P Conti’s research while affiliated with University of Chieti-Pescara and other places

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Publications (10)


Neurohormonal markers in chronic rhinosinusitis
  • Article

July 2021

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24 Reads

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7 Citations

Journal of Biological Regulators and Homeostatic Agents

R A Compton

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A R Lonergan

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I Tsillioni

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[...]

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Chronic rhinosinusitis (CRS), especially with nasal polyps, continues to elude precise pathogenesis and effective treatment. Prior work in our laboratory demonstrated interleukin-33 (IL-33) and Substance P (SP) activation of mast cells, and inhibitory effect of interleukin-37 (IL-37). Our objective is to study the expression of these neurohormonal mediators in mast cell stimulation of nasal polyposis. This was a prospective research study involving collection of nasal lavage fluid and nasal polyp tissue from adult patients with CRS. The study was divided into two arms. First, nasal lavage fluid was collected from normal controls, and patients with allergic rhinitis, CRS, or CRS with nasal polyposis. The second arm was collection of nasal tissue from normal controls undergoing inferior turbinoplasty, or patients with nasal polyposis. Enzyme-linked immunosorbent assay and quantitative polymerase chain reaction techniques were used to determine levels in the lavage fluid and relative gene expression in the tissue of SP, IL-33, and IL-37. In total, 70 lavage and 23 tissue specimens were obtained. The level of SP was highest in patients with polyps; however, gene expression was reduced compared to normal controls. The level of IL-33 was reduced in patients with polyps as compared to patients with allergy and sinusitis, and its gene expression was not significantly different from normal controls. IL-37 was elevated in the lavage fluid of patients with nasal polyps and its gene expression was increased in the polyp tissue. Levels of SP and IL-37 were elevated in the lavage fluid of patients with nasal polyps as compared to normal controls and other sinonasal pathologies, and gene expression of IL-37 was significantly increased in the polyp tissue itself. These findings implicate these neurohormonal molecules in the pathophysiology of nasal polyposis and provide possible novel therapeutic targets.


Mast cell virus infection and inflammatory cytokines

July 2021

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12 Reads

Journal of Biological Regulators and Homeostatic Agents

Mast cells (MCs) are hematopoietic cells developed from bone marrow progenitors in response to the ligand stem cell factor, a trans-membrane tyrosine kinase kit receptor. MCs are located virtually in all vascularized tissues and in proximity to neurons and play a decisive role in both innate and adaptive immune responses. Their activation is involved in oxidative stress correlated with infection and inflammation. Pro-inflammatory cytokines are secreted by MCs after physiologic and psychological stress due to virus infection, including SARS-CoV-2. MCs, along with macrophages and pulmonary alveolar epithelial cells, are the main targets attacked by the coronavirus. COVID-19 induced by SARS-CoV-2 causes inflammatory stress which activates MCs to secrete corticotrophin-releasing hormone (CRH), SP, IL-6, TNF, and IL-1. Toll-like receptor (TLR) virus activation in MCs leads to pro-inflammatory cytokine generation without degranulation, an effect that can be inhibited by IL-10, IL-4, IL-1Ra and IL-37. TLR has the ability to recognize extracellular PAMPs by causing the transcription of NLRP, pro-IL-1, and other pro-inflammatory cytokines. The multi-protein complex, comprising pro-caspase-1, activates caspase-1 which in turn activates pro-IL-1 that is transformed into highly inflammatory mature IL-1. In COVID-19, viral RNA is specifically recognized by TLR, followed by recruiting the signal transfer proteins MyD88, IRAK, IKK and TRAF6 which can activate the NF-κB, resulting in transcription of the pro-inflammatory cytokines IL-1 and TNF, responsible for the “cytokine storm” phenomenon. Meanwhile, a new variant of the coronavirus-19 called C.1.2. has been discovered in the United States in the past few days, the effects of which are unknown, and it is therefore of great concern. Researchers are now testing it on immune cells to see if they react and are comparing it to a delta variant. Thus, from the existing data in biomedical literature, we can conclude that the suppression of pro-inflammatory cytokines in viral infections (including COVID-19) mediated by MCs represents a promising therapy not only in this field of medicine, but also in autoimmune, allergic, and cardiovascular disorders, as well as tumor inflammation where MCs play a key role.


