Histidyl-proline diketopiperazine: its biological role as a regulatory peptide

Summary Histidyl-proline diketopiperazine [cyclo(His-Pro)] is a metabolic of thyrotropin releasing hormone (TRH). This review summarizes the literature concerning cyclo (His-Pro) and, in addition, some studies dealing with TRH and other peptides that are considered of interest. The enzymes concerned with the metabolism of TRH are discussed. Distribution studies of peptides by immunological methods show that, while TRH is concentrated in synaptosomes, cyclo (His-Pro) is not, suggesting that cyclo (His-Pro) is not a classical neurotransmitter. Rat brain contains approximately three times as much cyclo (His-Pro) as TRH, mainly localized in the pituitary and hypothalamus. While the TRH is found in a free form, the cyclo (His-Pro) is bound to a carrier of molecular weight approximately 70 000. While specific membrane receptors for TRH have been detected in pituitary cells, no such receptors for cyclo (His-Pro) have yet been found in brain or pituitary; however, there is a specific binding of cyclo (His-Pro) to adrenal cortex membranes, Both TRH and cyclo (His-Pro) have effects in the central nervous system or pituitary. These include effects on prolactin release, thermoregulation, CNS depression, stereotypic behavior and cyclic nucleotide levels. Possible mechanisms and interrelations of these effects are discussed.     

Protein-energy malnutrition during pregnancy alters caffeine's effect on brain tissue of neonate rats

We studied whether protein-energy malnutrition changed brain susceptibility to a small dose of caffeine in newborn rats. Since we had demonstrated previously that caffeine intake during lactation increased the brain neuropeptide on newborns, we investigated further the effects of the prenatal administration of caffeine on TRH and cyclo (His-Pro). From day 13 of gestation to delivery day, pregnant rats in one group were fed either a 20% or a 6% protein diet ad libitum, and those in the other group were pair-fed with each protein diet supplemented with caffeine at an effective dose of 2 mg/100 g body weight. Upon delivery, brain weight, brain protein, RNA, DNA and the neuropeptides thyrotropin-releasing hormone (TRH) and cyclo (His-Pro) were measured in the newborn rats. A 6% protein without caffeine diet caused reductions in brain weights and brain protein, RNA and DNA contents, but did not alter brain TRH and cyclo (His-Pro) concentrations in the newborn animals. In the offspring from dams fed a 6% protein diet, caffeine administration significantly elevated brain weights and brain contents of protein, RNA and DNA. In contrast, these values were similar between noncaffeine and caffeine-supplemented animals in a 20% protein diet group. Brain TRH and cyclo (His-Pro) concentrations were not changed by caffeine administration. These data suggest that caffeine augments protein synthesis in the newborn rat brain when malnourished, but that the same dose of caffeine did not affect protein synthesis in brains of newborn rats from normally nourished dams. Therefore, the present findings indicate that the nutritional status of mothers during pregnancy has important implication in the impact of caffeine on their offspring's brains.     

Developmental changes in the distribution of rat brain pyroglutamate aminopeptidase,a possible determinant of endogenous cyclo(His-Pro) concentrations

The distribution of cyclo(His-Pro), thyrotropin-releasing hormone (TRH) and Pyroglutamate aminopeptidase activity in adult and developing rat brains were studied. A comparison of the subcellular distribution of Pyroglutamate aminopeptidase activity in hypothalamic and cerebral cortical extracts from adult rats exhibited remarkable differences. In hypothalamus, the enzyme activity was mainly associated with the soluble fraction whereas in cortex it was predominantly associated with the particulate fractions. During postnatal development, the brain concentrations of cyclo(His-Pro) and Pyroglutamate aminopeptidase activities declined with age. These data suggest that Pyroglutamate aminopeptidase activity, but not TRH, plays an active role in determining the levels of endogenous cyclo(His-Pro) concentrations in brain.     

