Build Your "Whole Body" Immunity by De-Worming and Parasite Cleanses!

The assassination attempt on Madagascar's President Andry Rajoelina seems to be part of a larger conspiracy involving foreign and Malagasy nationals. The plot was not only directed at Rajoelina but also aimed to "eliminate and neutralize" other high-ranking political figures in Madagascar who supported the dissemination and distribution of a remedy called "Covid Organics," promoted by the President as a treatment and cure for COVID-19, made from Turmeric, Black Tea, and Artemisia Annua (also used to treat Malaria). This suggests a significant level of planning and intent behind the scheme to prevent Madagascar from mitigating the global pandemic in Africa, which has recorded the fewest COVID-19 deaths of any continent.

Involvement of Foreign Nationals

Among those arrested were two French nationals, identified as former military officers. Their involvement suggests that there may have been external influences or motivations behind the assassination attempt. The presence of foreign nationals in such a serious plot raises questions about international interests in Madagascar, which has historically been a country with strategic geopolitical significance due to its location and resources.

A Closer Look at global immunity!

How Wormwood and Other Parasite Cleanses Aid COVID Affected Individuals

Wormwood, especially the species Artemisia annua, has a long history of medicinal use in Africa and the Southern United States, particularly in Louisiana, among Black and Indigenous communities. It is known for its effectiveness in treating malaria. The active ingredients in wormwood, such as artemisinin and its derivatives, have gained interest due to their potential antiviral qualities. With continuous research into COVID-19 treatments and its use in Africa as a cure for Covid 19, there is a growing curiosity about how these compounds could benefit those impacted by the virus.

Mechanisms of Action Against SARS-CoV-2

Inhibition of Viral Replication: Studies have indicated that artemisinin and its derivatives can inhibit the replication of viruses, including coronaviruses. These compounds may interfere with viral proteins essential for replication and transcription processes. For instance, they have shown potential activity against the main protease (3CLPRO) of SARS-CoV-2, which is crucial for viral maturation.

Modulation of Immune Response: Artemisinin has been noted for its immunomodulatory effects. It may help regulate the immune response during viral infections by reducing excessive inflammation often seen in severe cases of COVID-19. This could potentially mitigate cytokine storms—a severe immune reaction that can lead to acute respiratory distress syndrome (ARDS).

Antiparasitic Properties: While primarily known for their antiparasitic effects, these compounds may also contribute to overall health improvements in individuals who are co-infected with parasites and viruses like SARS-CoV-2. By addressing parasitic infections, they could enhance the immune system’s ability to respond effectively to viral pathogens.

Research is currently exploring the synergistic effects of combining artemisinin-based treatments with other antiviral drugs, herbs, and anticoagulants to improve their effectiveness against COVID-19. These potential synergistic benefits may offer a stronger approach to treatment.

Laboratory studies indicate that wormwood extracts may have antiviral effects against coronaviruses. However, clinical evidence connecting wormwood or parasite cleanses to better outcomes in COVID-19 patients is scarce, partly due to the lack of financial incentives compared to vaccines. While some research has investigated the adjunct use of herbal remedies with standard treatments, the outcomes are inconsistent, largely depending on the study design and the demographics involved.

Mechanism of Action on mRNA and Protein Expression

The effects of wormwood on mRNA proteins primarily involve its influence on adipogenesis—the process by which preadipocytes differentiate into mature adipocytes. In studies involving 3T3-L1 cells (a mouse preadipocyte cell line), treatment with annual wormwood leaves (AWL) has been shown to downregulate the expression of several key adipogenic transcription factors, specifically CCAAT/enhancer binding protein-α (C/EBPα) and peroxisome proliferator-activated receptor-γ (PPARγ). These transcription factors are crucial for the regulation of genes involved in fat cell differentiation and lipid metabolism.

Downregulation of Adipogenic Genes:

When 3T3-L1 cells were treated with AWL extracts, there was a significant decrease in the mRNA levels of C/EBPα, PPARγ, and other related genes such as adipocyte fatty acid-binding protein 4 (aP2). This downregulation indicates that AWL inhibits the transcriptional activation necessary for adipocyte differentiation.

