The modified vaccination technique designed to prevent and cure acute and chronic disorders.

In spite of enormous efforts there have been no solutions to date for preventing/terminating certain acute and chronic disorders of humans by vaccination or drugs. Yet it is well understood that if the target antigen (ag) could be presented appropriately to the cells of the immune system then solutions could be found. Recently, the Barabas research group has introduced and described the third vaccination method - called modified vaccination technique (MVT) - which has the ability to provide a corrective immune response in experimental animals with an autoimmune kidney disease. Injections of immune complexes - made up of the target ag and specific non-pathogenic IgM antibodies directed against the target ag - achieved downregulation of pathogenic immune responses and tolerance to self was regained. Utilizing the immune system's natural abilities to respond to corrective information, the MVT technique was able to prevent an autoimmune kidney disease from occurring (prophylactic effect) in experimental animals, and when present, terminating it (therapeutic effect) specifically and without measurable side effects.It is predicted that the application of the MVT will have the potential in the future to revolutionize the preventative and therapeutic options for dealing with chronic disorders in humans (such as autoimmune disease, cancer and acute chronic infections) and achieve cures.

Tolerance, loss of tolerance and regaining tolerance to self by immune-mediated events.

Autoimmunity has both beneficial and harmful aspects. Beneficial aspects include: (1) removal of released intracytoplasmic antigens (ags) (cells at the end of their life span or damaged by outside agents) by specific nonpathogenic IgM autoantibodies and mononuclear cells and (2) recognition and elimination of cancerous cells. In contrast, harmful aspects include: (1) mounting a pathogenic autoimmune response against a tissue-derived ag, a 'modified self,' resulting in autoimmune disease and (2) inability to recognize and eliminate a cancerous clone. The immune system continuously faces internal and external influences; however, even when it is compromised or overwhelmed, it will still endeavor to regain and maintain tolerance to self. To promote this, we developed a 'modified vaccination technique' (MVT) (described as the third vaccination method after active and passive immunizations). It has two components: purified exogenous/endogenous ag (i.e., target ag) and a high-titer-specific antibody (ab) against the target ag made into an immune complex (IC) with predetermined immune-inducing components. The MVT works by ab information transfer (production of same class of immunoglobulin with the same specificity against the target ag that is present in the vaccine), thereby re-establishing tolerance to self (caused by exogenous/endogenous ags) following repeated administration of appropriate ICs. This vaccination technique can be used both prophylactically and therapeutically, and it mimics the immune system's natural abilities to respond to corrective information specifically, rapidly, safely and with minimal side effects and makes this approach a novel solution for many disorders that are difficult or impossible to cure or manage.

Regaining tolerance to a self-antigen by the modified vaccination technique.

Autoimmune diseases are initiated and maintained by complex immunopathological processes in environmental and genetic factor predisposed patients. In certain autoimmune diseases, the etiologies and pathogenesis of the conditions are quite well understood; yet in others, controversy surrounds as to why and how auto-injurious processes start. Clinical and laboratory examinations reasonably well define the state of progression/remission of an autoimmune disease and allow treatment according to observed findings. However, none of the presently employed treatment options are specific. In fact, they are all nonspecific in their actions and have undesirable side effects. Over the years, experiments carried out in animals have shed light on the complex immunopathological processes which contribute to disease development and progression. At least one experimental autoimmune kidney disease-which we shall describe-helps to understand how pathogenic autoimmune responses can be terminated specifically, without side effects. Since the new vaccination method-that we call modified vaccination technique-was successfully implemented in an experimental autoimmune disease model called slowly progressive Heymann nephritis for the termination of pathogenic immune responses by a target antigen-specific treatment modality, we shall highlight its use in providing insight to physicians and autoimmunologists for its future implementation in human autoimmune diseases.

Immunopathological events initiated and maintained by pathogenic IgG autoantibodies in an experimental autoimmune kidney disease.