Evidence for the presence of immunoreactive histidyl-proline diketopiperazine [Cyclo (His-Pro)] in the adult human brain

The current study was undertaken to evaluate the presence of cyclo (His-Pro) in adult human brain tissues obtained at autopsy. We found evidence for immunoreactive cyclo (His-Pro), which diluted in parallel to the radioimmunoassay standard curve and which had mobility on HPLC that was similar to synthetic cyclo (His-Pro), in several regions of the adult human brain. Whereas the levels of cyclo (His-Pro) in the pituitary stalk-median eminence were high (2.2 ng/mg protein), the concentrations in the whole hypothalamus were much lower (0.105 ng/mg protein). Among the extrahypothalamic brain regions examined, the levels of cyclo (His-Pro) were highest in the cerebellar hemisphere (0.168 ng/mg protein) and olfactory bulbs (0.180 ng/mg protein) and were lowest in the hippocampus (0.080 ng/mg protein) and occipital cortex (0.079 ng/mg protein). Thus, immunoreactive cyclo (His-Pro) has widespread distribution in the adult human brain and the potential exists for this cyclic diepeptide to play a role in human brain function.     

Influences of maternal caffeine on the neonatal rat brains vary with the nutritional states

The potential effect of maternal caffeine ingestion upon total brain protein and the concentration of two prototype neuropeptides, thyrotropin-releasing hormone (TRH) and its derivative, cyclo (His-Pro) in neonates was examined during the nursing period in the context of variable maternal protein intake. Maternal caffeine intake (2 mg/100 g body weight) significantly increased the total brain protein of neonates derived from dams fed a 6% casein diet, but not from dams fed a 12%- or 20%-casein diet. Maternal caffeine consumption significantly increased the amount of cyclo (His-Pro) in the neonatal brains in all groups. The percent increments in pups from dams fed 6%, 12%, and 20% casein diets were respectively 137%, 131%, and 120%. By contrast, no significant alterations were observed in TRH concentrations between caffeine and control groups. It is concluded that maternal caffeine can influence neonatal brain protein and cyclo (His-Pro) during nursing under conditions of protein-energy malnutrition.     

Distribution and characterization of cyclo (His-Pro)-like immunoreactivity in anuran (frog) skins

The distribution of cyclo (His-Pro)-like immunoreactivity in frog skins from seven frog species was examined. The chromatographic elution profile of cyclo (His-Pro)-like immunoreactivity in amphibian skins measured by radioimmunoassay corresponded precisely to that of [³H-Pro]-cyclo (His-Pro) after DEAE-Cellulose, Sephadex G-25 and high-pressure liquid chromatography. The concentrations of cyclo (His-Pro) in frog skins were much higher than the concentrations of TRH previously observed in skin and the concentrations of cyclo (His-Pro) in both brain and gastrointestinal tract.     

Lack of effect of histidyl-proline diketopiperazine on basal level and TRH-induced response of cytosolic calcium concentration in rat lactotrophs.

Histidyl-proline diketopiperazine [cyclo(His-Pro)] has recently been shown to inhibit prolactin (PRL) secretion in vitro and in vivo. This peptide is well known as a metabolite of thyrotropin-releasing hormone (TRH), which is one of the endogenous secretagogues of PRL. In this study, we investigated the effect of cyclo (His-Pro) on the cytosolic Ca2+ concentration [[Ca2+]i) in cultured lactotrophs by using a lactotroph-enriched fraction separated from female rat pituicytes by centrifugal elutriation. TRH (10 nM) induced a rapid rise in [Ca2+]i in the lactotrophs, followed by a plateau phase of prolonged increase in [Ca2+]i. In contrast, the addition of 100 microM of cyclo (His-Pro) caused no changes in the basal level or the TRH-induced plateau response of [Ca2+]i. Although pretreatment with cyclo (His-Pro) tended to decrease the biphasic increase in [Ca2+]i induced by TRH, the inhibitory effect was not statistically significant. These results demonstrated that cyclo (His-Pro) has no effect on [Ca2+]i in lactotrophs, and does not affect the TRH-induced increase in [Ca2+]i, indicating that the inhibition of PRL secretion by cyclo (His-Pro) may be primarily mediated by other intracellular messengers such as cyclic nucleotides and secondarily involved in other inhibitory systems including that of dopamine.     

