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9. Association Between Outbreaks of Highly Pathogenic Avian Influenza Subtype H5N1 and Migratory Waterfowl (Family Anatidae) Populations.

Author

Ward, M. P., Maftei, D. N., Apostu, C. L., and Suru, A. R.

Subjects
*AVIAN influenza, *POPULATION, *LIVESTOCK, *DISEASE outbreaks, *POULTRY, *INFLUENZA, *WATERFOWL
Abstract

Highly pathogenic avian influenza (HPAI) virus subtype H5N1 threatens poultry production and human health. Understanding the role that migratory waterfowl play in introducing and maintaining this infection is critical to control the outbreaks. A study was conducted to determine if the occurrence of HPAI subtype H5N1 outbreaks in village poultry in Romania, 2005–2006, was associated with proximity to populations of migratory waterfowl. Reported outbreaks – which could be grouped into three epidemic phases – and migratory waterfowl sites were mapped. The migratory waterfowl site closest to each outbreak was identified. The distances between outbreaks occurring in phase 1 and 2 of the epidemic and the closest migratory waterfowl site were significantly ( P < 0.001) less than in phase 3, but these distances were only useful in predicting when outbreaks occurred during phase 1 (October–December, 2005) of the epidemic. A spatial lag ( ρ = 0.408, P = 0.041) model best fit the data, using distance and [distance]*[distance] as predictors ( R2 = 0.425). The correlation between when outbreaks were predicted to occur and when they were observed to occur was 0.55 ( P = 0.006). Results support the hypothesis that HPAI virus subtype H5N1 infections of village poultry in Romania during the autumn of 2005 might have occurred via exposure to migratory populations of waterfowl. [ABSTRACT FROM AUTHOR]

Published
2009
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13. PC1, a non-peptide PKR1-preferring antagonist, reduces pain behavior and spinal neuronal sensitization in neuropathic mice

Author

De Novellis, Ma Scafuro, Daniela Maftei, Livio Luongo, S. Salvadori, Serena Boccella, Gianfranco Balboni, Francesca Guida, Roberta Lattanzi, Marconi, Lucia Negri, Sabatino Maione, Rosaria Romano, Guida, Francesca, Lattanzi, R, Boccella, S, Maftei, D, Romano, Rosa Lucia, Marconi, V, Balboni, G, Salvadori, S, Scafuro, Ma, DE NOVELLIS, Vito, Negri, L, Maione, Sabatino, and Luongo, Livio

Subjects
Male, Hot Temperature, Messenger, Neuropathic pain, Receptors, G-Protein-Coupled, Mice, Peripheral Nerve Injuries, Receptors, Neurons, Gastrointestinal Hormone, Analgesics, Spinal cord, Behavior, Animal, Triazines, Medicine (all), Sciatic Nerve, Electrophysiology, Triazine, Nociception, medicine.anatomical_structure, Hyperalgesia, Microglia, medicine.symptom, Astrocyte, SNi, Central nervous system, Glia, Prokineticin system, Animals, Astrocytes, Gastrointestinal Hormones, Neuralgia, Neuropeptides, RNA, Messenger, Spinal Cord, Pharmacology, NO, G-Protein-Coupled, medicine, Behavior, Animal, business.industry, Peripheral Nerve Injurie, Neuron, Nerve injury, Neuropeptide, nervous system, RNA, Analgesic, business, Neuroscience
Abstract

Peripheral neuropathy is characterized by abnormal pain responses triggered by the release of several mediators and neuronal hyperexcitability at the spinal cord level. Emerging evidence indicates that the enhanced activity of dorsal horn neurons requires communication with glia and microglia, cells that are physiologically involved in neuronal wellbeing. Prokineticins (PKs), which include PK1 and PK2, represent a novel family of chemokines characterized by a unique structural motif comprising five disulfide bonds. They are expressed in the peripheral and central nervous system. PKs bind two G protein coupled receptors, PKR1 and PKR2, and participate in the regulation of several biological processes, including pain sensation. This study aimed to investigate the anti-nociceptive effect of PC1, a non-peptide PKR1-preferring antagonist, in a mouse model of neuropathic pain. To do this, we assessed the activity of spinal cord nociceptive neurons as well as astrocyte and microglia phenotypes after repeated administration of PC1 in vivo. PC1 treatment strongly delayed the development of thermal hyperalgesia and tactile and mechanical allodynia. It also reduced spinal microglial and glial activation 8 days post injury in spared nerve injury (SNI) mice. Neuropathic mice showed an increased level of PK2 protein in the spinal cord, mostly in astrocytes. PC1 treatment completely reversed the increased responsiveness to mechanical stimuli, the decreased threshold of neuronal activation, and the increased spontaneous activity that were observed in nociceptive specific (NS) neurons of SNI mice.

Published
2015

14. Controlling the activation of the Bv8/prokineticin system reduces neuroinflammation and abolishes thermal and tactile hyperalgesia in neuropathic animals

Author

Maftei, Daniela, Marconi, Veronica, Florenzano, F, Giancotti, La, Castelli, M, Moretti, S, Borsani, E, Rodella, Lf, Balboni, G, Luongo, L, Maione, S, Sacerdote, P, Negri, L, Lattanzi, Roberta, Maftei, D., Marconi, V., Florenzano, F., Giancotti, L. A., Castelli, M., Moretti, S., Borsani, E., Rodella, L. F., Balboni, G., Luongo, L., Maione, S., Sacerdote, P., Negri, L., and Lattanzi, R.

Subjects
Male, Interleukin-1beta, Neuropeptides, Research Papers, Sciatic Nerve, Interleukin-10, Receptors, G-Protein-Coupled, Gastrointestinal Hormones, Mice, prokineticin, Spinal Cord, pain, bv8, Hyperalgesia, Ganglia, Spinal, Animals, Neuralgia, RNA, Messenger, Neuroglia
Abstract

Chemokines are involved in neuroinflammation and contribute to chronic pain processing. The new chemokine prokineticin 2 (PROK2) and its receptors (PKR1 and PKR2 ) have a role in inflammatory pain and immunomodulation. In the present study, we investigated the involvement of PROK2 and its receptors in neuropathic pain.Effects of single, intrathecal, perineural and s.c. injections of the PKR antagonist PC1, or of 1 week s.c. treatment, on thermal hyperalgesia and tactile allodynia was evaluated in mice with chronic constriction of the sciatic nerve (CCI). Expression and localization of PROK2 and of its receptors at peripheral and central level was evaluated 10 days after CCI, following treatment for 1 week with saline or PC1. IL-1β and IL-10 levels, along with glia activation, were evaluated.Subcutaneous, intrathecal and perineural PC1 acutely abolished the CCI-induced hyperalgesia and allodynia. At 10 days after CCI, PROK2 and its receptor PKR2 were up-regulated in nociceptors, in Schwann cells and in activated astrocytes of the spinal cord. Therapeutic treatment with PC1 (s.c., 1 week) alleviated established thermal hyperalgesia and allodynia, reduced the injury-induced overexpression of PROK2, significantly blunted nerve injury-induced microgliosis and astrocyte activation in the spinal cord and restored the physiological levels of proinflammatory and anti-inflammatory cytokines in periphery and in spinal cord.The prokineticin system contributes to pain modulation via neuron-glia interaction. Sustained inhibition of the prokineticin system, at peripheral or central levels, blocked both pain symptoms and some events underlying disease progression.

Published
2014

15. Post-COVID-19 Hyposmia Does Not Exhibit Main Neurodegeneration Markers in the Olfactory Pathway.

Author

Schirinzi T, Maftei D, Maurizi R, Albanese M, Simonetta C, Bovenzi R, Bissacco J, Mascioli D, Boffa L, Di Certo MG, Gabanella F, Francavilla B, Di Girolamo S, Mercuri NB, Passali FM, Lattanzi R, and Severini C

Subjects
Humans, Female, Male, Middle Aged, Aged, alpha-Synuclein metabolism, Neurodegenerative Diseases metabolism, Neurodegenerative Diseases complications, Olfactory Mucosa metabolism, Olfactory Mucosa pathology, Olfactory Mucosa virology, Neurofilament Proteins metabolism, Olfactory Receptor Neurons metabolism, Adult, SARS-CoV-2, Olfaction Disorders etiology, Olfaction Disorders virology, COVID-19 complications, Anosmia metabolism, Amyloid beta-Peptides metabolism, Biomarkers metabolism, Olfactory Pathways metabolism, Olfactory Pathways pathology, tau Proteins metabolism
Abstract

The biological substrate of persistent post-COVID-19 hyposmia is still unclear. However, as many neurodegenerative diseases present with smell impairment at onset, it may theoretically reflect degeneration within the central olfactory circuits. However, no data still exist regarding the post-COVID-19 patients. As the olfactory neurons (ONs) mirror pathological changes in the brain, allowing for tracking the underlying molecular events, here, we performed a broad analysis of ONs from patients with persistent post-COVID-19 OD to identify traces of potential neurodegeneration. ONs were collected through the non-invasive brushing of the olfactory mucosa from ten patients with persistent post-COVID-19 hyposmia (lasting > 6 months after infection) and ten age/sex-matched controls. Immunofluorescence staining for protein quantification and RT-PCR for gene expression levels were combined to measure ONs markers of α-synuclein, amyloid-β, and tau pathology, axonal injury, and mitochondrial network. Patients and controls had similar ONs levels of oligomeric α-synuclein, amyloid-β peptide, tau protein, neurofilament light chain (NfL), cytochrome C oxidase subunit 3 (COX3), and the heat shock protein 60 (HSP60). Our findings thus did not provide evidence for synucleinopathy and amyloid-β mismetabolism or gross traces of neuronal injury and mitochondrial dysfunction within the olfactory system in the early phase of persistent post-COVID-19 hyposmia., (© 2024. The Author(s).)