Anaphylaxis is a rare reaction in COVID-19 vaccination

June 2021

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34 Reads

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9 Citations

Journal of Biological Regulators and Homeostatic Agents

Anaphylaxis is a severe multisystem reaction that occurs rapidly after the introduction of an antigen that would otherwise be a harmless substance. It is characterized by airway and respiratory problems, cardiovascular collapse, mucosal inflammation, and other complications, all severe symptoms that can cause death. IgE-dependent anaphylaxis involves mast cells (MCs) which are the main sources of biologically active mediators that contribute to the pathological and lethal phenomena that can occur in anaphylaxis. Antibody-mediated anaphylaxis can follow multiple pathways such as that mediated by MCs carrying the FcεRI receptor, which can be activated by very small amounts of antigen including a vaccine antigen and trigger an anaphylactic reaction. In addition, anaphylaxis can also be provoked by high concentrations of IgG antibodies that bind to the FcγR receptor present on basophils, neutrophils, macrophages and MCs. For this reason, the IgG concentration should be kept under control in vaccinations. Activation of MCs is a major cause of anaphylaxis, which requires immediate treatment with epinephrine to arrest severe lethal symptoms. MCs are activated through the antigen binding and cross-linking of IgE with release of mediators such as histamine, proteases, prostaglandins, leukotrienes and inflammatory cytokines. The release of these compounds causes nausea, vomiting, hives, wheezing, flushing, tachycardia, hypotension, laryngeal edema, and cardiovascular collapse. mRNA and viral vector vaccines have been cleared by the United States, Food and Drug Administration (FDA), generating hope of prevention and cure for COVID-19 around the world. Scientists advise against giving the vaccine to individuals who have had a previous history of anaphylaxis. The US Centers for Disease Control and Prevention (CDC) advises people with a previous history of any immediate allergic reaction to remain under observation for approximately 30 minutes after COVID-19 vaccination. To date, vaccines that prevent SARS-CoV-2 infection have not raised major concerns of severe allergic reactions, although, in some cases, pain and redness at the injection site and fever have occurred after administration of the vaccine. These reactions occur in the first 24-48 hours after vaccination. It has been reported that probable forms of anaphylaxis could also occur, especially in women approximately 40 years of age. But after tens of millions of vaccinations, only a few patients had this severe reaction with a low incidence. Anaphylactic and severe allergic reactions can also occur to any component of the vaccine including polysorbates and polyethylene glycol. To date, there is no precise information on allergic reactions to COVID-19 vaccines. Individuals with MCs and complement with higher activation than others may be at greater allergic risk. Moreover, the reactions called anaphylactoids, are those not mediated by IgE because they do not involve this antibody and can also occur in COVID-19 vaccination. These not-IgE-mediated reactions occur through direct activation of MCs and complement with tryptase production, but to a lesser extent than IgE-mediated anaphylaxis. However, at the moment it is not known exactly which component of the vaccine causes the allergic reaction and which vaccine causes the most side effects, including anaphylaxis. Thus, individuals who have a known allergy to any component of the vaccine should not be vaccinated. However, should an anaphylactic reaction occur, this requires immediate treatment with epinephrine to arrest severe lethal symptoms. In conclusion, the purpose of this editorial is to encourage the population to be vaccinated in order to extinguish this global pandemic that is afflicting the world population, and to reassure individuals that anaphylactic reactions do not occur with a higher incidence than other vaccinations.


