Balzanelli Mario G, Rastmanesh Reza, Distratis Pietro, Lazzaro Rita, Inchingolo Francesco, Del Prete Raffaele, Pham Van H, Aityan Sergey K, Cong Toai Tran, Nguyen Kieu C D, Isacco Ciro Gargiulo
118 SET, Department of Pre-hospital and Emergency, SG Giuseppe Moscati Hospital, 74120 Taranto, Italy.
Department of Nutrition and Metabolism, The Nutrition Society, Boyd Orr House, 10 Cambridge Court, 210 Shepherds Bush Road, London, UK.
Endocr Metab Immune Disord Drug Targets. 2025;25(2):85-98. doi: 10.2174/0118715303283480240227113401.
Coronavirus disease-2019 (COVID-19) is a respiratory disease in which Spike protein from SARS-CoV-2 plays a key role in transferring virus genomic code into target cells. Spike protein, which is found on the surface of the SARS-CoV-2 virus, latches onto angiotensin-converting enzyme 2 receptors (ACE2r) on target cells. The RNA genome of coronaviruses, with an average length of 29 kb, is the longest among all RNA viruses and comprises six to ten open reading frames (ORFs) responsible for encoding replicase and structural proteins for the virus. Each component of the viral genome is inserted into a helical nucleocapsid surrounded by a lipid bilayer. The Spike protein is responsible for damage to several organs and tissues, even leading to severe impairments and long-term disabilities. Spike protein could also be the cause of the long-term post-infectious conditions known as Long COVID-19, characterized by a group of unresponsive idiopathic severe neuro- and cardiovascular disorders, including strokes, cardiopathies, neuralgias, fibromyalgia, and Guillaume- Barret's like-disease. In this paper, we suggest a pervasive mechanism whereby the Spike proteins either from SARS-CoV-2 mRNA or mRNA vaccines, tend to enter the mature cells, and progenitor, multipotent, and pluripotent stem cells (SCs), altering the genome integrity. This will eventually lead to the production of newly affected clones and mature cells. The hypothesis presented in this paper proposes that the mRNA integration into DNA occurs through several components of the evolutionarily genetic mechanism such as retrotransposons and retrotransposition, LINE-1 or L1 (long interspersed element-1), and ORF-1 and 2 responsible for the generation of retrogenes. Once the integration phase is concluded, somatic cells, progenitor cells, and SCs employ different silencing mechanisms. DNA methylation, followed by histone modification, begins to generate unlimited lines of affected cells and clones that form affected tissues characterized by abnormal patterns that become targets of systemic immune cells, generating uncontrolled inflammatory conditions, as observed in both Long COVID-19 syndrome and the mRNA vaccine.
2019冠状病毒病(COVID-19)是一种呼吸道疾病,其中严重急性呼吸综合征冠状病毒2(SARS-CoV-2)的刺突蛋白在将病毒基因组编码转移到靶细胞中起关键作用。刺突蛋白存在于SARS-CoV-2病毒表面,可附着在靶细胞上的血管紧张素转换酶2受体(ACE2r)上。冠状病毒的RNA基因组平均长度为29kb,是所有RNA病毒中最长的,包含6至10个开放阅读框(ORF),负责编码病毒的复制酶和结构蛋白。病毒基因组的每个组件都插入到一个由脂质双层包围的螺旋核衣壳中。刺突蛋白会对多个器官和组织造成损害,甚至导致严重损伤和长期残疾。刺突蛋白也可能是被称为“长新冠”的长期感染后病症的原因,其特征是一组难治性特发性严重神经和心血管疾病,包括中风、心脏病、神经痛、纤维肌痛以及吉兰-巴雷样疾病。在本文中,我们提出了一种普遍存在的机制,即来自SARS-CoV-2 mRNA或mRNA疫苗的刺突蛋白倾向于进入成熟细胞以及祖细胞、多能干细胞和全能干细胞(SCs),从而改变基因组完整性。这最终将导致产生新的受影响克隆和成熟细胞。本文提出的假设认为,mRNA整合到DNA中是通过进化遗传机制的几个组成部分发生的,如逆转座子和逆转座、LINE-1或L1(长散在核元件-1)以及负责产生反转录基因的ORF-1和ORF-2。一旦整合阶段完成,体细胞、祖细胞和干细胞会采用不同的沉默机制。DNA甲基化之后是组蛋白修饰,开始产生无限数量的受影响细胞系和克隆,这些细胞系和克隆形成具有异常模式的受影响组织,成为全身免疫细胞的靶标,从而产生不受控制的炎症状态,这在“长新冠”综合征和mRNA疫苗中都有观察到。