Published
2024
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16. Biochemical characterization of Prokineticin 2 binding to Prokineticin receptor 1 in zebrafish.

Author

Lattanzi R, Fullone MR, De Biase A, Maftei D, Vincenzi M, and Miele R

Subjects
Animals, CHO Cells, Zebrafish Proteins metabolism, Zebrafish Proteins genetics, Protein Binding, Amino Acid Sequence, Phylogeny, Gastrointestinal Hormones metabolism, STAT3 Transcription Factor metabolism, Receptors, Gastrointestinal Hormone metabolism, Receptors, Gastrointestinal Hormone genetics, Humans, Signal Transduction, Neuropeptides metabolism, Zebrafish, Receptors, G-Protein-Coupled metabolism, Receptors, G-Protein-Coupled genetics, Cricetulus
Abstract

Prokineticin 2 (PK2) binds to prokineticin receptor 1 and prokineticin receptor 2 (PKR1 and PKR2, respectively), two G protein-coupled receptors (GPCRs) that can mediate multiple signalling pathways by promoting the elevation of intracellular calcium and cAMP levels, phosphorylation of Akt and activation of ERK and STAT3. This work aims to evidence the conservation of protein sequence and the mechanism of PK2 binding to PKR1 to use the zebrafish model for the identification of new drugs as targets of prokineticin receptors. To this end, we first demonstrated that the zebrafish genes pk2 and pkr1 are phylogenetically related to orthologous mammalian genes by constructing evolutionary trees and performing syntenic analyses. Subsequently, by comparing the amino acid sequences, we showed that the interaction sites with PK2 are conserved in the zPKR1. Using GST pull-down and cross-linking experiments, we demonstrated the crucial role of the N-terminal region of zPKR1 for binding to the PK2. Finally, by expressing zPKR1 in CHO cells, we demonstrated the ability of zPKR1 to induce the activation of ERK and STAT3., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier Ltd.)

Published
2024
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17. Immunometabolic Signature and Tauopathy Markers in Blood Cells of Progressive Supranuclear Palsy.

Author

Rosina M, Veltri F, Nesci V, Bissacco J, Bovenzi R, Mascioli D, Simonetta C, Zenuni H, Maftei D, Marano M, Pierantozzi M, Stefani A, Chiurchiù V, Longone P, Valle C, Mercuri NB, Ferri A, and Schirinzi T

Abstract

Background: Peripheral immune cells critically contribute to the clinical-pathological progression of neurodegenerative diseases and also represent a reliable frame for translational applications. However, data on progressive supranuclear palsy (PSP) are almost scarce in this regard., Objective: Our goal is to provide a broad biological characterization of peripheral immune cells in a selected PSP cohort., Methods: Seventy-one PSP patients scored on the PSP Rating Scale (PSPRS), and 59 controls were enrolled. The blood cell count was collected, together with the neutrophil-to-lymphocyte ratio (NLR) calculation. In a subgroup of patients and controls, the peripheral blood mononuclear cells (PBMCs) were analyzed by the mitochondrial bioenergetic performance and the western blot assay of the nuclear factor erythroid 2-related factor (NRF2)/heme oxygenase 1 (HO-1) pathway and the total tau (t-tau) and phosphorylated tau (p-tau) proteins. Case-control comparison and correlation analyses were performed., Results: PSP patients had a NLR higher than controls, with increased circulating neutrophils. The leukocyte metabolism was also globally increased and the NRF2/HO-1 pathway activated in patients. P-tau, but not t-tau, significantly accumulated in PSP PBMCs and inversely correlated with the PSPRS., Conclusions: PSP displays a systemic inflammatory shift of the peripheral immunity, which may justify a metabolic reprogramming of the blood leukocytes. Consistently, the NRF2/HO-1 pathway, a master regulator of inflammatory and metabolic response, was activated. PBMCs also engulf tau proteins, especially p-tau, in a way inverse to the disease severity, allowing for a peripheral tracking of tauopathy in patients. Immunometabolic targets may, therefore, gain relevance to PSP in biomarker or therapeutic purposes. © 2024 International Parkinson and Movement Disorder Society., (© 2024 International Parkinson and Movement Disorder Society.)

Published
2024
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18. MRAP2a Binds and Modulates Activity and Localisation of Prokineticin Receptor 1 in Zebrafish.

Author

Fullone MR, Maftei D, Vincenzi M, Lattanzi R, and Miele R

Subjects
Animals, Humans, Adaptor Proteins, Signal Transducing metabolism, CHO Cells, Cricetulus, Protein Binding, Receptors, Peptide metabolism, Receptors, G-Protein-Coupled metabolism, Zebrafish metabolism, Zebrafish Proteins metabolism, Zebrafish Proteins genetics
Abstract

The prokineticin system plays a role in hypothalamic neurons in the control of energy homeostasis. Prokineticin receptors (PKR1 and PKR2), like other G-protein-coupled receptors (GPCRs) are involved in the regulation of energy intake and expenditure and are modulated by the accessory membrane protein 2 of the melanocortin receptor (MRAP2). The aim of this work is to characterise the interaction and regulation of the non-melanocortin receptor PKR1 by MRAP2a in zebrafish (zMRAP2a) in order to use zebrafish as a model for the development of drugs targeting accessory proteins that can alter the localisation and activity of GPCRs. To this end, we first showed that zebrafish PKR1 (zPKR1) is able to interact with both zMRAP2a and human MRAP2 (hMRAP2). This interaction occurs between the N-terminal region of zPKR1 and the C-terminal domain of zMRAP2a, which shows high sequence identity with hMRAP2 and a similar propensity for dimer formation. Moreover, we demonstrated that in Chinese hamster ovary (CHO) cells, zMRAP2a or hMRAP2 are able to modulate zPKR1 activation induced by zebrafish PK2 (zPK2) resulting in an impaired ERK and STAT3 activation.

Published
2024
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19. MRAP2 Inhibits β-Arrestin-2 Recruitment to the Prokineticin Receptor 2.

Author

Lattanzi R, Casella I, Fullone MR, Maftei D, Vincenzi M, and Miele R

Abstract

Melanocortin receptor accessory protein 2 (MRAP2) is a membrane protein that binds multiple G protein-coupled receptors (GPCRs) involved in the control of energy homeostasis, including prokineticin receptors. These GPCRs are expressed both centrally and peripherally, and their endogenous ligands are prokineticin 1 (PK1) and prokineticin 2 (PK2). PKRs couple all G-protein subtypes, such as Gαq/11, Gαs, and Gαi, and recruit β-arrestins upon PK2 stimulation, although the interaction between PKR2 and β-arrestins does not trigger receptor internalisation. MRAP2 inhibits the anorexigenic effect of PK2 by binding PKR1 and PKR2. The aim of this work was to elucidate the role of MRAP2 in modulating PKR2-induced β-arrestin-2 recruitment and β-arrestin-mediated signalling. This study could allow the identification of new specific targets for potential new drugs useful for the treatment of the various pathologies correlated with prokineticin, in particular, obesity.

Published
2024
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20. Reduced expression of secretogranin VGF in laryngeal squamous cell carcinoma.