Changes in rat liver cyclo(His-Pro) binding sites upon castration and testosterone administration

Histidyl-proline diketopiperazine [cyclo(His-Pro)] binding was compared in livers from male and female rats. Cyclo(His-Pro) binding of female rat liver was very much lower than that of male rat liver. Scatchard analysis showed that the sex difference in cyclo(His-Pro) binding was due to different binding capacity. Cyclo(His-Pro) binding of castrated male rat liver was significantly decreased. Testosterone replacement raised the binding to the control level, and an excess of testosterone increased the specific binding beyond the control level. The testosterone-induced changes in cyclo(His-Pro) binding were also due to variation in the binding capacity. These findings indicate that testosterone is an important factor in the regulation of cyclo(His-Pro) binding in the rat liver.     

On the mechanism of fasting-associated elevations in hypothalamic cyclo(His-Pro) content

Potential mechanism(s) underlying the fasting-associated rise in hypothalamic cyclo(His-Pro) content was explored by examining the effects of 24-hour fasting on: (i) cyclo(His-Pro) synthesis from TRH, (ii) cyclo(His-Pro) metabolism, and (iii) cyclo (His-Pro) secretion by hypothalamic tissue in vitro. The data presented here show that none of these three variables were altered due to fasting. Two additional potential changes that could cause cyclo(His-Pro) elevations during fasting are suggested. These include an in vivo decrease in hypothalamic cyclo(His-Pro) secretion that may not be apparent in vitro, and/or an increase in the synthesis of cyclo(His-Pro) from a precursor(s) other than TRH.     

Cyclo(His-Pro) up-regulates heme oxygenase 1 via activation of Nrf2-ARE signalling

Paraquat (1,1'-dimethyl-4,4'-bipyridinium), a widely used non-selective herbicide, is a redox cycling agent with adverse effects on dopamine systems. Epidemiological data have shown that exposure to paraquat is one of the several risk factors for Parkinson's disease. We have already shown that cyclo(His-Pro), an endogenous cyclic dipeptide produced by the cleavage of the thyrotropin releasing hormone, has a cytoprotective effect through a mechanism involving Nrf2 activation that decreases production of reactive oxygen species and increases glutathione synthesis. Using primary neuronal cultures and PC12 cells as targets of paraquat neurotoxicity, we addressed whether and how cyclo(His-Pro) causes cellular protective response against paraquat-mediated cell death. We found that cyclo(His-Pro) attenuated reactive oxygen species production, and prevented glutathione depletion by up-regulating Nrf2 gene expression, triggering its nuclear accumulation and activating the expression of heme oxygenase1. These protective effects were abolished by RNA interference-mediated Nrf2 knock down whereas were unaffected by RNA interference-mediated Keap1 knock down. Inhibition of heme oxygenase activity decreased cyclo(His-Pro)-induced neuroprotection. These results suggest that cyclo(His-Pro), acting as a selective activator of the brain modulable Nrf2 pathway, may be a promising candidate as neuroprotective agent that act through induction of phase II genes.     

Isolation of cyclo(His-Pro)-like immunoreactivity from human urine and demonstration of its immunologic, pharmacologic, and physico-chemical identity with the synthetic peptide

Measurements of cyclo(His-Pro) levels in human urine were carried out by specific radioimmunoassay. Cyclo(His-Pro)-like immunoreactivity in Human urine was found to be immunologically, pharmacologically, and physico-chemically identical to that of synthetic cyclo(His-Pro). The concentration of urinary cyclo(His-Pro) in 24-h collection was 1133.8 +/- 122.5 nmol/L, with a range of 606 to 1865 nmol/L. The daily excretion rate of cyclo(His-Pro) was 1812 +/- 248 nmol cyclo(His-Pro)/g creatinine, or 1814 +/- 199 nmol cyclo(His-Pro/day.     

