Rare primary vasculitis: update on multiple complex diseases and the new kids on the block.

Systemic vasculitis is a group of rare diseases that share an essential characteristic: inflammation of blood vessel walls. This injury occurs during the disease course, but specific features vary for each entity. In this paper, we will address relevant aspects of the newest monogenic mutation vasculitis, such as deficiency of adenosine deaminase 2 (ADA2) and VEXAS syndrome (UBA1), and other relevant vasculitis, such as Cogan syndrome and Susac syndrome that may share some similarities with them.

Potential health risks of mRNA-based vaccine therapy: A hypothesis.

Therapeutic applications of synthetic mRNA were proposed more than 30 years ago, and are currently the basis of one of the vaccine platforms used at a massive scale as part of the public health strategy to get COVID-19 under control. To date, there are no published studies on the biodistribution, cellular uptake, endosomal escape, translation rates, functional half-life and inactivation kinetics of synthetic mRNA, rates and duration of vaccine-induced antigen expression in different cell types. Furthermore, despite the assumption that there is no possibility of genomic integration of therapeutic synthetic mRNA, only one recent study has examined interactions between vaccine mRNA and the genome of transfected cells, and reported that an endogenous retrotransposon, LINE-1 is unsilenced following mRNA entry to the cell, leading to reverse transcription of full length vaccine mRNA sequences, and nuclear entry. This finding should be a major safety concern, given the possibility of synthetic mRNA-driven epigenetic and genomic modifications arising. We propose that in susceptible individuals, cytosolic clearance of nucleotide modified synthetic (nms-mRNAs) is impeded. Sustained presence of nms-mRNA in the cytoplasm deregulates and activates endogenous transposable elements (TEs), causing some of the mRNA copies to be reverse transcribed. The cytosolic accumulation of the nms-mRNA and the reverse transcribed cDNA molecules activates RNA and DNA sensory pathways. Their concurrent activation initiates a synchronized innate response against non-self nucleic acids, prompting type-I interferon and pro-inflammatory cytokine production which, if unregulated, leads to autoinflammatory and autoimmune conditions, while activated TEs increase the risk of insertional mutagenesis of the reverse transcribed molecules, which can disrupt coding regions, enhance the risk of mutations in tumour suppressor genes, and lead to sustained DNA damage. Susceptible individuals would then expectedly have an increased risk of DNA damage, chronic autoinflammation, autoimmunity and cancer. In light of the current mass administration of nms-mRNA vaccines, it is essential and urgent to fully understand the intracellular cascades initiated by cellular uptake of synthetic mRNA and the consequences of these molecular events.

Chronic recurrent multifocal osteomyelitis in pediatrics in a tertiary center / Osteomielitis crónica multifocal recurrente en pediatría en un hospital terciario

ABSTRACT Introduction: Chronic recurrent multifocal osteomyelitis (CRMO), also called chronic non-bacterial osteomyelitis, is an autoinflammatory disease characterized by bone involvement, recurrent flare-ups, and the lack of microbiological isolation. It is a diagnosis of exclusion, and the fundamental basis of treatment is non-steroidal anti-inflammatory drugs. The objective of the study is to describe our experience as a result of three girls diagnosed with CRMO, highlighting the clinical presentation, the findings in the complementary tests, the treatment, and the evolution of the disease. Patients and methods: Retrospective chart review of children with CRMO in the last 5 years, being followed-up in a pediatric rheumatology clinic in a tertiary center. Results: The cases are presented of 3 patients diagnosed with CRMO, all of them young girls, with a mean age of 11 years, who consulted due to pain and functional impotence. It was in single location in two cases, and the other with several sources of pain, at cervical and lumbar level, associated with weakness of the upper and lower limbs. Two of the cases received antibiotic treatment. One girl responded to treatment with anti-inflammatory drugs and another required combining corticosteroids. The remaining case, in addition to anti-inflammatory drugs and corticosteroids, required intravenous pamidronate. Conclusions: With this study, and despite the small sample size, the aim was to highlight the importance of this, in many cases unknown and underdiagnosed, pathology, and to stress the importance of establishing a diagnostic and therapeutic protocol for the correct approach to this disease.