Author

Gabanella F, Maftei D, Colizza A, Rullo E, Riminucci M, Pasqualucci E, Di Certo MG, Lattanzi R, Possenti R, Corsi A, Greco A, De Vincentiis M, Severini C, and Ralli M

Abstract

Laryngeal cancer accounts for one-third of all head and neck tumors, with squamous cell carcinoma (SCC) being the most predominant type, followed by neuroendocrine tumors. Chromogranins, are commonly used as biomarkers for neuroendocrine tumors, including laryngeal cancer. It has been reported that secretogranin VGF, a member of the chromogranin family, can be also used as a significant biomarker for neuroendocrine tumors. However, the expression and role of VGF in laryngeal carcinomas have not been previously investigated. Therefore, the present study aimed to determine the expression levels of VGF in laryngeal SCC (LSCC). The present study collected tumor tissues, as well as serum samples, from a cohort of 15 patients with LSCC. The results of reverse transcription-quantitative PCR, western blot analysis and immunofluorescence assays showed that the selective VGF precursor was downregulated in patients with LSCC. Notably, in tumor tissue, the immunoreactivity for VGF was found in vimentin-positive cells, probably corresponding to T lymphocytes. The current preliminary study suggested that the reduced expression levels of VGF observed in tumor tissue and at the systemic level could sustain LSCC phenotype. Overall, VGF could be a potential biomarker for detecting neoplastic lesions with a higher risk of tumor invasiveness, even in non-neuroendocrine tumors., Competing Interests: The authors declare that they have no competing interests., (Copyright © 2023, Spandidos Publications.)

Published
2023
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22. Blocking prokineticin receptors attenuates synovitis and joint destruction in collagen-induced arthritis.

Author

Impellizzeri D, Maftei D, Severini C, Miele R, Balboni G, Siracusa R, Cordaro M, Di Paola R, Cuzzocrea S, and Lattanzi R

Subjects
Mice, Animals, Tumor Necrosis Factor-alpha metabolism, Pain, Synovial Membrane, Arthritis, Experimental pathology, Synovitis metabolism, Arthritis, Rheumatoid drug therapy, Arthritis, Rheumatoid metabolism
Abstract

Rheumatoid arthritis (RA) is a chronic inflammatory disease mediated by an interdependent network of proinflammatory molecules such as chemokines. Prokineticin 2 (PK2) is a chemokine-like peptide that modulates nociceptive threshold and immuno-inflammatory processes via two G-protein-linked receptors, prokineticin receptor 1 and 2 (PKR1 and PKR2). In the present study, we investigated the effects of the prokineticin receptor antagonist PC1 on arthritic pain and the inflammatory response in type II collagen-induced arthritis (CIA) in mice. We demonstrated that PC1, administered subcutaneously from day 25 to day 35 after CIA, improved clinical signs of arthritis such as paw edema, pain, and impaired locomotor activity. In CIA mice, PC1 was also able to lower plasma malondialdehyde (MDA) levels, suggesting a role in reducing oxidative damage, as well as joint expression levels of PK2, PKRs, TNFα, IL-1β, CD4, CD8, and NF-kB. These results suggest that blocking PKRs may be a successful strategy to control arthritic pain and pathology development. KEY MESSAGES: PK2/PKRs expression levels strongly increase in the synovium of RA mice. PC1 treatment shows anti-arthritic activity and reduces arthritis-induced pain. PC1 treatment significantly lowers synovial PK2/PKRs levels. PC1 treatment lowers plasma MDA levels and synovial levels of TNFα and IL -1β PC1 treatment is a viable therapeutic option for RA., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2023
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23. Substance P and Prokineticin-2 are overexpressed in olfactory neurons and play differential roles in persons with persistent post-COVID-19 olfactory dysfunction.

Author

Schirinzi T, Lattanzi R, Maftei D, Grillo P, Zenuni H, Boffa L, Albanese M, Simonetta C, Bovenzi R, Maurizi R, Loccisano L, Vincenzi M, Greco A, Di Girolamo S, Mercuri NB, Passali FM, and Severini C

Subjects
Humans, Neurons, Post-Acute COVID-19 Syndrome, SARS-CoV-2, Smell, Substance P, COVID-19, Olfaction Disorders
Abstract

Persistent olfactory dysfunction (OD) is one of the most complaining and worrying complications of long COVID-19 because of the potential long-term neurological consequences. While causes of OD in the acute phases of the SARS-CoV-2 infection have been figured out, reasons for persistent OD are still unclear. Here we investigated the activity of two inflammatory pathways tightly linked with olfaction pathophysiology, namely Substance P (SP) and Prokineticin-2 (PK2), directly within the olfactory neurons (ONs) of patients to understand mechanisms of persistent post-COVID-19 OD. ONs were collected by non-invasive brushing from ten patients with persistent post-COVID-19 OD and ten healthy controls. Gene expression levels of SP, Neurokinin receptor 1, Interleukin-1β (IL-1β), PK2, PK2 receptors type 1 and 2, and Prokineticin-2-long peptide were measured in ONs by Real Time-PCR in both the groups, and correlated with residual olfaction. Immunofluorescence staining was also performed to quantify SP and PK2 proteins. OD patients, compared to controls, exhibited increased levels of both SP and PK2 in ONs, the latter proportional to residual olfaction. This work provided unprecedented, preliminary evidence that both SP and PK2 pathways may have a role in persistent post-COVID-19 OD. Namely, if the sustained activation of SP, lasting months after infection's resolution, might foster chronic inflammation and contribute to hyposmia, the PK2 expression could instead support the smell recovery., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2023
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24. Olfactory Neuron Prokineticin-2 as a Potential Target in Parkinson's Disease.

Author

Schirinzi T, Maftei D, Passali FM, Grillo P, Zenuni H, Mascioli D, Maurizi R, Loccisano L, Vincenzi M, Rinaldi AM, Ralli M, Di Girolamo S, Stefani A, Lattanzi R, Severini C, and Mercuri NB

Subjects
Humans, alpha-Synuclein genetics, Mental Status and Dementia Tests, Neurons metabolism, Reproducibility of Results, Parkinson Disease genetics
Abstract

Objective: The objective of this study was to outline the dynamics of prokineticin-2 pathway in relation to clinical-pathological features of Parkinson's disease by examining olfactory neurons of patients., Methods: Thirty-eight patients (26 de novo, newly diagnosed) and 31 sex/age-matched healthy controls underwent noninvasive mucosa brushing for olfactory neurons collection, and standard clinical assessment. Gene expression levels of prokineticin-2, prokineticin-2 receptors type 1 and 2, and prokineticin-2-long peptide were measured in olfactory neurons by real-time polymerase chain reaction (PCR); moreover, the prokineticin-2 protein and α-synuclein species (total and oligomeric) were quantified by immunofluorescence staining., Results: Prokineticin-2 expression was significantly increased in Parkinson's disease. De novo patients had higher prokineticin-2 levels, directly correlated with Movement Disorder Society-Sponsored Revision of the Unified Parkinson Disease Rating Scale (MDS-UPDRS) part III motor score. In addition, oligomeric α-synuclein was higher in Parkinson's disease and directly correlated with prokineticin-2 protein levels. Total α-synuclein did not differ between patients and controls., Interpretation: Prokineticin-2 is a chemokine showing neuroprotective effects in experimental models of Parkinson's disease, but translational proof of its role in patients is still lacking. Here, we used olfactory neurons as the ideal tissue to analyze molecular stages of neurodegeneration in vivo, providing unprecedented evidence that the prokineticin-2 pathway is activated in patients with Parkinson's disease. Specifically, prokineticin-2 expression in olfactory neurons was higher at early disease stages, proportional to motor severity, and associated with oligomeric α-synuclein accumulation. These data, consistently with preclinical findings, support prokineticin-2 as a candidate target in Parkinson's disease, and validate reliability of olfactory neurons to reflect pathological changes of the disease. ANN NEUROL 2023;93:196-204., (© 2022 American Neurological Association.)

Published
2023
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25. Arginine 125 Is an Essential Residue for the Function of MRAP2.

Author

Fullone MR, Maftei D, Vincenzi M, Lattanzi R, and Miele R

Subjects
Animals, Humans, Hypothalamus metabolism, Mice, Paraventricular Hypothalamic Nucleus metabolism, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Adaptor Proteins, Signal Transducing metabolism, Arginine metabolism
Abstract

MRAP2 is a small simple transmembrane protein arranged in a double antiparallel topology on the plasma membrane. It is expressed in the paraventricular nucleus of the hypothalamus, where it interacts with various G protein-coupled receptors, such as the prokineticin receptors, and regulates energy expenditure and appetite. The aim of this work was to analyze the functional role of the specific arginine residue at position 125 of MRAP2, which affects protein conformation, dimer formation, and PKR2 binding. Results obtained with the MRAP2 mutants R125H and R125C, which are found in human patients with extreme obesity, and mouse MRAP2, in which arginine 125 is normally replaced by histidine, were compared with those obtained with human MRAP2. Understanding the mechanism by which MRAP2 regulates G protein-coupled receptors helps in elucidating the metabolic pathways involved in metabolic dysfunction and in developing new drugs as specific targets of the MRAP2-PKR2 complex.

