinase B, Neurons, Prolactin-Releasing Hormone, business.industry, Kinase, Long-term potentiation, Fasting, Organ Size, Mice, Inbred C57BL, 030104 developmental biology, Receptors, Leptin, business, 030217 neurology & neurosurgery, Signal Transduction, FOSB

Abstract

The situation following anti-obesity drug termination is rarely investigated, eventhough a decrease in body weight needs to be sustained. Therefore, this study examined the impact of twice-daily peripheral administration of 5 mg/kg [N-palm-γGlu-Lys11] prolactin-releasing peptide 31 (palm11-PrRP31) in mice with diet-induced obesity (DIO from consuming a high-fat diet) after 28 days of treatment (palm11-PrRP31 group) and after 14 days of peptide treatment followed by 14 days of discontinuation (palm11-PrRP31 + saline group). At the end of the treatment, cumulative food intake, body weight and subcutaneous fat weight/body weight ratio and leptin plasma level were reduced significantly in both the palm11-PrRP31 group and the palm11-PrRP31 + saline group compared to the saline control group. This reduction correlated with significantly increased FOSB, a marker of long-term neuronal potentiation, in the nucleus arcuatus and nucleus tractus solitarii, areas known to be affected by the anorexigenic effect of palm11-PrRP31. Moreover, activation of leptin-related hypothalamic signaling was registered through an increase in phosphoinositide-3-kinase, increased phosphorylation of protein kinase B (PKB, AKT) and enhanced extracellular signal-regulated kinase 1/2 phosphorylation. Besides, lowered apoptotic markers c-JUN N-terminal kinase and c-JUN phosphorylation were registered in the hypothalami of both palm11-PrRP31-treated groups. This study demonstrates that palm11-PrRP31 positively affects feeding and leptin-related hypothalamic signaling, not only after 28 days of treatment but even 14 days after the termination of a 14-day long treatment without the yo-yo effect.

Published

2018

47. Central administration of prolactin-releasing peptide shifts the utilities of metabolic fuels from carbohydrate to lipids in chicks.

Author

Tachibana, Tetsuya, Moriyama, Shunsuke, Khan, Md. Sakirul Islam, and Sakamoto, Tatsuya

Subjects

*PROLACTIN, *PEPTIDES, *CHICKS, *ANIMAL feeding behavior, *RESPIRATORY quotient, *HEAT production (Biology), *PHYSIOLOGY

Abstract

Abstract: We have recently identified prolactin (PRL)-releasing peptides (PrRPs) and their stimulating effects on feeding behavior in chicks. To investigate further metabolic functions of PrRP, the present study was performed to clarify whether intracerebroventricular (ICV) injection of PrRP31, an active form of PrRP in chicks, affects heat production (HP), respiratory quotient (RQ) and plasma concentrations of metabolic fuels in chicks. The ICV injection of PrRP31 (94 and 375pmol) did not affect HP but significantly lowered RQ. The change in RQ implies that PrRP31 shifted the utility of metabolic fuels in the body. This idea was confirmed by subsequent results in which ICV injection of PrRP31 significantly reduced glucose but increased non-esterified fatty acid concentrations in plasma. These shifts in blood metabolic fuels would not be through the increased plasma insulin, because the ICV injection of PrRP31 significantly decreased plasma insulin concentration. On the other hand, ICV injection of another orexigenic peptide, neuropeptide Y (NPY) also induced the insulin release and the metabolic effects were similar to those of PrRP31. Because ICV injection of PrRP31 increased NPY mRNA in the diencephalon, the NPY may mediate the metabolic functions of PrRP31. In summary, the present study suggests that central PrRP31 shifts the utilities of peripheral energy sources, which is not via hyperinsulinemia but via the diencephalon. [Copyright &y& Elsevier]

Published

2013

48. In vitro modification of substituted cysteines as tool to study receptor functionality and structure–activity relationships.

Author

Rathmann, Daniel, Pedragosa-Badia, Xavier, and Beck-Sickinger, Annette G.