Specific binding to adrenal particulate fraction of cyclo(histidyl-proline), a TRH metabolite

Histidyl-proline diketopiperazine (cyclo(His-Pro), a metabolite of the neuropeptide thyrotropin releasing hormone, has been shown to possess intrinsic biological activities. The binding of this peptide to various tissue particulate preparations was investigated. While the peptide showed no apparent binding to particulate fractions derived from brain, pituitary, and some other tissues, binding to adrenal and liver was demonstrated. The binding of cyclo(His-Pro) to bovine adrenal cortical particles was further characterized. Binding at equilibrium was greater at 4 degrees C than at 37 degrees C. The binding was dependent on tissue concentration, showed a pH optimum between 7 and 8, and was inactivated by treatment of the particulate fraction with trypsin or by boiling. The interaction of cyclo(His-Pro) with the tissue was not associated with any metabolism of the peptide. Kinetic studies of association of cyclo(His-Pro) with adrenal cortical particles indicated a single class of binding sites with a KD of approximately 900 nM and a maximum number of sites of 92 pmoles/mg protein. The binding was stereospecific and the histidine moiety of the peptide was the major determinant of the binding. A variety of catechols, serotonin and histamine competed with cyclo(His-Pro) for binding with IC50's ranging from 17-450 muM. Cyclo(His-Pro) did not affect monoamine oxidase or adenylate cyclase activity in adrenal cortical particulate preparations.     

Properties of histidyl-proline diketopiperazine [cyclo(His-Pro)] binding sites in rat liver

Characteristics of cyclo(His-Pro) binding sites in the rat liver were studied using 3H-labeled cyclo(His-Pro). Scatchard analysis suggested that the rat liver membrane had a single binding site with an apparent dissociation constant (Kd) of 7 X 10(-8) M. Pretreatment of membrane preparations with soybean trypsin inhibitor increased cyclo(His-Pro) binding, and the binding activity was sensitive to trypsin and phospholipase A digestion, suggesting that protein and phospholipid moieties are essential for cyclo(His-Pro) binding. Thiol reagents reduced binding activity, suggesting that the thiol group might be an important constituent of the cyclo(His-Pro) binding site. Cross-reactivities of TRH, TRH analogues, L-His and L-Pro were very low (0.2-9%). These findings indicate that specific binding sites for cyclo(His-Pro) in the rat liver have similar properties to the receptors for other polypeptides.     

[3H]cyclo(Histidyl-Proline) in rat tissues: Distribution,clearance and binding

Cyclo(Histidyl-Proline), a metabolite of TRH, has been demonstrated to have a number of biological activities. The clearance, distribution and binding of the peptide in the rat was studied. Cyclo(His-Pro) was cleared from the circulation biphasically ($\text{tl}\text{2}\text{= 1.25 and 33 min}$). Unmetabolized cyclo(His-Pro) appeared rapidly in urine. Accumulation of [³H]cyclo(His-Pro) in adrenal, liver and kidney was demonstrated. Membrane preparations from adrenal and liver, but not from kidney, brain, pituitary, and other tissues were shown to bind cyclo(His-Pro) specifically.     

Characterization and solubilization of cyclo(His-Pro) binding from rat liver membranes

We have found cyclo(His-Pro) binding in rat liver plasma membranes. This study focused on the characterization of solubilized binding for cyclo(His-Pro) in rat liver membranes. The cyclo(His-Pro) binding of liver membranes was solubilized by digitonin and octyl-glucopyranoside. The efficiency of solubilization with digitonin was greater. However, cyclo(His-Pro) binding was not solubilized by Triton X-100, CHAPS, or Lubrol. Digitonin-solubilized membranes showed cyclo(His-Pro) binding with a high affinity constant (17 nM) and a low binding capacity (38 fmol/mg protein). Lectins from wheat germ, Bandeiraea simplicifolia II, Dolichos biflorus, Glycine max, and Tetragonolobus purpureas significantly adsorbed [3H]cyclo(His-Pro)-binding complex, but Bandeiraea simplicifolia I, Ricinus communis I, or Lens culinaris did not adsorb the binding complex. An analysis of [3H]cyclo(His-Pro)-associated membranes by high performance gel filtration chromatography showed a radioactive peak of Mr 200,000. These data indicate that cyclo(His-Pro) binding of rat liver membranes is solubilized by digitonin and is a glycoprotein of Mr 200,000.     