Published
2022
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26. Identification of Regions Involved in the Physical Interaction between Melanocortin Receptor Accessory Protein 2 and Prokineticin Receptor 2.

Author

Fullone MR, Maftei D, Vincenzi M, Lattanzi R, and Miele R

Subjects
Carrier Proteins metabolism, Receptors, G-Protein-Coupled metabolism, Receptors, Melanocortin metabolism, Signal Transduction, Adaptor Proteins, Signal Transducing metabolism, Melanocortins metabolism
Abstract

Melanocortin Receptor Accessory Protein 2 (MRAP2) modulates the trafficking and signal transduction of several G-protein-coupled receptors (GPCRs) involved in the control of energy homeostasis, such as Prokineticin receptors (PKRs). They bind the endogenous ligand prokineticin 2 (PK2), a novel adipokine that has an anorexic effect and modulates thermoregulation and energy homeostasis. In the present work, we used biochemical techniques to analyze the mechanism of interaction of MRAP2 with PKR2 and we identified the specific amino acid regions involved in the complex formation. Our results indicate that MRAP2 likely binds to the N-terminal region of PKR2, preventing glycosylation and consequently the correct receptor localization. We also identified a C-terminal region of MRAP2 that is critical for the interaction with PKR2. Consequently, we analyzed the role of the prokineticin transduction system in the regulation of MRAP2 expression in tissues involved in the control of food intake: at the central level, in hypothalamic explants, and at the peripheral level, in adipocytes. We demonstrated the modulation of MRAP2 expression by the prokineticin transduction system.

Published
2022
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27. Targeting Chemokines and Chemokine GPCRs to Enhance Strong Opioid Efficacy in Neuropathic Pain.

Author

Vincenzi M, Milella MS, D'Ottavio G, Caprioli D, Reverte I, and Maftei D

Abstract

Neuropathic pain (NP) originates from an injury or disease of the somatosensory nervous system. This heterogeneous origin and the possible association with other pathologies make the management of NP a real challenge. To date, there are no satisfactory treatments for this type of chronic pain. Even strong opioids, the gold-standard analgesics for nociceptive and cancer pain, display low efficacy and the paradoxical ability to exacerbate pain sensitivity in NP patients. Mounting evidence suggests that chemokine upregulation may be a common mechanism driving NP pathophysiology and chronic opioid use-related consequences (analgesic tolerance and hyperalgesia). Here, we first review preclinical studies on the role of chemokines and chemokine receptors in the development and maintenance of NP. Second, we examine the change in chemokine expression following chronic opioid use and the crosstalk between chemokine and opioid receptors. Then, we examine the effects of inhibiting specific chemokines or chemokine receptors as a strategy to increase opioid efficacy in NP. We conclude that strong opioids, along with drugs that block specific chemokine/chemokine receptor axis, might be the right compromise for a favorable risk/benefit ratio in NP management.

Published
2022
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28. Identification and Characterization of a New Splicing Variant of Prokineticin 2.

Author

Lattanzi R, Maftei D, Vincenzi M, Fullone MR, and Miele R

Abstract

Prokineticin 2 (PROK2) is a secreted bioactive peptide that regulates a variety of biological responses via two GPCRs, the prokineticin receptors (PROKRs). The aim of this study was to characterize a new alternatively spliced product of the prok2 gene consisting of four exons. The 40-amino acid peptide, designated PROK2C, is encoded by exon 1 and exon 4, and its expression was detected in the hippocampus and spinal cord of mice. PROK2C was expressed in a heterologous system, Pichia pastoris , and its binding specificity to the amino-terminal regions of PROKR1 and PROKR2 was investigated by GST pull-down experiments. In addition, the introduction of the unnatural amino acid p-benzoyl-L-phenylalanine using amber codon suppression technology demonstrated the role of tryptophan at position 212 of PROKR2 for PROK2C binding by photoactivatable cross-linking. The functional significance of this new isoform was determined in vivo by nociceptive experiments, which showed that PROK2C elicits strong sensitization of peripheral nociceptors to painful stimuli. In order to analyze the induction of PROK2C signal transduction, STAT3 and ERK phosphorylation levels were determined in mammalian CHO cells expressing PROKR1 and PROKR2. Our data show by in vivo and in vitro experiments that PROK2C can bind and activate both prokineticin receptors.

Published
2022
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29. Serum prokineticin-2 in prepubertal and adult Klinefelter individuals.

Author

Fiore M, Tarani L, Radicioni A, Spaziani M, Ferraguti G, Putotto C, Gabanella F, Maftei D, Lattanzi R, Minni A, Greco A, Tarani F, and Petrella C

Subjects
Adolescent, Adult, Biomarkers blood, Child, Humans, Infertility, Male etiology, Karyotype, Klinefelter Syndrome complications, Male, Middle Aged, Sexual Maturation, Spermatogenesis, Testosterone deficiency, Young Adult, Gastrointestinal Hormones blood, Infertility, Male diagnosis, Klinefelter Syndrome blood, Neuropeptides blood
Abstract

The prokineticin-2 (PROK2) is a small peptide belonging to the prokineticin family. In humans and rodents this chemokine is primarily involved in the control of central and peripheral reproductive processes. Klinefelter's syndrome (KS) is the first cause of male genetic infertility, due to an extra X chromosome, which may occur with a classical karyotype (47, XXY) or mosaic forms (46, XY/47, XXY). In affected subjects, pubertal maturation usually begins at an adequate chronological age, but when development is almost complete, they display a primary gonadal failure, with early spermatogenesis damage, and later onset of testosterone insufficiency. Thus, the main aim of the present study was to investigate the serum levels of PROK2 in prepubertal and adult KS patients, comparing them with healthy subjects. We showed for the first time the presence of PROK2 in the children serum but with significant changes in KS individuals. Indeed, compared with healthy subjects characterized by PROK2 serum elevation during the growth, KS individuals showed constant serum levels during the sexual maturation phase (higher during the prepubertal phase but lower during the adult age). In conclusion, these data indicate that in KS individuals PROK2 may be considered a biomarker for investigating the SK infertility process.

Published
2022
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31. Potential Clinical Role of Prokineticin 2 (PK2) in Neurodegenerative Diseases.

Author

Maftei D, Schirinzi T, Mercuri NB, Lattanzi R, and Severini C

Subjects
Animals, Brain, Disease Models, Animal, Neurodegenerative Diseases, Alzheimer Disease, Parkinson Disease
Abstract

The role of the immune system in neurodegenerative diseases such as Alzheimer's disease (AD) and Parkinson's disease (PD) has become clear in recent decades, as evidenced by the presence of activated microglia and astrocytes and numerous soluble mediators in the brain and peripheral tissues of affected patients. Among inflammatory mediators, chemokines play a central role in neuroinflammation due to their dual function as chemoattractants for immune cells and molecular messengers in crosstalk among CNS-resident cells. The chemokine Bv8/Prokineticin 2 (PK2) has recently emerged as an important player in many age-related and chronic diseases that are either neurodegenerative or systemic. In this perspective paper, we briefly discuss the role that PK2 and its cognate receptors play in AD and PD animal models and in patients. Given the apparent changes in PK2 blood levels in both AD and PD patients, the potential clinical value of PK2 either as a disease biomarker or as a therapeutic target for these disorders is discussed., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published
2022
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32. Role of Enteric Glia as Bridging Element between Gut Inflammation and Visceral Pain Consolidation during Acute Colitis in Rats.

Author

Lucarini E, Seguella L, Vincenzi M, Parisio C, Micheli L, Toti A, Corpetti C, Del Re A, Squillace S, Maftei D, Lattanzi R, Ghelardini C, Di Cesare Mannelli L, and Esposito G

Abstract

Acute inflammation is particularly relevant in the pathogenesis of visceral hypersensitivity associated with inflammatory bowel diseases. Glia within the enteric nervous system, as well as within the central nervous system, contributes to neuroplasticity during inflammation, but whether enteric glia has the potential to modify visceral sensitivity following colitis is still unknown. This work aimed to investigate the occurrence of changes in the neuron-glial networks controlling visceral perception along the gut-brain axis during colitis, and to assess the effects of peripheral glial manipulation. Enteric glia activity was altered by the poison fluorocitrate (FC; 10 µmol kg -1 i.p.) before inducing colitis in animals (2,4-dinitrobenzenesulfonic acid, DNBS; 30 mg in 0.25 mL EtOH 50%), and visceral sensitivity, colon damage, and glia activation along the pain pathway were studied. FC injection significantly reduced the visceral hyperalgesia, the histological damage, and the immune activation caused by DNBS. Intestinal inflammation is associated with a parallel overexpression of TRPV1 and S100β along the gut-brain axis (colonic myenteric plexuses, dorsal root ganglion, and periaqueductal grey area). This effect was prevented by FC. Peripheral glia activity modulation emerges as a promising strategy for counteracting visceral pain induced by colitis.