The experimental models of Heymann nephritis (HN) and slowly progressive Heymann nephritis (SPHN) give us rare opportunities to investigate the etiologies and pathogenesis of two immunopathological processes in rats leading to: (1) autoimmune disease, where the autoimmune disease HN and SPHN is initiated and maintained by cross-reactive pathogenic IgG autoantibodies (aabs) directed against the renal proximal convoluted tubules' brush border (BB) cells - where the nephritogenic antigen (ag) is produced and localized - damaging and releasing BB associated nephritogenic ag into the circulation which in turn contributes to continuation of the autoimmune disease; and (2) immune complex glomerulonephritis, where the glomerular injury is initiated, proceeding into a chronic progressive disease by depositing immune complexes (ICs) - made up of a glomerular epithelial cell produced endogenous nephritogenic ag and the developing pathogenic IgG aab directed against the nephritogenic ag, and complement components - on the epithelial side of the glomerular basement membrane. We also observed how the normally functioning immune system is able to avert autoimmune disease developments by circulating specific non-pathogenic IgM aabs clearing the system of intracytoplasmic ags released from cells at the end of their life spans or following damage by toxic agents. We also described how an autoimmune disease SPHN can be prevented and when present terminated by the implementation of a new vaccination technique we have developed and call modified vaccination technique. By increasing the specific IgM aab production against the native nephritogenic ag - by injecting ICs made up of: [nephritogenic ag X homologous anti-nephritogenic ag IgM ab] in slight ag excess into SPHN rats - pathogenic IgG aab producing native and modified nephritogenic ags were removed from the circulation and termination of the autoimmune disease causing immune events was achieved. Even though HN and SPHN are not well-known disease models, their studies are important because the etiologies and pathogenesis of two conditions - that can also occur in humans, namely autoimmune diseases and membranous glomerulonephritis - can be simultaneously investigated.

The role of autoimmunologists in investigating and treating autoimmune disorders.

The role of an autoimmunologist is to investigate and cultivate knowledge of normal and abnormal immune responses against self, which includes developing practical know-how to manipulate autoimmune activity and direct positive autoimmune outcomes. Where a subject develops an abnormal immune response directed against normal self, resulting in an autoimmune disease, the specialist should be able to diagnose the problem and institute an appropriate treatment. Obversely, where a subject lacks an immune response against cells bearing antigens that are abnormal or not quite self, i.e., cancer cells, the specialist should ideally be able to institute a specific cancer cell killing regimen. Essentially there are two beneficial and two harmful aspects of autoimmunity autoimmunologists should be familiar with. The beneficial aspects are the immune responses that assist in the clearance of cellular breakdown products and the elimination of cancer cells. The harmful aspects consist of immune responses, or lack thereof, that manifest in autoimmune disorders, i.e., autoimmune diseases and cancer. Recent medical discoveries, especially the modified vaccination technique developed by the Barabas research group, show great promise in both preventing and curing autoimmune disorders by utilizing the immune system's natural abilities to re-establish normal health.

Correcting autoimmune anomalies in autoimmune disorders by immunological means, employing the modified vaccination technique.

Our research group has developed a new vaccination technique in experimental animals that has the potential of correcting autoimmune anomalies in humans such as autoimmune disorders, cancer, and chronic infections, both prophylactically and therapeutically. The vaccination method is called Modified Vaccination Technique (MVT). The MVT necessitates the introduction of a purified target antigen (ag) and a specific antibody (ab) against the target ag in the form of immune complex (IC) to evoke the desired immune response outcome by ab information transfer in the injected recipient. The injected IC produces the same class of ab in the host, with the same specificity against the target ag, as resides in the inoculum. The MVT promises to provide a means of upregulating beneficial immune events and downregulating undesirable immune responses in individuals, thereby re-establishing normalcy/tolerance to self.

Preventing and treating chronic disorders using the modified vaccination technique.

It is anticipated that the ultimate solution for the prevention and termination of autoimmune disorders will be based on somehow manipulating the cells of the immune system to attain antigen (ag) specific downregulation and termination. In the last few years we have developed a new vaccination technique that we call "modified vaccination technique" (MVT). It has with equal effectiveness both prevented and terminated autoimmune disease causing events in an experimental autoimmune kidney disease model. We expect that our technique will be similarly applicable to the specific treatment and cure of numerous other chronic disorders presently treated only by drugs. The vaccine is composed of two components, an ag and a specific antibody against it. When these are combined at slight ag excess they constitute a vaccine which is capable of treating chronic ailments by redirecting immune response outcomes in the vaccinated host. Both components, like drugs, will have to be produced ex vivo in order to maintain uniformity, safety, efficacy, and specificity.