@{MTMT:34801279,
	title = {Városi lapostetők mint kriptogám élőhelyek},
	url = {https://m2.mtmt.hu/api/publication/34801279},
	author = {Aszalósné Balogh, Rebeka and Lőkös, László and Adorján, Balázs and Freytag, Csongor and Mészáros, Ilona and Oláh, Viktor and Szűcs, Péter and Erzberger, Peter and Farkas, Edit and Matus, Gábor},
	booktitle = {XIX. Kárpát-medencei Környezettudományi Konferencia. Absztrakt füzet},
	unique-id = {34801279},
	year = {2024},
	pages = {104-105},
	orcid-numbers = {Freytag, Csongor/0000-0002-3356-4182; Oláh, Viktor/0000-0001-5410-5914; Szűcs, Péter/0000-0003-4635-6427}
}

@article{MTMT:34687816,
	title = {Novel aspects of signal processing in lamina I},
	url = {https://m2.mtmt.hu/api/publication/34687816},
	author = {Safronov, Boris V. and Szűcs, Péter},
	doi = {10.1016/j.neuropharm.2024.109858},
	journal-iso = {NEUROPHARMACOLOGY},
	journal = {NEUROPHARMACOLOGY},
	volume = {247},
	unique-id = {34687816},
	issn = {0028-3908},
	year = {2024},
	eissn = {1873-7064},
	pages = {109858},
	orcid-numbers = {Szűcs, Péter/0000-0003-4635-6427}
}

@article{MTMT:34693588,
	title = {Skin barrier alterations are not a characteristic feature of hidradenitis suppurativa},
	url = {https://m2.mtmt.hu/api/publication/34693588},
	author = {Gaspar, Krisztian and Somogyi, Orsolya and Dajnoki, Zsolt and Szabó, Lilla and Hendrik, Zoltán and Zouboulis, Christos C. and Dócs, Klaudia and Szűcs, Péter and Dull, Katalin and Törőcsik, Dániel and Kapitány, Anikó and Szegedi, Andrea},
	journal-iso = {EXP DERMATOL},
	journal = {EXPERIMENTAL DERMATOLOGY},
	volume = {32},
	unique-id = {34693588},
	issn = {0906-6705},
	year = {2023},
	eissn = {1600-0625},
	pages = {45-45},
	orcid-numbers = {Szűcs, Péter/0000-0003-4635-6427}
}

@article{MTMT:34085014,
	title = {Astrocyte- and NMDA receptor-dependent slow inward currents differently contribute to synaptic plasticity in an age-dependent manner in mouse and human neocortex},
	url = {https://m2.mtmt.hu/api/publication/34085014},
	author = {Csemer , Andrea and Kovács, Adrienn and Maamrah, Baneen and Deák-Pocsai, Krisztina and Korpás, Kristóf Levente and Klekner, Álmos and Szűcs, Péter and Nánási, Péter Pál and Pál, Balázs Zoltán},
	doi = {10.1111/acel.13939},
	journal-iso = {AGING CELL},
	journal = {AGING CELL},
	volume = {22},
	unique-id = {34085014},
	issn = {1474-9718},
	abstract = {Slow inward currents (SICs) are known as excitatory events of neurons elicited by astrocytic glutamate via activation of extrasynaptic NMDA receptors. By using slice electrophysiology, we tried to provide evidence that SICs can elicit synaptic plasticity. Age dependence of SICs and their impact on synaptic plasticity was also investigated in both on murine and human cortical slices. It was found that SICs can induce a moderate synaptic plasticity, with features similar to spike timing-dependent plasticity. Overall SIC activity showed a clear decline with aging in humans and completely disappeared above a cutoff age. In conclusion, while SICs contribute to a form of astrocyte-dependent synaptic plasticity both in mice and humans, this plasticity is differentially affected by aging. Thus, SICs are likely to play an important role in age-dependent physiological and pathological alterations of synaptic plasticity.},
	keywords = {HUMAN BRAIN; SYNAPTIC PLASTICITY; Aging; Slow inward current; NMDA receptor; ASTROCYTE; neocortex; Pyramidal cell},
	year = {2023},
	eissn = {1474-9726},
	orcid-numbers = {Korpás, Kristóf Levente/0009-0005-4440-2460; Szűcs, Péter/0000-0003-4635-6427}
}