Published
2021
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33. The balance of concentration between Prokineticin 2β and Prokineticin 2 modulates the food intake by STAT3 signaling.

Author

Maftei D, Lattanzi R, Vincenzi M, Squillace S, Fullone MR, and Miele R

Abstract

The secreted bioactive peptide prokineticin 2 (PK2) is a potent adipokine and its central and peripheral administration reduces food intake in rodents. The pk2 gene has two splice variants, PK2 and PK2L (PK2 long form), which is cleaved into an active peptide, PK2β, that preferentially binds prokineticin receptor 1 (PKR1). We investigated the role of PK2β in the regulation of food intake. We demonstrated that intraperitoneal injection of PK2β, in contrast to PK2, did not reduce food intake in mice. Exposure of hypotalamic explants to PK2, but not PK2β, induced phosphorylation of STAT3 and ERK. We also evidenced that in adipocytes from PKR1 knock-out mice, a model of obesity, there were higher PK2β levels than PK2 inducing a decreased activation of STAT3 and ERK. Our results suggest that variations in PK2 and PK2β levels, due to modulation of pk2 gene splicing processes, affect food intake in mice., Competing Interests: The authors claim no conflict of interest., (© 2021 The Authors.)

Published
2021
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34. High-fat diet impairs duodenal barrier function and elicits glia-dependent changes along the gut-brain axis that are required for anxiogenic and depressive-like behaviors.

Author

Seguella L, Pesce M, Capuano R, Casano F, Pesce M, Corpetti C, Vincenzi M, Maftei D, Lattanzi R, Del Re A, Sarnelli G, Gulbransen BD, and Esposito G

Subjects
Animals, Body Weight, Duodenum metabolism, Male, Mice, Mice, Inbred C57BL, Myenteric Plexus metabolism, Myenteric Plexus pathology, Neuroglia pathology, Neurons metabolism, Neurons pathology, Nodose Ganglion metabolism, Nodose Ganglion pathology, Brain metabolism, Brain pathology, Depression etiology, Diet, High-Fat adverse effects, Duodenum pathology, Mental Disorders etiology, Neuroglia metabolism
Abstract

Background: Mood and metabolic disorders are interrelated and may share common pathological processes. Autonomic neurons link the brain with the gastrointestinal tract and constitute a likely pathway for peripheral metabolic challenges to affect behaviors controlled by the brain. The activities of neurons along these pathways are regulated by glia, which exhibit phenotypic shifts in response to changes in their microenvironment. How glial changes might contribute to the behavioral effects of consuming a high-fat diet (HFD) is uncertain. Here, we tested the hypothesis that anxiogenic and depressive-like behaviors driven by consuming a HFD involve compromised duodenal barrier integrity and subsequent phenotypic changes to glia and neurons along the gut-brain axis., Methods: C57Bl/6 male mice were exposed to a standard diet or HFD for 20 weeks. Bodyweight was monitored weekly and correlated with mucosa histological damage and duodenal expression of tight junction proteins ZO-1 and occludin at 0, 6, and 20 weeks. The expression of GFAP, TLR-4, BDNF, and DCX were investigated in duodenal myenteric plexus, nodose ganglia, and dentate gyrus of the hippocampus at the same time points. Dendritic spine number was measured in cultured neurons isolated from duodenal myenteric plexuses and hippocampi at weeks 0, 6, and 20. Depressive and anxiety behaviors were also assessed by tail suspension, forced swimming, and open field tests., Results: HFD mice exhibited duodenal mucosa damage with marked infiltration of immune cells and decreased expression of ZO-1 and occludin that coincided with increasing body weight. Glial expression of GFAP and TLR4 increased in parallel in the duodenal myenteric plexuses, nodose ganglia, and hippocampus in a time-dependent manner. Glial changes were associated with a progressive decrease in BDNF, and DCX expression, fewer neuronal dendritic spines, and anxiogenic/depressive symptoms in HFD-treated mice. Fluorocitrate (FC), a glial metabolic poison, abolished these effects both in the enteric and central nervous systems and prevented behavioral alterations at week 20., Conclusions: HFD impairs duodenal barrier integrity and produces behavioral changes consistent with depressive and anxiety phenotypes. HFD-driven changes in both peripheral and central nervous systems are glial-dependent, suggesting a potential glial role in the alteration of the gut-brain signaling that occurs during metabolic disorders and psychiatric co-morbidity.

Published
2021
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35. Analysis of role of aromatic residues in extracellular loop 2 of Prokineticin receptor 2 in ligand binding probed with genetically encoded photo-crosslinkers.

Author

Fullone MR, Lattanzi R, Maftei D, Bonaccorsi MC, and Miele R

Subjects
Cross-Linking Reagents chemistry, Humans, Phenylalanine genetics, Phenylalanine metabolism, Protein Domains, Protein Structure, Secondary, Receptors, G-Protein-Coupled biosynthesis, Receptors, G-Protein-Coupled genetics, Receptors, Peptide biosynthesis, Receptors, Peptide genetics, Recombinant Proteins biosynthesis, Recombinant Proteins chemistry, Recombinant Proteins genetics, Phenylalanine analogs & derivatives, Phenylalanine chemistry, Receptors, G-Protein-Coupled chemistry, Receptors, Peptide chemistry
Abstract

Prokineticin 2 (PK2) and Prokineticin 2 beta (PK2β), products of alternative splicing of pk2 gene, are chemokine-like proteins. While PK2 mediates its biological activities by signaling with the same efficiency through two homologous G protein coupled receptors, prokineticin receptor 1 (PKR1) and prokineticin receptor 2 (PKR2), PK2β is able to bind specifically PKR1. Extracellular loop 2 (ECL2) of chemokine receptors is a part of a transmembrane (TM) ligand binding site. In the ECL2 of PKR2 is present, as well as in all chemokine receptors, an aromatic residue cluster, involving tryptophan 212 localized four residues after an ECL2 conserved cysteine, and Phenylalanine 198 located in the top of TM 4. In this work, the photoactivatable unnatural amino acid p-benzoyl-L-phenylalanine is incorporated by amber codon suppression technology into PKR2 in position 212. Experiments of photoactivatable cross-linking demonstrated the role of tryptophan in position 212 for binding the ligand contacting Tryptophan in position 24. We also analyzed the role of Phenylalanine 198 in the specificity of PKRs binding. The comparison of TM-bundle binding sites between PKR1 and PKR2 revealed that they are completely conserved except for one residue: valine 207 in human PKR1, which is phenylalanine 198 in human PKR2. The F198V mutation in PKR2 permits to obtain a receptor able to bind more efficiently PK2β, a ligand highly specific for PKR1., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2021
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37. Assessing the health-related quality of life in type 2 diabetes patients treated with insulin and oral antidiabetic agents.

Author

Al-Taie N, Maftei D, Kautzky-Willer A, Krebs M, and Stingl H

Subjects
Austria, Blood Glucose, Blood Glucose Self-Monitoring, Cohort Studies, Cross-Sectional Studies, Humans, Hypoglycemic Agents, Insulin, Male, Protein Serine-Threonine Kinases, Surveys and Questionnaires, Diabetes Mellitus, Type 2 drug therapy, Diabetes Mellitus, Type 2 epidemiology, Quality of Life
Abstract

Background: Assessing the quality of life (QOL) for patients with type 2 diabetes is an essential part of diabetes management, especially for the evaluation of new antidiabetic treatments and glucose monitoring technologies. Accordingly, the aim of this study was to assess QOL according to treatment types., Methods: This cross-sectional study included 170 patients with type 2 diabetes from the region of Melk in Lower Austria. Of the patients 61 used only oral antidiabetic agents (OAD) and 109 patients were treated with insulin (with or without OAD). The QOL was assessed in patients using sodium-glucose cotransporter 2 inhibitors (SGLT2 inhibitors). Among the 170 patients with type 2 diabetes 95 used SGLT2 inhibitors. The World Health Organization Quality of Life BREF (WHOQOL-BREF) assessment was used to assess QOL among these patients. The Mann-Whitney U-test was utilized in this study and a P value <0.05 was considered statistically significant., Results: Regarding the 170 participants, most were male (58.82%) and the mean glycated hemoglobin (HbA1c) level was 55.46 ± 12.30 mmol/mol (7.2%). The WHOQOL-BREF scores among type 2 diabetes patients were relatively high, which reflect a good QOL and the mean physical, psychological, social and environmental domain scores were 64.53 ± 20.15, 71.29 ± 18.08, 70.10 ± 20.08, and 84.419 ± 11.22 SD, respectively. There were no statistically significant differences in WHOQOL scores of the domains between the insulin-treated group and OAD group and between the group treated with SGLT2 inhibitors and the group not treated with SGLT2 inhibitors., Conclusion: This study showed no QOL distinctions between treatment groups in patients with type 2 diabetes; however, a large cohort study is needed to examine these groups further.