Be aware of SARS-CoV-2 spike protein: There is more than meets the eye

June 2021

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139 Reads

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36 Citations

Journal of Biological Regulators and Homeostatic Agents

Human The COVID-19 pandemic necessitated the rapid production of vaccines aimed at the production of neutralizing antibodies against the COVID-19 spike protein required for the corona virus binding to target cells. The best well-known vaccines have utilized either mRNA or an adenovirus vector to direct human cells to produce the spike protein against which the body produces mostly neutralizing antibodies. However, recent reports have raised some skepticism as to the biologic actions of the spike protein and the types of antibodies produced. One paper reported that certain antibodies in the blood of infected patients appear to change the shape of the spike protein so as to make it more likely to bind to cells, while other papers showed that the spike protein by itself (without being part of the corona virus) can damage endothelial cells and disrupt the blood-brain barrier. These findings may be even more relevant to the pathogenesis of long-COVID syndrome that may affect as many as 50% of those infected with SARS-CoV-2. In COVID-19, a response to oxidative stress is required by increasing anti-oxidant enzymes. In this regard, it is known that polyphenols are natural anti-oxidants with multiple health effects. Hence, there are even more reasons to intervene with the use of anti-oxidant compounds, such as luteolin, in addition to available vaccines and anti-inflammatory drugs to prevent the harmful actions of the spike protein.


Monoclonal antibody therapy in COVID-19 induced by SARS-CoV-2

April 2021

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27 Reads

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19 Citations

Journal of Biological Regulators and Homeostatic Agents

Acute severe respiratory syndrome coronavirus-2 (SARS-CoV-2) infection causes coronavirus disease-2019 (COVID-19) which is associated with inflammation, thrombosis edema, hemorrhage, intra-alveolar fibrin deposition, and vascular and pulmonary damage. In COVID-19, the coronavirus activates macrophages by inducing the generation of pro-inflammatory cytokines [interleukin (IL)-1, IL-6, IL-18 and TNF] that can damage endothelial cells, activate platelets and neutrophils to produce thromboxane A2 (TxA2), and mediate thrombus generation. In severe cases, all these phenomena can lead to patient death. The binding of SARS-CoV-2 to the Toll Like Receptor (TLR) results in the release of pro-IL-1β that is cleaved by caspase-1, followed by the production of active mature IL-1β which is the most important cytokine in causing fever and inflammation. Its activation in COVID-19 can cause a "cytokine storm" with serious biological and clinical consequences. Blockade of IL-1 with inhibitory and anti-inflammatory cytokines represents a new therapeutic strategy also for COVID-19. Recently, very rare allergic reactions to vaccines have been reported, with phenomena of pulmonary thrombosis. These side effects have raised substantial concern in the population. Highly allergic subjects should therefore be vaccinated under strict medical supervision. COVID-19 has accelerated vaccine therapy but also the use of drugs and monoclonal antibodies (mABs) which have been used in COVID-19 therapy. They are primarily adopted to treat high-risk mild-to-moderate non-hospitalized patients, and it has been noted that the administration of two mABs gave better results. mABs, other than polyclonal plasma antibodies from infected subjects with SARS-CoV-2, are produced in the laboratory and are intended to fight SARS-CoV-2. They bind specifically to the antigenic determinant of the spike protein, inhibiting the pathogenicity of the virus. The most suitable individuals for mAB therapy are people at particular risk, such as the elderly and those with serious chronic diseases including diabetics, hypertension and obesity, including subjects suffering from cardiovascular diseases. These antibodies have a well-predetermined target, they bind mainly to the protein S (formed by the S1A, B, C and D subtypes), located on the viral surface, and to the S2 protein that acts as a fuser between the virus and the cell membrane. Since mABs are derived from a single splenic immune cell, they are identical and form a cell clone which can neutralize SARS-CoV-2 by binding to the epitope of the virus. However, this COVID-19 therapy may cause several side effects such as mild pain, bleeding, bruising of the skin, soreness, swelling, thrombotic-type episodes, arterial hypertension, changes in heart activity, slowed bone marrow activity, impaired renal function, diarrhea, fatigue, nausea, vomiting, allergic reaction, fever, and possible subsequent infection may occur at the site of injection. In conclusion, the studies promoting mAB therapy in COVID-19 are very promising but the results are not yet definitive and more investigations are needed to certify both their good neutralizing effects of SARS-CoV-2, and to eliminate, or at least mitigate, the harmful side effects.