Subjects

*STRUCTURE-activity relationships, *CYSTEINE, *G protein coupled receptors, *MOLECULAR structure, *SULFONATES, *MUTAGENESIS

Abstract

Abstract: Mutagenic investigations of expressed membrane proteins are routine, but the variety of modifications is limited by the twenty canonical amino acids. We describe an easy and effective cysteine substitution mutagenesis method to modify and investigate distinct amino acids in vitro. The approach combines the substituted cysteine accessibility method (SCAM) with a functional signal transduction readout system using different thiol-specific reagents. We applied this approach to the prolactin-releasing peptide receptor (PrRPR) to facilitate biochemical structure–activity relationship studies of eight crucial positions. Especially for D6.59C, the treatment with the positively charged methanethiosulfonate (MTS) ethylammonium led to an induced basal activity, whereas the coupling of the negatively charged MTS ethylsulfonate nearly reconstituted full activity, obviously by mimicking the wild-type charged side chain. At E5.26C, W5.28C, Y5.38C, and Q7.35C, accessibility was observed but hindered transfer into the active receptor conformation. Accordingly, the combination of SCAM and signaling assay is feasible and can be adapted to other G-protein-coupled receptors (GPCRs). This method circumvents the laborious way of inserting non-proteinogenic amino acids to investigate activity and ligand binding, with rising numbers of MTS reagents allowing selective side chain modification. This method pinpoints to residues being accessible but also presents potential molecular positions to investigate the global conformation. [Copyright &y& Elsevier]

Published

2013

49. Prolactin-releasing peptide is a potent mediator of the innate immune response in leukocytes from Salmo salar

Author

Romero, Alex, Manríquez, René, Alvarez, Claudio, Gajardo, Cristina, Vásquez, Jorge, Kausel, Gudrun, Monrás, Mónica, Olavarría, Víctor H., Yáñez, Alejandro, Enríquez, Ricardo, and Figueroa, Jaime

Subjects

*PROLACTIN, *PEPTIDES, *IMMUNE response, *NATURAL immunity, *LEUCOCYTES, *ATLANTIC salmon

Abstract

Abstract: Prolactin (PRL)-releasing peptide (PrRP) is a strong candidate stimulator of pituitary PRL transcription and secretion in teleosts. However, the role in control of extrapituitary PRL expression or its effects on innate immunity are unclear even in mammals. To study the possible presence of PrRP in peripheral organs, PrRP expression patterns and their effect on innate immunity were characterised in SHK-1 cells and head kidney (HK) leukocytes purified from the salmonid, Salmo salar. We detected immunoreactive cells in leukocytes from blood and HK of S. salar and found that PrRP mRNA was abundantly expressed in these cells. We have recently reported that physiological concentrations of native PRL, downstream of neuropeptide PrRP were able to induce expression of pro-inflammatory cytokines and the production of reactive oxygen species (ROS) in HK leukocytes and macrophages from S. salar and Sparus aurata. It is of interest to note that in this work we have revealed that synthetic PrRP was able to induce expression of pro-inflammatory cytokines (interleukins) IL-1β, IL-6, IL-8, IL-12 and PRL. We also show here that PrRP increased both (ROS) production and phagocytosis. Taken together, our results demonstrate for the first time that PrRP may be a local modulator of innate immune responses in leukocytes from S. salar. [Copyright &y& Elsevier]

Published

2012

50. The importance of the olfactory rosettes in maintaining pituitary prolactin and prolactin-releasing peptide levels during hyposmotic acclimation in silver sea bream (Sparus sarba)

Author

Kwong, Anna K.Y. and Woo, Norman Y.S.

Subjects

*RHABDOSARGUS sarba, *PROLACTIN, *PEPTIDES, *SALINITY, *MESSENGER RNA, *SODIUM, *EPITHELIAL cells

Abstract

Abstract: A potential role of the olfactory rosettes in maintaining prolactin (PRL) and prolactin-releasing peptide (PrRP) levels was examined in the euryhaline silver sea bream (Sparus sarba). The olfactory rosettes were surgically removed in silver sea bream adapted to hypo- (6ppt) and hyper-osmotic (33ppt) salinities and the mRNA expression of the two previously identified freshwater-adapting factors, prolactin (PRL) and prolactin-releasing peptide (PrRP), in silver sea bream was measured. The elevation of pituitary PRL and PrRP mRNA expression levels as seen in 6ppt-adapted fish was abolished by surgical removal of the olfactory rosettes. The PRL and PrRP expression levels in fish adapted to 6ppt were significantly lowered following olfactory rosette removal. On the other hand, hypothalamic PrRP mRNA expression in 6ppt-adapted fish did not change. Specific signals for Na+–K+-ATPase but not CFTR mRNA expression were detected in the surface layers of olfactory epithelial cells by in situ hybridization. The mRNA abundance of CFTR and Na+–K+-ATPase α and β subunits remained unchanged in the olfactory rosette of silver sea bream adapted to 0, 6, 12, 33 and 50ppt for 4weeks and in fish abruptly transferred from 33ppt to 6ppt. Data obtained from the olfactory rosette removal experiments suggest a possible role of the olfactory system for maintaining PRL and PrRP expression during hyposmotic acclimation in sea bream. [Copyright &y& Elsevier]

Published

2012