Published
2021
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38. Trypanosoma cruzi trans-sialidase induces STAT3 and ERK activation by prokineticin receptor 2 binding.

Author

Lattanzi R, Maftei D, Fullone MR, and Miele R

Subjects
Animals, Ganglia, Spinal cytology, Ganglia, Spinal metabolism, Glycoproteins chemistry, Glycoproteins genetics, Male, Mice, Mice, Inbred C57BL, Mutagenesis, Site-Directed, NFATC Transcription Factors metabolism, Neuraminidase chemistry, Neuraminidase genetics, Phosphorylation drug effects, Protein Binding, Protein Domains genetics, Protozoan Proteins chemistry, Protozoan Proteins genetics, Receptors, G-Protein-Coupled genetics, Receptors, Peptide genetics, Recombinant Proteins biosynthesis, Recombinant Proteins isolation & purification, Recombinant Proteins pharmacology, Signal Transduction, Up-Regulation drug effects, Extracellular Signal-Regulated MAP Kinases metabolism, Glycoproteins metabolism, Neuraminidase metabolism, Protozoan Proteins metabolism, Receptors, G-Protein-Coupled metabolism, Receptors, Peptide metabolism, STAT3 Transcription Factor metabolism, Trypanosoma cruzi metabolism
Abstract

Tc85, as other members of trans-sialidase family, is involved in Trypanosoma cruzi parasite adhesion to mammalian cells. Particularly, Tc85 acts through specific interactions with prokineticin receptor 2, a G-protein coupled receptor involved in diverse physiological and pathological processes. In this manuscript, through biochemical analyses, we demonstrated that LamG, a Tc85 domain, physically interacts with the prokineticin receptor 2. Moreover, expressing prokineticin receptor 1 and 2 we demonstrated that LamG specifically activates prokineticin receptor 2 through a strong coupling with G αi or G αq proteins in yeast strains and inducing ERK and NFAT phosphorylation in CHO mammalian cells. To demonstrate a Tc85 physiological role in T. cruzi infection of the nervous system, we evidenced a strong STAT3 and ERK activation by LamG in mice Dorsal Root Ganglia. L173R is the most common prokineticin receptor 2 mutation reported in Kallmann syndrome and it is a founder mutation. Our results demonstrated that in cells co-expressing prokineticin receptor 2 mutant (L173R) and wild-type, LamG is unable to induce signal transduction. The L173R mutation in heterozygosity may allow for a selective advantage due to increased protection from T. cruzi infection. SIGNIFICANCE OF THE STUDY: The Chagas' disease affecting millions of people worldwide is caused by an eukaryotic microorganism called T. cruzi. Pharmacological treatment for patients with Chagas' disease is still limited. Indeed, the small number of drugs available shows important side effects that can be debilitating for patient health. In order to replicate and produce new parasites T. cruzi uses a complex of different proteins produced by both the parasite and the human host cells. So, understanding the molecular details used by T. cruzi to be internalised by different types of human cells is an important step towards the development of new drugs for this disease. Prokineticin receptors are relevant for host-parasite interaction. To characterise the signal transduction cascade induced by their activation may help to understand the molecular details of cell infection, leading to novel therapeutic alternative for this debilitating disease., (© 2020 John Wiley & Sons Ltd.)

Published
2021
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39. The Role of Prokineticin 2 in Oxidative Stress and in Neuropathological Processes.

Author

Lattanzi R, Severini C, Maftei D, Saso L, and Badiani A

Abstract

The prokineticin (PK) family, prokineticin 1 and Bv8/prokineticin 2 (PROK2), initially discovered as regulators of gastrointestinal motility, interacts with two G protein-coupled receptors, PKR1 and PKR2, regulating important biological functions such as circadian rhythms, metabolism, angiogenesis, neurogenesis, muscle contractility, hematopoiesis, immune response, reproduction and pain perception. PROK2 and PK receptors, in particular PKR2, are widespread distributed in the central nervous system, in both neurons and glial cells. The PROK2 expression levels can be increased by a series of pathological insults, such as hypoxia, reactive oxygen species, beta amyloid and excitotoxic glutamate. This suggests that the PK system, participating in different cellular processes that cause neuronal death, can be a key mediator in neurological/neurodegenerative diseases. While many PROK2/PKRs effects in physiological processes have been documented, their role in neuropathological conditions is not fully clarified, since PROK2 can have a double function in the mechanisms underlying to neurodegeneration or neuroprotection. Here, we briefly outline the latest findings on the modulation of PROK2 and its cognate receptors following different pathological insults, providing information about their opposite neurotoxic and neuroprotective role in different pathological conditions., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Lattanzi, Severini, Maftei, Saso and Badiani.)

Published
2021
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40. Colorectal Cancer Trends of 2018 in Romania-an Important Geographical Variation Between Northern and Southern Lands and High Mortality Versus European Averages.

Author

Ionescu EM, Tieranu CG, Maftei D, Grivei A, Olteanu AO, Arbanas T, Calu V, Musat S, Mihaescu-Pintia C, and Cucu IC

Subjects
Aged, Female, Geography, Hospitalization statistics & numerical data, Humans, Male, Middle Aged, Prevalence, Registries statistics & numerical data, Risk Factors, Romania epidemiology, Sex Factors, Colorectal Neoplasms epidemiology, Mortality trends
Abstract

Purpose: In Romania, one of the highest rates for colorectal cancer (CRC) incidence and mortality in Europe was estimated based on data available in 2008. Ever since, consistent data are missing. In this article, we tried to estimate the general burden of CRC in our country., Methods: We collected data from all hospitalized recorded cases according to the ICD-10 revision (codes C18-C20), as both primary and secondary diagnoses, as reported by all the hospitals to the DRG National System, between 2016 and 2018., Results: There were 50,890 persons hospitalized with CRC. The prevalence of hospitalized colorectal cancer was 108.24/100,000 inhabitants in 2016, 113.09/100,000 inhabitants in 2017, and 116.83/100,000 inhabitants in 2018. Distal localization prevailed. We registered 34.13/100,000 deaths by CRC within the mentioned period of time, almost twofold higher than average European range. There are significant geographical differences regarding CRC prevalence and mortality, with higher rates in the Northern and Central Regions, and a very low prevalence and mortality in Bucharest and Southern provinces., Conclusion: We note a high colorectal mortality rate in Romania, especially in the Northern and Central Regions, nearly double versus European ranges.

Published
2021
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41. Assessing the quality of life among patients with diabetes in Austria and the correlation between glycemic control and the quality of life.

Author

Al-Taie N, Maftei D, Kautzky-Willer A, Krebs M, and Stingl H

Subjects
Austria, Biomarkers blood, Blood Glucose metabolism, Cross-Sectional Studies, Diabetes Mellitus, Type 1 blood, Diabetes Mellitus, Type 1 diagnosis, Diabetes Mellitus, Type 2 blood, Diabetes Mellitus, Type 2 diagnosis, Female, Glycated Hemoglobin metabolism, Health Status, Humans, Male, Mental Health, Middle Aged, Predictive Value of Tests, Treatment Outcome, Blood Glucose drug effects, Diabetes Mellitus, Type 1 drug therapy, Diabetes Mellitus, Type 2 drug therapy, Glycemic Control, Hypoglycemic Agents therapeutic use, Quality of Life, Surveys and Questionnaires
Abstract

Background: Quality of life is becoming an important health outcome and among the main goals of every healthcare intervention. This study aims to assess the reliability of the German version of the World Health Organization Quality of Life-BREF instrument (WHOQOL-BREF) among Austrian patients with diabetes and examine the correlation to glycated hemoglobin (HbA1c)., Methods: This was a cross-section study that involved 223 patients with diabetes who attended the diabetes center at Melk Hospital in Austria. The German version of the WHOQOL-BREF questionnaire was used to assess their quality of life from 2018 to 2019. The response to each question was scored from 1 to 5 (ranged from strongly disagree to strongly agree) on the Likert scale. The reliability of the WHOQOL-BREF instrument was assessed using the Cronbach's α, and the Spearman correlation coefficient was used to examine the correlation between the quality of life and the HbA1c., Results: There were 208 valid WHOQOL-BREF questionnaires with a response rate of 93.7%. The overall observed Cronbach's α for WHOQOL-BREF was 0.86. The mean±standard deviation (SD) for the physical domain, psychological domain, social domain, and environmental domain were 61.9±19.1, 71.5±17.8, 71.0±19.6, and 81.3±11.1, respectively. There was a moderate but statistically significant negative correlation between HbA1c and the physical health domain (rs=-0.31, p<0001). There was also a weak correlation between the HbA1c and other domains: psychological (rs=-0.23, p<001), social relationships (rs=-0.15, p<005) and environmental (rs=-0.23, p<001)., Conclusion: This study showed that the German form of the WHOQOL-BREF is a valid instrument to evaluate the quality of life among Austrian patients with diabetes. There was a moderate to weak negative association between WHOQOL-BREF and HbA1c., (Copyright © 2019 Primary Care Diabetes Europe. Published by Elsevier Ltd. All rights reserved.)