RESUMEN Introducción: La osteomielitis crónica multifocal recurrente (OCMR), también conocida como osteomielitis crónica no bacteriana, es una enfermedad autoinflamatoria caracterizada por afectación ósea, de curso en brotes y en ausencia de aislamiento microbiológico. El diagnóstico es de exclusión y el pilar fundamental del tratamiento son los antiinflamatorios no esteroideos (AINES). El objetivo del estudio es describir nuestra experiencia de tres niñas diagnosticadas de OCMR, destacando la presentación clínica, los hallazgos en las pruebas complementarias, el tratamiento y la evolución de la enfermedad. Pacientes y métodos: Revisión retrospectiva de historias clínicas de niños diagnosticados de OCMR en los últimos cinco años, en seguimiento en consulta de reumatología pediátrica de un hospital terciario. Resultados: Presentamos tres pacientes diagnosticadas de OCMR, todas ellas mujeres adolescentes, con media de edad de 11 años. Consultaron por dolor e impotencia funcional, dos en una única localización y la otra por varios focos de dolor, a nivel cervical y lumbar, asociando debilidad de miembros superiores e inferiores. Con respecto al tratamiento, dos recibieron tratamiento antibiótico. Una niña respondió a antiinflamatorios; otra precisó asociar corticoides, y la restante, además de antiinflamatorios y corticoides, necesitó pamidronato intravenoso. Conclusiones: Con este estudio y a pesar del pequeño tamaño muestral, se pretende resaltar la importancia de esta patología, en muchos casos desconocida e infradiagnosticada, e insistir en la importancia de establecer un protocolo diagnóstico y terapéutico para su correcto abordaje.

Trained Immunity Contribution to Autoimmune and Inflammatory Disorders.

A dysregulated immune response toward self-antigens characterizes autoimmune and autoinflammatory (AIF) disorders. Autoantibodies or autoreactive T cells contribute to autoimmune diseases, while autoinflammation results from a hyper-functional innate immune system. Aside from their differences, many studies suggest that monocytes and macrophages (Mo/Ma) significantly contribute to the development of both types of disease. Mo/Ma are innate immune cells that promote an immune-modulatory, pro-inflammatory, or repair response depending on the microenvironment. However, understanding the contribution of these cells to different immune disorders has been difficult due to their high functional and phenotypic plasticity. Several factors can influence the function of Mo/Ma under the landscape of autoimmune/autoinflammatory diseases, such as genetic predisposition, epigenetic changes, or infections. For instance, some vaccines and microorganisms can induce epigenetic changes in Mo/Ma, modifying their functional responses. This phenomenon is known as trained immunity. Trained immunity can be mediated by Mo/Ma and NK cells independently of T and B cell function. It is defined as the altered innate immune response to the same or different microorganisms during a second encounter. The improvement in cell function is related to epigenetic and metabolic changes that modify gene expression. Although the benefits of immune training have been highlighted in a vaccination context, the effects of this type of immune response on autoimmunity and chronic inflammation still remain controversial. Induction of trained immunity reprograms cellular metabolism in hematopoietic stem cells (HSCs), transmitting a memory-like phenotype to the cells. Thus, trained Mo/Ma derived from HSCs typically present a metabolic shift toward glycolysis, which leads to the modification of the chromatin architecture. During trained immunity, the epigenetic changes facilitate the specific gene expression after secondary challenge with other stimuli. Consequently, the enhanced pro-inflammatory response could contribute to developing or maintaining autoimmune/autoinflammatory diseases. However, the prediction of the outcome is not simple, and other studies propose that trained immunity can induce a beneficial response both in AIF and autoimmune conditions by inducing anti-inflammatory responses. This article describes the metabolic and epigenetic mechanisms involved in trained immunity that affect Mo/Ma, contraposing the controversial evidence on how it may impact autoimmune/autoinflammation conditions.