@article{MTMT:33947896,
	title = {Contralateral Afferent Input to Lumbar Lamina I Neurons as a Neural Substrate for Mirror-Image Pain},
	url = {https://m2.mtmt.hu/api/publication/33947896},
	author = {Luz, Liliana L. and Lima, Susana and Fernandes, Elisabete C. and Kókai, Éva and Gomori, Lidia and Szűcs, Péter and Safronov, Boris V.},
	doi = {10.1523/JNEUROSCI.1897-22.2023},
	journal-iso = {J NEUROSCI},
	journal = {JOURNAL OF NEUROSCIENCE},
	volume = {43},
	unique-id = {33947896},
	issn = {0270-6474},
	abstract = {Mirror-image pain arises from pathologic alterations in the nociceptive processing network that controls functional lateralization of the primary afferent input. Although a number of clinical syndromes related to dysfunction of the lumbar afferent system are associated with the mirror-image pain, its morphophysiological substrate and mechanism of induction remain poorly understood. Therefore, we used ex vivo spinal cord preparation of young rats of both sexes to study organization and processing of the contralateral afferent input to the neurons in the major spinal nociceptive projection area Lamina I. We show that decussating primary afferent branches reach contralateral Lamina I, where 27% of neurons, including projection neurons, receive monosynaptic and/or polysynaptic excitatory drive from the contralateral Aδ-fibers and C-fibers. All these neurons also received ipsilateral input, implying their involvement in the bilateral information processing. Our data further show that the contralateral Aδ-fiber and C-fiber input is under diverse forms of inhibitory control. Attenuation of the afferent-driven presynaptic inhibition and/or disinhibition of the dorsal horn network increased the contralateral excitatory drive to Lamina I neurons and its ability to evoke action potentials. Furthermore, the contralateral Aβδ-fibers presynaptically control ipsilateral C-fiber input to Lamina I neurons. Thus, these results show that some lumbar Lamina I neurons are wired to the contralateral afferent system whose input, under normal conditions, is subject to inhibitory control. A pathologic disinhibition of the decussating pathways can open a gate controlling contralateral information flow to the nociceptive projection neurons and, thus, contribute to induction of hypersensitivity and mirror-image pain.},
	year = {2023},
	eissn = {1529-2401},
	pages = {3245-3258},
	orcid-numbers = {Luz, Liliana L./0000-0001-8109-3891; Lima, Susana/0000-0001-7300-5070; Szűcs, Péter/0000-0003-4635-6427}
}

@article{MTMT:33682003,
	title = {Neuronal P2X4 receptor may contribute to peripheral inflammatory pain in rat spinal dorsal horn},
	url = {https://m2.mtmt.hu/api/publication/33682003},
	author = {Ducza, László and Gajtkó, Andrea and Hegedűs, Krisztina and Bakk, Erzsébet and Kis, Nikoletta Gréta and Gaál, Botond Ágoston and Takács, Roland Ádám and Szűcs, Péter and Matesz, Klára and Szentesiné Holló, Krisztina},
	doi = {10.3389/fnmol.2023.1115685},
	journal-iso = {FRONT MOL NEUROSCI},
	journal = {FRONTIERS IN MOLECULAR NEUROSCIENCE},
	volume = {16},
	unique-id = {33682003},
	issn = {1662-5099},
	abstract = {Abstract
		Intense inflammation may result in pain, which manifests as spinal central sensitisation. There is growing evidence that purinergic signaling plays a pivotal role in the orchestration of pain processing. Over the last decade the ionotropic P2X purino receptor 4 (P2X4) got into spotlight in neuropathic disorders, however its precise spinal expression was scantily characterised during inflammatory pain. Thus, we intended to analyse the receptor distribution within spinal dorsal horn and lumbar dorsal root ganglia (DRG) of rats suffering in inflammatory pain induced by complete Freund adjuvant (CFA).
		Methods
		CFA- induced peripheral inflammation was validated by mechanical and thermal behavioural tests. In order to ensure about the putative alteration of spinal P2X4 receptor gene expression qPCR reactions were designed, followed by immunoperoxidase and Western blot experiments to assess changes at a protein level. Colocalisation of P2X4 with neuronal and glial markers was investigated by double immunofluorescent labelings, which were subsequently analysed with IMARIS software. Transmission electronmicroscopy was applied to study the ultrastructural localisation of the receptor. Concurrently, in lumbar DRG cells similar methodology has been carried out to complete our observations.
		Results
		The figures of mechanical and thermal behavioural tests proved the establishment of CFA- induced inflammatory pain. We observed significant enhancement of P2X4 transcript level within the spinal dorsal horn three days upon CFA administration. Elevation of P2X4 immunoreactivity within Rexed lamina I-II of the spinal gray matter was synchronous with mRNA expression, and confirmed by protein blotting. According to IMARIS analysis the robust protein increase was mainly detected on primary afferent axontermini and GFAP-labelled astrocyte membrane compartments within the spinal dorsal horn, but not on postsynaptic dendrites was also validated ultrastructurally. Furthermore, lumbar DRG analysis demonstrated that peptidergic and non-peptidergic nociceptive subsets of ganglia cells were also abundantly positive for P2X4 receptor in CFA model.
		Conclusions
		Here we provide novel evidence about involvement of neuronal and glial P2X4 receptor in the establishment of inflammatory pain.},
	keywords = {Inflammatory pain, spinal dorsal horn, P2X4 receptor, Central sensitisation, primary afferents, glial cells, dorsal root ganglia},
	year = {2023},
	eissn = {1662-5099},
	orcid-numbers = {Gaál, Botond Ágoston/0000-0002-1739-2309; Szűcs, Péter/0000-0003-4635-6427}
}