Published
2020
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42. Abnormal Pain Sensation in Mice Lacking the Prokineticin Receptor PKR2: Interaction of PKR2 with Transient Receptor Potential TRPV1 and TRPA1.

Author

Maftei D, Vellani V, Artico M, Giacomoni C, Severini C, and Lattanzi R

Subjects
Amphibian Proteins pharmacology, Animals, Capsaicin pharmacology, Ganglia, Spinal metabolism, Hyperalgesia chemically induced, Inflammation metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Mustard Plant, Neuropeptides pharmacology, Nociception drug effects, Pain physiopathology, Plant Oils pharmacology, Receptors, G-Protein-Coupled deficiency, Receptors, G-Protein-Coupled metabolism, TRPA1 Cation Channel metabolism, TRPV Cation Channels metabolism, Hyperalgesia physiopathology, Nociception physiology, Receptors, G-Protein-Coupled physiology, TRPA1 Cation Channel physiology, TRPV Cation Channels physiology
Abstract

The amphibian Bv8 and the mammalian prokineticin 1 (PROK1) and 2 (PROK2) are new chemokine-like protein ligands acting on two G protein-coupled receptors, prokineticin receptor 1 (PKR1) and 2 (PKR2), participating to the mediation of diverse physiological and pathological processes. Prokineticins (PKs), specifically activating the prokineticin receptors (PKRs) located in several areas of the central and peripheral nervous system associated with pain, play a fundamental role in nociception. In this paper, to improve the understanding of the prokineticin system in the neurobiology of pain, we investigated the role of PKR2 in pain perception using pkr2 gene-deficient mice. We observed that, compared to wildtype, pkr2-null mice were more resistant to nociceptive sensitization to temperatures ranging from 46 to 48 °C, to capsaicin and to protons, highlighting a positive interaction between PKR2 and the non-selective cation channels TRPV1. Moreover, PKR2 knock-out mice showed reduced nociceptive response to cold temperature (4 °C) and to mustard oil-induced inflammatory hyperalgesia, suggesting a functional interaction between PKR2 and transient receptor potential ankyrin 1 ion (TRPA1) channels. This notion was supported by experiments in dorsal root ganglia (DRG) cultures from pkr1 and-pkr2-null mice, demonstrating that the percentage of Bv8-responsive DRG neurons which were also responsive to mustard oil was much higher in PKR1-/- than in PKR2-/- mice. Taken together, these findings suggest a functional interaction between PKR2 and TRP channels in the development of hyperalgesia. Drugs able to directly or indirectly block these targets and/or their interactions may represent potential analgesics., (Copyright © 2019 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published
2020
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43. Atoms in Generalized Orbital Configurations: Towards Atom-Dedicated Density Functionals.

Author

Toader AM, Buta MC, Maftei D, Putz MV, and Cimpoesu F

Subjects
Algorithms, Density Functional Theory, Electrons, Energy Transfer, Models, Molecular, Electronics methods
Abstract

Deriving a practical formula for the atomic body with generalized shell occupations, we perform a detective analysis of the radial distribution in the exchange energy, hinting at ideas about new types of density functionals, dedicated to the specifics of the electronic structure of atoms, exploiting the intrinsic spherical symmetry.

Published
2019
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44. Involvement of the Chemokine Prokineticin-2 (PROK2) in Alzheimer's Disease: From Animal Models to the Human Pathology.

Author

Lattanzi R, Maftei D, Petrella C, Pieri M, Sancesario G, Schirinzi T, Bernardini S, Barbato C, Ralli M, Greco A, Possenti R, Sancesario G, and Severini C

Subjects
Alzheimer Disease pathology, Amyloid beta-Peptides metabolism, Animals, Biomarkers, Brain metabolism, Brain pathology, Disease Models, Animal, Gastrointestinal Hormones blood, Gene Expression Regulation, Humans, Mice, Mice, Transgenic, Neuropeptides blood, Protein Aggregates, Protein Aggregation, Pathological metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Alzheimer Disease etiology, Alzheimer Disease metabolism, Disease Susceptibility, Gastrointestinal Hormones genetics, Gastrointestinal Hormones metabolism, Neuropeptides genetics, Neuropeptides metabolism
Abstract

Among mediators of inflammation, chemokines play a pivotal role in the neuroinflammatory process related to Alzheimer's disease (AD). The chemokine Bv8/prokineticin 2 (PROK2) is a critical player in inflammatory and neuroinflammatory diseases and has been demonstrated to be involved in Aβ toxicity. The aim of the present study was to extend the research to rats chronically intracerebroventricularly (i.c.v.) injected with Aβ, to an AD transgenic mouse model, and subsequently to AD patients, mainly with the aim of detecting a potential biomarker. Real-time PCR and immunofluorescence analysis were used to evaluate Prokineticin-2 (PROK2) mRNA and the corresponding protein levels in both animal and human AD brain extracts, and the ELISA test was used to measure the amount of PROK2 in the serum of AD patients. We demonstrated a significant upregulation of PROK2 levels in brain tissues of Aβ 1-42 i.c.v. injected rats, transgenic AD mice (Tg2576), and in the hippocampus of AD patients. Additionally, through a pilot study, an approximate twofold increase of PROK2 levels has been proved in the serum of AD patients, compared to the control subjects, identifying a potential blood-based biomarker of the disease.

Published
2019
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45. The prokineticin receptor antagonist PC1 rescues memory impairment induced by β amyloid administration through the modulation of prokineticin system.

Author

Maftei D, Ratano P, Fusco I, Marconi V, Squillace S, Negri L, Severini C, Balboni G, Steardo L, Bronzuoli MR, Scuderi C, Campolongo P, and Lattanzi R

Subjects
Amyloid beta-Peptides toxicity, Animals, Disease Models, Animal, Gastrointestinal Hormones genetics, Gastrointestinal Hormones metabolism, Gliosis, Guanidines pharmacology, Hippocampus metabolism, Infusions, Intraventricular, Male, Maze Learning, Memory drug effects, NF-kappa B drug effects, NF-kappa B metabolism, Neurogenesis drug effects, Neuropeptides genetics, Neuropeptides metabolism, Nitric Oxide Synthase Type II drug effects, Nitric Oxide Synthase Type II metabolism, Peptide Fragments toxicity, Rats, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Receptors, Peptide genetics, Receptors, Peptide metabolism, Reverse Transcriptase Polymerase Chain Reaction, Spatial Learning drug effects, Triazines pharmacology, Alzheimer Disease, Hippocampus drug effects, Learning drug effects, Neuropeptides drug effects, Neuroprotective Agents pharmacology, Receptors, G-Protein-Coupled antagonists & inhibitors, Receptors, Peptide antagonists & inhibitors
Abstract

Growing evidences demonstrate that chemokines and chemokine receptors are up-regulated in resident central nervous system cells during Alzheimer's disease contributing to neuroinflammation and neurodegeneration. Prokineticin 2 belongs to a new family of chemokines which recently emerged as a critical player in immune system and inflammatory diseases. Since pharmacological blockade in vitro of the prokineticin system is able to antagonize Amyloid β-induced neurotoxicity, the aim of the present study was to investigate in vivo effects of prokineticin receptor antagonist PC1 on memory impairment in a rodent model of Alzheimer's disease. Rats were intracerebroventricular infused with Aβ 1-42 and behavioral responses as well as the expression profile in hippocampus of prokineticin 2 and its receptors were investigated. Results demonstrated that Aβ 1-42 -infused rats developed significant memory impairments together with a marked up-regulation of both prokineticin 2 and its receptors in hippocampal neurons and astrocytes. Treatment with PC1 significantly improved learning capability of Aβ 1-42 -infused rats restoring the balance of prokineticin system. This study pointed to a neuroprotective role of PC1 on Aβ 1-42 -induced memory deficits that could be ascribed to the ability of PC1 to modulate rat hippocampal prokineticin system and to recover the impaired Aβ 1-42 -induced neurogenesis. This suggests that prokineticin system antagonism could be considered as a new approach for the study of AD etiopathology., (Copyright © 2019. Published by Elsevier Ltd.)