Immunodeficiencies: non-infectious manifestations

Abstract Objectives: Classical immunodeficiencies are mainly characterized by infectious conditions. In recent years, manifestations related to allergy, inflammation, autoimmunity, lymphoproliferation, and malignancies related to this group of diseases have been described. The text intends to make an update on the non-infectious manifestations of the primary defects of the immune system. Source of data: Searches were carried out in the PubMed database for review articles published in the last five years, in English, French, or Spanish, using the terms "allergy," "inflammation," "autoimmunity," "lymphoproliferation," "cancer," AND "immunodeficiency" or "primary immunodeficiency" or "inborn errors of immunity" NOT "HIV". Synthesis of data: Non-infectious manifestations characterize the primary defects in which there is dysregulation of the immune system. The most common manifestations of autoimmunity in this group of diseases are autoimmune cytopenias. Exacerbated inflammatory processes, benign lymphoproliferation, and propensity to malignancy of the lymphoreticular system are related to several diseases in this group. Severe manifestations of atopy or food allergy characterize some immunodeficiencies. Disorders of inborn immunity of the autoinflammatory type are characterized by an aseptic inflammatory process in the absence of autoimmunity, with fever and recurrent manifestations in different organs. Conclusions: Not only infectious conditions should raise the suspicion of immunodeficiencies, but also manifestations of allergy, inflammation, autoimmunity, lymphoproliferation, or cancer, especially if they are recurrent, associated to each other, affecting young patients, or in severe and/or difficult to treat conditions.

Immunodeficiencies: non-infectious manifestations.

OBJECTIVES: Classical immunodeficiencies are mainly characterized by infectious conditions. In recent years, manifestations related to allergy, inflammation, autoimmunity, lymphoproliferation, and malignancies related to this group of diseases have been described. The text intends to make an update on the non-infectious manifestations of the primary defects of the immune system. SOURCE OF DATA: Searches were carried out in the PubMed database for review articles published in the last five years, in English, French, or Spanish, using the terms "allergy," "inflammation," "autoimmunity," "lymphoproliferation," "cancer," AND "immunodeficiency" or "primary immunodeficiency" or "inborn errors of immunity" NOT "HIV". SYNTHESIS OF DATA: Non-infectious manifestations characterize the primary defects in which there is dysregulation of the immune system. The most common manifestations of autoimmunity in this group of diseases are autoimmune cytopenias. Exacerbated inflammatory processes, benign lymphoproliferation, and propensity to malignancy of the lymphoreticular system are related to several diseases in this group. Severe manifestations of atopy or food allergy characterize some immunodeficiencies. Disorders of inborn immunity of the autoinflammatory type are characterized by an aseptic inflammatory process in the absence of autoimmunity, with fever and recurrent manifestations in different organs. CONCLUSIONS: Not only infectious conditions should raise the suspicion of immunodeficiencies, but also manifestations of allergy, inflammation, autoimmunity, lymphoproliferation, or cancer, especially if they are recurrent, associated to each other, affecting young patients, or in severe and/or difficult to treat conditions.

[Autoinflammatory diseases]. / Enfermedades autoinflamatorias.

The monogenic autoinflammatory diseases are rare, genetic disorders resulting in constitutive innate immune defects leading to excessive response to danger signals, spontaneous activation of inflammatory mediators or loss of inhibitory regulators. During the past 15 years, a growing number of monogenic inflammatory diseases have been described and their respective responsible genes identified. The proteins encoded by these genes are involved in the regulatory pathways of inflammation and are mostly expressed in cells of the innate immune system. Although a group of patients exhibit episodic systemic inflammation (periodic fevers), these disorders are mediated by continuous overproduction and release of pro-inflammatory mediators, notably IL-1ß, and are best considered as autoinflammatory diseases rather than periodic fevers. The most common autoinflammatory diseases are familial Mediterranean fever (FMF), TNF receptor-associated periodic syndrome (TRAPS), mevalonate kinase deficiency/hyperimmunoglobulin D syndrome (MKD/HIDS) and the cryopyrin-associated periodic syndromes (CAPS). Clinical features often include fever, cutaneous rash, serosal involvement and acute phase reactants. Autoantibodies are usually absent but may accompany certain syndromes. Diagnosis remains clinical and is based on the different phenotypic features. Genetic diagnosis is of utmost importance, but must be performed judiciously and interpreted cautiously. Treatment with biologic agents that block proinflammatory cytokines, particularly IL-1, has proved to be dramatically effective in many patients. Still, in many cases of autoinflammation no genetic abnormalities are detected and treatment remains suboptimal, raising the question of novel pathogenic mutations in unexplored genes and pathways.