@article{MTMT:33620531,
	title = {New Data on the Features of Skin Barrier in Hidradenitis Suppurativa},
	url = {https://m2.mtmt.hu/api/publication/33620531},
	author = {Somogyi, Orsolya and Dajnoki, Zsolt and Szabó, Lilla and Gáspár, Krisztián and Hendrik, Zoltán and Zouboulis, Christos C. and Dócs, Klaudia and Szűcs, Péter and Dull, Katalin and Törőcsik, Dániel and Kapitány, Anikó and Szegedi, Andrea},
	doi = {10.3390/biomedicines11010127},
	journal-iso = {BIOMEDICINES},
	journal = {BIOMEDICINES},
	volume = {11},
	unique-id = {33620531},
	abstract = {Hidradenitis suppurativa (HS) is a Th1/17-driven inflammatory skin disease of the apocrine gland-rich (AGR) skin regions, where keratinocytes seem to be the crucial drivers of the initial pathogenic steps. However, the possible role of permeability barrier alteration in activating keratinocytes during HS development has not been clarified. We compared the major permeability barrier elements of non-lesional HS (HS-NL; n = 10) and lesional HS (HS-L; n = 10) skin with healthy AGR regions (n = 10) via RT-qPCR and immunohistochemistry. Stratum corneum components related to cornified envelope formation, corneocyte desquamation and (corneo)desmosome organization were analyzed along with tight junction molecules and barrier alarmins. The permeability barrier function was also investigated with transepidermal water loss (TEWL) measurements (n = 16). Junction structures were also visualized using confocal microscopy. At the gene level, none of the investigated molecules were significantly altered in HS-NL skin, while 11 molecules changed significantly in HS-L skin versus control. At the protein level, the investigated molecules were similarly expressed in HS-NL and AGR skin. In HS-L skin, only slight changes were detected; however, differences did not show a unidirectional alteration, as KRT1 and KLK5 were detected in decreased levels, and KLK7, KRT6 and DSG1 in increased levels. No significant differences in TEWL or the expression of junction structures were assessed. Our findings suggest that the permeability barrier is not significantly damaged in HS skin and permeability barrier alterations are not the driver factors of keratinocyte activation in this disease.},
	year = {2023},
	eissn = {2227-9059},
	orcid-numbers = {Zouboulis, Christos C./0000-0003-1646-2608; Szűcs, Péter/0000-0003-4635-6427}
}