Impact on Protein Levels:

The reduction in mRNA levels subsequently leads to decreased protein synthesis for these transcription factors. Western blot analysis has shown that AWL treatment results in lower protein levels of C/EBPα and PPARγ over time compared to untreated control groups. This suggests that AWL not only affects gene expression at the transcriptional level but also impacts the translation process leading to reduced protein availability.

Inhibition of Akt Signaling Pathway:

Additionally, AWL affects signaling pathways critical for adipogenesis. The phosphoinositide 3-kinase/protein kinase B (PI3K/Akt) pathway is essential for promoting adipocyte differentiation. Treatment with AWL was found to inhibit Akt phosphorylation, which is necessary for activating downstream targets involved in lipid accumulation and cell growth. This inhibition further contributes to the suppression of mRNA expression related to adipogenesis. Adipogenesis is the formation of adipocytes (fat cells) from stem cells. It involves 2 phases, determination, and terminal differentiation.

Overall Effect on Lipid Accumulation:

As a result of these molecular changes, there is a marked decrease in triglyceride accumulation within differentiated adipocytes when treated with AWL extracts. This effect highlights how alterations at both the mRNA and protein levels can lead to significant changes in cellular function and metabolism.

In summary, wormwood affects mRNA proteins by downregulating key transcription factors involved in adipogenesis, inhibiting signaling pathways like Akt that promote differentiation, and consequently reducing lipid accumulation within cells.

Conclusion The use of wormwood and its active compounds presents a potential avenue for supporting individuals affected by COVID-19 through mechanisms such as inhibition of viral replication, modulation of immune responses, and addressing co-existing parasitic infections.

NOTE: Potential Mechanisms Linking Spike Proteins to Arterial Fat Accumulation

Inflammatory Response: The introduction of spike proteins can trigger an inflammatory response in the body. Inflammation is a known factor that can contribute to atherosclerosis, a condition characterized by the buildup of fats, cholesterol, and other substances in and on artery walls. Chronic inflammation can lead to endothelial dysfunction, which may promote plaque formation.

Endothelial Dysfunction: The endothelial cells lining blood vessels can be affected by inflammatory cytokines released in response to spike proteins. When endothelial function is compromised, it can lead to increased permeability and facilitate lipid accumulation within arterial walls.

Lipid Metabolism Alterations: Some studies suggest that viral infections or components thereof may influence lipid metabolism pathways. If similar mechanisms are activated by the spike protein from mRNA vaccines, it could theoretically alter how lipids are processed in the body, potentially leading to increased fat deposition in arteries.

Immune System Activation: The immune activation caused by vaccination may also influence metabolic processes related to fat storage and mobilization. An overactive immune response could lead to changes in how fat is deposited or utilized within the body.There have been reports linking certain COVID-19 vaccines, particularly adenoviral vector vaccines like AstraZeneca and Johnson & Johnson, to rare cases of blood clotting disorders. However, it is essential to clarify that these concerns primarily relate to specific vaccine types rather than mRNA vaccines.

The mechanism behind blood clot formation associated with some COVID-19 vaccines appears to involve an immune-mediated response leading to thrombocytopenia (low platelet counts) and thrombosis (blood clots). In particular cases involving adenoviral vector vaccines, antibodies against platelet factor 4 (PF4) may be produced, leading to abnormal clotting.

Genetic Predisposition: Individuals with certain genetic predispositions like might react differently to spike proteins or exhibit varying levels of inflammation or lipid metabolism changes post-vaccination. European and Asian ancestries have been shown to confer a higher risk of developing severe forms of COVID-19.

Research Gaps:

It is important to note that while these mechanisms are plausible based on existing knowledge about inflammation, endothelial function, and lipid metabolism, direct evidence linking mRNA vaccine-induced spike proteins specifically to fat accumulation in arteries remains limited. In conclusion, while there are theoretical pathways through which spike proteins from mRNA vaccines could contribute to fat accumulation in arteries via inflammatory responses and endothelial dysfunction!