Enfermedades autoinflamatorias / Autoinflammatory diseases

Las enfermedades autoinflamatorias monogénicas son desórdenes raros que resultan en defectos del sistema inmune innato, originando excesiva respuesta a señales de peligro, activación espontánea de vías inflamatorias o pérdida de reguladores inhibitorios. En los últimos 15 años un creciente número de enfermedades inflamatorias monogénicas han sido descriptas y sus respectivos genes responsables identificados. Las proteínas codificadas por estos genes están involucradas en las vías regulatorias de la inflamación y están expresadas fundamentalmente en las células del sistema inmune innato. Si bien un grupo de pacientes exhibe inflamación sistémica episódica (fiebres periódicas), estos desórdenes están mediados por una continua sobreproducción y liberación de mediadores pro-inflamatorios -especialmente la interleucina 1beta- y su conceptualización como enfermedades autoinflamatorias es preferible por sobre la de fiebres periódicas. Las enfermedades más frecuentes son fiebre mediterránea familiar (FMF), TRAPS, deficiencia de mevalonatocinasa/síndrome de hiper IgD (MKD/HIDS) y los síndromes periódicos asociados a criopirina (CAPS). Sus características clínicas frecuentemente incluyen fiebre, erupciones cutáneas, compromiso de serosas y reactantes de fase aguda. Los autoanticuerpos están usualmente ausentes pero pueden observarse en ciertos síndromes. El diagnóstico es clínico y se basa en las características fenotípicas. El diagnóstico genético es muy importante pero debe ser realizado de manera juiciosa e interpretado con cautela. El tratamiento con agentes biológicos que bloquean citocinas pro-inflamatorias, particularmente IL-1, ha demostrado ser efectivo en muchos pacientes. Sin embargo, en otros tantos casos no se descubren anormalidades genéticas y el tratamiento es subóptimo, planteando la posibilidad de mutaciones patogénicas en genes y vías aún no explorados.

The monogenic autoinflammatory diseases are rare, genetic disorders resulting in constitutive innate immune defects leading to excessive response to danger signals, spontaneous activation of inflammatory mediators or loss of inhibitory regulators. During the past 15 years, a growing number of monogenic inflammatory diseases have been described and their respective responsible genes identified. The proteins encoded by these genes are involved in the regulatory pathways of inflammation and are mostly expressed in cells of the innate immune system. Although a group of patients exhibit episodic systemic inflammation (periodic fevers), these disorders are mediated by continuous overproduction and release of pro-inflammatory mediators, notably IL-1β, and are best considered as autoinflammatory diseases rather than periodic fevers. The most common autoinflammatory diseases are familial Mediterranean fever (FMF), TNF receptor-associated periodic syndrome (TRAPS), mevalonate kinase deficiency/hyperimmunoglobulin D syndrome (MKD/HIDS) and the cryopyrin-associated periodic syndromes (CAPS). Clinical features often include fever, cutaneous rash, serosal involvement and acute phase reactants. Autoantibodies are usually absent but may accompany certain syndromes. Diagnosis remains clinical and is based on the different phenotypic features. Genetic diagnosis is of utmost importance, but must be performed judiciously and interpreted cautiously. Treatment with biologic agents that block proinflammatory cytokines, particularly IL-1, has proved to be dramatically effective in many patients. Still, in many cases of autoinflammation no genetic abnormalities are detected and treatment remains suboptimal, raising the question of novel pathogenic mutations in unexplored genes and pathways.