Antibodies for COVID-19 - which, when and how long?

April 2021

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29 Reads

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10 Citations

Journal of Biological Regulators and Homeostatic Agents

Infection with SARS-CoV2 leads to COVID-19, the severity of which derives from the host’s immune response, especially the release of a storm of pro-inflammatory cytokines. This coronavirus infects by first binding to the ectoenzyme Angiotensin Converting Enzyme 2 (ACE2), a serine protease acting as the receptor, while another serine protease is necessary for priming the viral spike “S” protein required for entering the cells. Repurposing existing drugs for potential anti-coronavirus activity have failed. As a result, there were intense efforts to rapidly produce ways of providing prophylactic active immunization (vaccines) or abortive passive (convalescent plasma or monoclonal antibodies) neutralizing antibodies. The availability of vaccines for COVID-19 have been largely successful, but many questions still remain unanswered. In spite of the original enthusiasm, clinical studies using convalescent serum or monoclonal antibodies have shown limited benefit. Moreover, the emergence of Long-COVID syndrome in most infected patients necessitates the development of treatment approaches that may prevent viral entry by blocking both serine proteases involved, as with a liposomal blend of the natural flavonoids luteolin and quercetin.


COVID-19 and Multisystem Inflammatory Syndrome, or is it Mast Cell Activation Syndrome?

September 2020

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116 Reads

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57 Citations

Journal of Biological Regulators and Homeostatic Agents

COVID-19 derives from infection with Coronavirus [severe acute respiratory syndrome (SARS)-CoV-2] and is associated with high morbidity and mortality due to release of a storm of pro-inflammatory cytokines and thrombogenic agents resulting in destruction of the lungs. Many reports indicate that a considerable number of patients who are positive for SARS-CoV-2 are asymptomatic or have mild symptoms. However, increasing evidence suggests that many such patients who either recovered from or had mild symptoms after COVID-19 exhibit diffuse, multiorgan, symptoms months after the infection. These symptoms include malaise, myalgias, chest tightness, brain fog and other neuropsychiatric symptoms that were originally reported in children and named Multisystem Inflammatory Syndrome (MIS-C). Now the US Center for Disease Control (CDC) announced the recognition of a similar condition in adults, named Multisystem Inflammatory Syndrome (MIS-A). The symptoms characterizing these conditions are very similar to those associated with Mast Cell Activation Syndrome (MCAS, US ICD-110 code D89.42-idiopathic mast cell activation syndrome). Hence, the possibility of MCAS should be evaluated in any patient with MIS and/or multisystem inflammatory symptoms. In either case, these syndromes should be addressed with liposomal formulation (in olive pomace oil) of the flavone luteolin (e.g. PureLut® or FibroProtek®) together with the antihistamine rupatadine, which also has anti-platelet activating factor (PAF) activity and inhibits mast cells that have been implicated in the pathogenesis of cytokine storms in COVID-19.


IL-1 Superfamily Members and Periodontal Diseases

August 2020

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66 Reads

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64 Citations

Journal of Dental Research

Periodontitis is a complex, multifactorial chronic disease involving continuous interactions among bacteria, host immune/inflammatory responses, and modifying genetic and environmental factors. More than any other cytokine family, the interleukin (IL)–1 family includes key signaling molecules that trigger and perpetuate periodontal inflammation. Over the years, the IL-1 family expanded to include 11 members of cytokines, some with agonist activity (IL-1α, IL-1β, IL-18, IL-33, IL-36α, IL-36β, and IL-36γ), receptor antagonists (IL-1Ra, IL-36Ra), and 2 anti-inflammatory cytokines (IL-37, IL-38). The IL-1 receptor antagonist (IL-1Ra) has emerged as a pivotal player in the defense against periodontitis. IL-33 primarily induces the production of Th2-associated cytokines but acts as an “alarmin” via stimulation of mast cells. The IL-36 subclass of cytokines may be important in regulating mucosal inflammation and homeostasis. IL-37 suppresses innate and acquired immune responses. IL-38 is the most recent member of the IL-1 superfamily and has anti-inflammatory properties similar to those of IL-37 but through different receptors. However, limited evidence exists regarding the role of IL-37 and IL-38 in periodontitis. Despite the development of IL-1 blocking agents, therapeutic blockade of select IL-1 family members for periodontitis has only been partially investigated in preclinical and clinical research, while the development of IL-37 and IL-38 as novel anti-inflammatory drugs has not been considered adequately. Here, we review the key properties of the IL-1 family members and provide insights into targeting or promoting select cytokines as new therapeutic agents.