Is all cyclo(His-Pro) derived from thyrotropin-releasing hormone?

Cyclo(His-Pro), or histidyl-proline diketopiperazine, is an endogenous cyclic dipeptide that is ubiquitously distributed in tissues and body fluids of both man and animals. This cyclic dipeptide is not only structurally related to thyrotropin-releasing hormone (TRH, pGlu-His-ProNH₂), but it can also arise from TRH by the action of the enzyme pyroglutamate amino-peptidase (pGlu-peptidase). The data on the distribution of TRH, cyclo(His-Pro), and pGlu-peptidase under normal and abnormal conditions are summarized and potential relationships analyzed. We conclude that all of the cyclo(His-Pro) cannot be derived from TRH. Two additional sources of cyclo(His-Pro) are suggested. It is proposed that 29,247 molecular weight TRH prohormone, prepro TRH, which contains 5 copies of TRH sequence, can be processed to yield cyclo(His-Pro). Thus, both TRH and cyclo(His-Pro) share a common precursor, prepro[TRH/Cyclo(His-Pro)].     

Histidyl-proline diketopiperazine cyclo (His-Pro): identification and characterization in rat pancreatic islets

Measurements of cyclo (His-Pro) in the pancreas were carried out in the rat by a specific radioimmunoassay. Cyclo (His-Pro)-like immunoreactivity was identified in pancreatic islets with a mean concentration of 2023 pg/mg protein, 88-fold higher than that of the whole pancreas. Cyclo (His-Pro) immunoreactivity from pancreatic extracts was indistinguishable immunologically and chromatographically from synthetic cyclo (His-Pro). Insulin-induced hypoglycemia caused a significant, 53% decrease in pancreatic cyclo (His-Pro) concentrations, and FLA-63, a dopamine beta-oxidase inhibitor, also reduced islet cyclo (His-Pro) concentrations 51%. These data indicate that cyclo (His-Pro) is present in rat pancreatic islets and may play a potential role in modulating pancreatic responses to nutrient and pharmacologic stimuli.     

Distribution and characterization of cyclo(His-Pro)-like immunoreactivity in the rat gastrointestinal tract

The distribution of cyclo(His-Pro), thyrotropin-releasing hormone (TRH) and $\text{pyroglutamate aminopeptidase}$ activity was examined in the rat gastrointestinal (GI) tract. Cyclo(His-Pro)-like immunoreactivity was present in the following order of distribution (fmoles/mg protein): caecum > colon = jejunum = ileum > stomach = duodenum = rectum, and was immunologically and chromatographically identical with the authentic cyclo(His-Pro). Cyclo(His-Pro) concentrations showed significantly positive correlations with TRH concentrations, but not with $\text{pyroglutamate aminopeptidase}$ activities, in most tissues of the GI tract, suggesting a precursor role of TRH for gut cyclo(His-Pro). These data suggest that cyclo(His-Pro) may be involved in regulating rat GI functions.     

Unresponsiveness of GH cells to cyclo(histidyl-proline), a metabolite of thyrotropin releasing hormone

Cyclo(Histidyl-Proline) is a metabolite of thyrotropin-releasing hormone. It has been suggested that this peptide plays a role in regulating prolactin secretion in GH cells. An investigation of the effect of cyclo(His-Pro) on GH cells indicated that it does not affect basal prolactin release or accumulation or the levels stimulated by TRH. cAMP levels in GH cells are elevated by TRH or VIP, but not influenced by cyclo(His-Pro). cGMP levels in GH cells are not affected by either TRH or cyclo(His-Pro). While there is specific binding of TRH to receptors in GH cells, no such receptors for cyclo(His-Pro) are detectable. It is suggested that GH cells are unresponsive to cyclo(His-Pro).