Published
2019
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46. Microwave Assisted Reactions of Fluorescent Pyrrolodiazine Building Blocks.

Author

Moldoveanu C, Amariucai-Mantu D, Mangalagiu V, Antoci V, Maftei D, Mangalagiu II, and Zbancioc G

Subjects
Cycloaddition Reaction, Fluorescence, Microwaves, Molecular Structure, Pyridazines chemistry, Pyrroles chemistry, Phthalazines chemistry, Pyridazines chemical synthesis, Pyrroles chemical synthesis
Abstract

We report here the synthesis and optical spectral properties of several new pyrrolodiazine derivatives. The luminescent heterocycles were synthesized by 1,3-dipolar cycloaddition reactions between N-alkylated pyridazine and methylpropiolate or dimethyl acetylenedicarboxylate (DMAD). The pyrrolopyridazine derivatives are blue emitters with moderate quantum yields (around 25%) in the case of pyrrolopyridazines and negligible yet measurable emission for pyrrolophthalazines. In a subsequent step towards including the pyrrolodiazine moiety, given its spectral properties in various macromolecular frameworks such as biological molecules, a subset of the synthetized compounds has been subjected to α-bromination. A selective and efficient way for α-bromination in heterogeneous catalysis of pyrrolodiazine derivatives under microwave (MW) irradiation is presented. We report substantially higher yields under MW irradiation, whereas the solvent amounts required are at least five-fold less compared to classical heating.

Published
2019
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47. On the Charge-Transfer Excitations in Azobenzene Maleimide Compounds: A Theoretical Study.

Author

Isac DL, Airinei A, Maftei D, Humelnicu I, Mocci F, Laaksonen A, and Pinteală M

Abstract

Photoswitchable systems with charge-transfer (CT) transitions have gained much attention during the recent years because of their many emerging applications. CT transitions themselves are of fundamental importance from physical, chemical, engineering, and molecular modeling points of view because they depend on the modified intramolecular electronic structure. CT transitions in azobenzene (AB) were observed when substituted with the maleimide (MI) functional group. This work represents a systematic theoretical study of excited states of the AB-MI structures of eight azo derivatives. In addition to the two main azo transitions (π → π* and n → π*), our calculations show a CT occurring between the azo moiety as a donor and the MI group as an acceptor. The CT mechanism can be characterized based on both the number and the position of the MI fragments. MI groups in the azo structure result in low-energy transitions, changing the order of the main transitions by introducing a CT character. Calculations using both density functional theory (DFT) and high-end molecular orbital theories confirm the CT character of these derivatives, although the order of excited states was found to differ depending on the chosen level of theory. We present here the first theoretical investigation of the electronic excited states (nπ*CT and ππ*CT) and corresponding transitions for this class of compounds. The computational results showed that the CT mechanism in AB-MI derivatives can occur via two pathways: planar and twisted. Our findings are expected to be of substantial interest, especially in the area of molecular optoelectronics and in the design of responsive materials.

Published
2019
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48. Chemokines in Alzheimer's Disease: New Insights Into Prokineticins, Chemokine-Like Proteins.

Author

Zuena AR, Casolini P, Lattanzi R, and Maftei D

Abstract

Alzheimer's disease is the most common neurodegenerative disorder characterized by the presence of β-amyloid aggregates deposited as senile plaques and by the presence of neurofibrillary tangles of tau protein. To date, there is a broad consensus on the idea that neuroinflammation is one of the most important component in Alzheimer's disease pathogenesis. Chemokines and their receptors, beside the well-known role in the immune system, are widely expressed in the nervous system, where they play a significant role in the neuroinflammatory processes. Prokineticins are a new family of chemokine-like molecules involved in numerous physiological and pathological processes including immunity, pain, inflammation, and neuroinflammation. Prokineticin 2 (PROK2) and its receptors PKR1 and PKR2 are widely expressed in the central nervous system in both neuronal and glial cells. In Alzheimer's disease, PROK2 sustains the neuroinflammatory condition and contributes to neurotoxicity, since its expression is strongly upregulated by amyloid-β peptide and reversed by the PKR antagonist PC1. This review aims to summarize the current knowledge on the neurotoxic and/or neuroprotective function of chemokines in Alzheimer's disease, focusing on the prokineticin system: it represents a new field of investigation that can stimulate the research of innovative pharmacotherapeutic strategies.

Published
2019
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49. Targeting prokineticin system counteracts hypersensitivity, neuroinflammation, and tissue damage in a mouse model of bortezomib-induced peripheral neuropathy.

Author

Moschetti G, Amodeo G, Maftei D, Lattanzi R, Procacci P, Sartori P, Balboni G, Onnis V, Conte V, Panerai A, Sacerdote P, and Franchi S

Subjects
Animals, Disease Models, Animal, Hyperalgesia chemically induced, Hyperalgesia metabolism, Inflammation chemically induced, Inflammation metabolism, Male, Mice, Mice, Inbred C57BL, Receptors, G-Protein-Coupled metabolism, Receptors, Peptide metabolism, Antineoplastic Agents toxicity, Bortezomib toxicity, Gastrointestinal Hormones metabolism, Neuropeptides metabolism, Peripheral Nervous System Diseases chemically induced, Peripheral Nervous System Diseases metabolism
Abstract

Background: Neuropathy is a dose-limiting side effect of many chemotherapeutics, including bortezomib. The mechanisms underlying this condition are not fully elucidated even if a contribution of neuroinflammation was suggested. Here, we investigated the role of a chemokine family, the prokineticins (PKs), in the development of bortezomib-induced peripheral neuropathy (BIPN), and we used a PK receptor antagonist to counteract the development and progression of the pathology., Methods: Neuropathy was induced in male C57BL/6J mice by using a protocol capable to induce a detectable neuropathic phenotype limiting systemic side effects. The presence of allodynia (both mechanical and thermal) and thermal hyperalgesia was monitored over time. Mice were sacrificed at two different time points: 14 and 28 days after the first bortezomib (BTZ) injection. At these times, PK system activation (PK2 and PK-Rs), macrophage and glial activation markers, and cytokine production were evaluated in the main station involved in pain transmission (sciatic nerve, DRG, and spinal cord), and the effect of a PK receptors antagonist (PC1) on the same behavioral and biochemical parameters was assessed. Structural damage of DRG during BTZ treatment and an eventual protective effect of PC1 were also evaluated., Results: BTZ induces in mice a dose-related allodynia and hyperalgesia and a progressive structural damage to the DRG. We observed a precocious increase of macrophage activation markers and unbalance of pro- and anti-inflammatory cytokines in sciatic nerve and DRG together with an upregulation of GFAP in the spinal cord. At higher BTZ cumulative dose PK2 and PK receptors are upregulated in the PNS and in the spinal cord. The therapeutic treatment with the PK-R antagonist PC1 counteracts the development of allodynia and hyperalgesia, ameliorates the structural damage in the PNS, decreases the levels of activated macrophage markers, and prevents full neuroimmune activation in the spinal cord., Conclusions: PK system may be a strategical pharmacological target to counteract BTZ-induced peripheral neuropathy. Blocking PK2 activity reduces progressive BTZ toxicity in the DRG, reducing neuroinflammation and structural damage to DRG, and it may prevent spinal cord sensitization.

Published
2019
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50. Identification and characterization of Prokineticin receptor 2 splicing variant and its modulation in an animal model of Alzheimer's disease.

Author

Lattanzi R, Maftei D, Fullone MR, and Miele R

Subjects
Amyloid beta-Peptides administration & dosage, Amyloid beta-Peptides metabolism, Animals, Disease Models, Animal, Hippocampus metabolism, Male, Peptide Fragments administration & dosage, Peptide Fragments metabolism, Protein Isoforms, Rats, Sprague-Dawley, Receptors, G-Protein-Coupled genetics, Receptors, Peptide genetics, STAT3 Transcription Factor metabolism, Signal Transduction, Suppressor of Cytokine Signaling 3 Protein metabolism, Up-Regulation, Alzheimer Disease metabolism, Receptors, G-Protein-Coupled metabolism, Receptors, Peptide metabolism
Published
2019
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