IL-38 inhibits microglial inflammatory mediators and is decreased in amygdala of children with autism spectrum disorder

June 2020

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73 Reads

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32 Citations

Proceedings of the National Academy of Sciences

Significance These findings indicate the important role of IL-38 in the inihibition of neurotensin-stimulated activation of microglia and the resulting release of proinflammatory molecules. Moreover, the reduced expression of IL-38 in the amygdala indicates that it may not be sufficient to prevent inflammation, and that its administration could serve as a novel treatment for children with autism spectrum disorder.


IL-37 is increased in brains of children with autism spectrum disorder and inhibits human microglia stimulated by neurotensin

October 2019

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218 Reads

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48 Citations

Proceedings of the National Academy of Sciences

Significance IL-37, an antiinflammatory cytokine, is increased along with the proinflammatory cytokine IL-18 and its receptor IL-18R in the amygdala and dorsolateral prefrontal cortex of children with autism spectrum disorder (ASD). IL-37 inhibits neurotensin (NT)-stimulated secretion and gene expression of IL-1β and CXCL8 from cultured human microglia, the resident immune cells of the brain. Moreover, NT, IL-1β, and TNF increase gene expression of IL-37 in these microglia. These findings highlight the important role of NT in the activation of microglia and of IL-37 in the inhibition of inflammation, thus supporting the development of IL-37 as a treatment for ASD.

Citations (9)


... The reciprocal interactions between MCs and eosinophils have been well characterized, and their common activating factor, interleukin-5 (IL5), is released by both cell types [23]. Over the last decade, many studies have identified a list of other activating and inhibitory molecules and pathways for MCs in CRSwNP, and a summary of these factors is given in Table 1 [24][25][26][27][28][29][30][31][32][33][34][35][36][37][38][39][40]. Indeed, the use of single-cell technologies (that is, the multi-omics analysis of the transcriptome, metabolome, proteome, . . ...

Reference:

Update on the Biological and Clinical Relevance of Mast Cells in Chronic Rhinosinusitis with Nasal Polyps
Neurohormonal markers in chronic rhinosinusitis
  • Citing Article
  • July 2021

Journal of Biological Regulators and Homeostatic Agents

... Although, many vaccines have been licensed for the use against SARS-CoV-2 virus, still there is a need for safe and effective vaccines especially for elderly populations. Currently used anti-COVID-19 vaccines exhibit sometimes allergic reactions, which may be attributed to the high levels of generated IgG antibodies that interact with the Fcg receptors present on the surface of some immune cells (26,27). It is of great importance that vaccines elicit an immune response capable of neutralizing the circulating variants of concern and possible new strains so as to induce immune memory cells and actively prevent the development of disease. ...

Anaphylaxis is a rare reaction in COVID-19 vaccination
  • Citing Article
  • June 2021

Journal of Biological Regulators and Homeostatic Agents

... The mRNA vaccines are typically administered through the intramuscular route. After being injected into the muscle (usually the deltoid muscle), the vaccine is taken up by immune cells and transported through the lymphatic system to the lymph nodes, where it can stimulate an immune response [14]. However, it is possible for the vaccine to be inadvertently injected into a blood vessel. ...