@article{MTMT:33174596,
	title = {Quantitative spatial analysis reveals that the local axons of lamina I projection neurons and interneurons exhibit distributions that predict distinct roles in spinal sensory processing},
	url = {https://m2.mtmt.hu/api/publication/33174596},
	author = {Kókai, Éva and Luz, Lilana L. and Fernandes, Elisabete C. and Safronov, Boris V and Poisbeau, Pierrick and Szűcs, Péter},
	doi = {10.1002/cne.25413},
	journal-iso = {J COMP NEUROL},
	journal = {JOURNAL OF COMPARATIVE NEUROLOGY},
	volume = {530},
	unique-id = {33174596},
	issn = {0021-9967},
	abstract = {Our knowledge about the detailed wiring of neuronal circuits in the spinal dorsal horn (DH), where initial sensory processing takes place, is still very sparse. While a substantial amount of data is available on the somatodendritic morphology of DH neurons, the laminar and segmental distribution patterns and consequential function of individual axons are much less characterized. In the present study, we fully reconstructed the axonal and dendritic processes of 10 projection neurons (PNs) and 15 interneurons (INs) in lamina I of the rat, to reveal quantitative differences in their distribution. We also performed whole-cell patch-clamp recordings to test the predicted function of certain axon collaterals. In line with our earlier qualitative description, we found that lamina I INs in the lateral aspect of the superficial DH send axon collaterals toward the medial part and occupy mostly laminae I-III, providing anatomical basis for a lateromedial flow of information within the DH. Local axon collaterals of PNs were more extensively distributed including dorsal commissural axon collaterals that might refer to those reported earlier linking the lateral aspect of the left and right DHs. PN collaterals dominated the dorsolateral funiculus and laminae IV-VI, suggesting propriospinal and ventral connections. Indeed, patch-clamp recordings confirmed the existence of a dorsoventral excitatory drive upon activation of neurokinin-1 receptors that, although being expressed in various lamina I neurons, are specifically enriched in PNs. In summary, lamina I PNs and INs have almost identical dendritic input fields, while their segmental axon collateral distribution patterns are distinct. INs, whose somata reside in lamina I, establish local connections, may show asymmetry, and contribute to bridging the medial and lateral halves of the DH. PNs, on the other hand, preferably relay their integrated dendritic input to deeper laminae of the spinal gray matter where it might be linked to other ascending pathways or the premotor network, resulting in a putative direct contribution to the nociceptive withdrawal reflex.},
	keywords = {quantitative analysis; withdrawal reflex; dorsoventral excitatory drive; laminar axon density; mediolateral asymmetry},
	year = {2022},
	eissn = {1096-9861},
	pages = {3270-3287},
	orcid-numbers = {Szűcs, Péter/0000-0003-4635-6427}
}

@article{MTMT:32769720,
	title = {Ultrasound Used for Diagnostic Imaging Facilitates Dendritic Branching of Developing Neurons in the Mouse Cortex},
	url = {https://m2.mtmt.hu/api/publication/32769720},
	author = {Papp, Tamás and Ferenczi, Zsuzsanna and Szilagyi, Bernadette and Petro, Matyas and Varga, Angelika and Kókai, Éva and Berényi, Ervin László and Oláh, Gábor and Halmos, Gábor and Szűcs, Péter and Mészár, Zoltán},
	doi = {10.3389/fnins.2022.803356},
	journal-iso = {FRONT NEUROSCI-SWITZ},
	journal = {FRONTIERS IN NEUROSCIENCE},
	volume = {16},
	unique-id = {32769720},
	issn = {1662-4548},
	year = {2022},
	eissn = {1662-453X},
	orcid-numbers = {Szűcs, Péter/0000-0003-4635-6427}
}

@article{MTMT:32755529,
	title = {CRISPR/Cas9-Based Mutagenesis of Histone H3.1 in Spinal Dynorphinergic Neurons Attenuates Thermal Sensitivity in Mice},
	url = {https://m2.mtmt.hu/api/publication/32755529},
	author = {Mészár, Zoltán and Kókai, Éva and Varga, Rita and Ducza, László and Papp, Tamás and Béresová, Monika and Nagy, Marianna and Szűcs, Péter and Varga, Angelika},
	doi = {10.3390/ijms23063178},
	journal-iso = {INT J MOL SCI},
	journal = {INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES},
	volume = {23},
	unique-id = {32755529},
	issn = {1661-6596},
	abstract = {Burn injury is a trauma resulting in tissue degradation and severe pain, which is processed first by neuronal circuits in the spinal dorsal horn. We have recently shown that in mice, excitatory dynorphinergic (Pdyn) neurons play a pivotal role in the response to burn-injury-associated tissue damage via histone H3.1 phosphorylation-dependent signaling. As Pdyn neurons were mostly associated with mechanical allodynia, their involvement in thermonociception had to be further elucidated. Using a custom-made AAV9_mutH3.1 virus combined with the CRISPR/cas9 system, here we provide evidence that blocking histone H3.1 phosphorylation at position serine 10 (S10) in spinal Pdyn neurons significantly increases the thermal nociceptive threshold in mice. In contrast, neither mechanosensation nor acute chemonociception was affected by the transgenic manipulation of histone H3.1. These results suggest that blocking rapid epigenetic tagging of S10H3 in spinal Pdyn neurons alters acute thermosensation and thus explains the involvement of Pdyn cells in the immediate response to burn-injury-associated tissue damage.},
	keywords = {PAIN; heat sensation; Histone; spinal cord; Epigenetic regulation; dynorphinergic neuron},
	year = {2022},
	eissn = {1422-0067},
	orcid-numbers = {Béresová, Monika/0000-0001-8610-3788; Szűcs, Péter/0000-0003-4635-6427}
}