Be aware of SARS-CoV-2 spike protein: There is more than meets the eye
  • Citing Article
  • June 2021

Journal of Biological Regulators and Homeostatic Agents

... This positive profile in AECA autoantibodies raises intriguing questions about the interplay between SARS-CoV-2 infection and the immune response. Activation of macrophages by coronavirus, inducing the generation of pro-inflammatory cytokines (interleukin (IL)-1, IL-6, IL-18, and TNF) that can damage endothelial cells and activate platelets and neutrophils, has been reported in several studies [39]. Specifically, cytokine storms, result from the dysregulation of endothelial cells, characterized by abnormal coagulation and vascular leakage [40]. ...

Monoclonal antibody therapy in COVID-19 induced by SARS-CoV-2
  • Citing Article
  • April 2021

Journal of Biological Regulators and Homeostatic Agents

... There is an urgent need to identify possible interventions to mitigate the crossing of the blood-brain barrier (BBB) by the S-protein, which results in perivascular inflammation. Notably, the use of small natural molecules, especially luteolin and quercetin, to cross the BBB abrogates this detrimental effect [153][154][155]. ...

Antibodies for COVID-19 - which, when and how long?
  • Citing Article
  • April 2021

Journal of Biological Regulators and Homeostatic Agents

... These symptoms were initially reported in children and named Multisystem Inflammatory Syndrome (MIS-C), but a similar condition has also occurred in adults, named Multisystem Inflammatory Syndrome (MIS-A). The typical symptoms (malaise, chest tightness, myalgias, brain fog, and other neuropsychiatric symptoms) are very similar to those associated with Mast Cell Activation Syndrome [11]. ...

COVID-19 and Multisystem Inflammatory Syndrome, or is it Mast Cell Activation Syndrome?
  • Citing Article
  • September 2020

Journal of Biological Regulators and Homeostatic Agents

... Bacterial virulence factors such as LPS and leukotoxin have been shown to attack oral epithelial cells, triggering the release of proinflammatory factors interleukin-1 alpha (IL-1α) and interleukin-1 beta (IL-1β), which play a crucial role in periodontal destruction. 68 Autophagy acts to eliminate pathogens and inhibit the production of inflammatory factors, thereby mitigating inflammatory responses. 69 It is conceivable that IL1β may intensify inflammation in periodontal tissues by influencing the activity of the autophagy pathway. ...

IL-1 Superfamily Members and Periodontal Diseases
  • Citing Article
  • August 2020

Journal of Dental Research

... Cleavage at this particular distance N-terminally of an A-x-Asp sequence was previously shown to enhance the biological activity of other IL-1 family members [3] and this ' A-x-Asp rule' was used as a rationale for the generation of a truncated aa20-152 recombinant form of IL-38 [9]. However, to date, neither specific cleavage site(s), nor protease(s) involved in IL-38 truncation have been identified experimentally and, while several recombinant IL-38 proteins with different N-terminal truncations have been used in different studies [8,9,[16][17][18][19][20][21], a consensus identifying a unique, optimally bioactive, truncated IL-38 variant has not yet emerged [6]. In this study, we determined the N-terminal sequence of the native IL-38 protein produced by a human keratinocyte cell line, and of endogenous IL-38 isolated from healthy human epidermis. ...

IL-38 inhibits microglial inflammatory mediators and is decreased in amygdala of children with autism spectrum disorder
  • Citing Article
  • June 2020

Proceedings of the National Academy of Sciences

... Increasing evidence supports that inflammation in the central nervous system (CNS) is found in neurological disorders and may also be involved in the development of ASD [18]. Studies showed that the expressions of proinflammatory cytokines including TNF-α and interleukin1β (IL-1β) were increased in prefrontal cortex of postmortem human brain tissues with ASD [19]. Based on the above researches, we speculate that abnormal levels of elements in the body may cause the occurrence of inflammation, which might be associated with the development of ASD, but the mechanism is not understood. ...

IL-37 is increased in brains of children with autism spectrum disorder and inhibits human microglia stimulated by neurotensin
  • Citing Article
  • October 2019

Proceedings of the National Academy of Sciences