Kelly M. Swanson scite author profile

The mevalonate pathway has become an important target for anti-cancer therapy. Manipulation of this pathway results in alteration of malignant cell growth and survival in cell culture and animal models, with promising potential for application in human cancers. Mevalonate is synthesized from 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA). Mevalonate is further metabolized to farnesyl pyrophosphate (FPP), which is the precursor for sterols. In addition, the farnesyl moiety from FPP is utilized for post-translational modification of proteins including small GTPases, such as Ras and Ras related proteins, which play a role in malignant transformation of cells. FPP is a precursor for geranylgeranyl pyrophosphate (GGPP), which is similarly involved in post-translational modification of proteins. There has been intense interest in manipulating the pathway through HMG-CoA reductase inhibition. More recently, the focus has been on manipulating the pathway by post-translational modification of key regulatory proteins through farnesyl prenyl transferase (FPTase) or geranylgeranyl prenyl transferase (GGPTase) inhibition. This review focuses on the mevalonate pathway and the application of rational drug therapies to manipulate this pathway. Included in the review are a summary of agents demonstrating success in preclinical investigations such as; farnesyl transferase inhibitors, geranylgeranyl transferase inhibitors, dual inhibitors, statins, bisphosphonates, histone deacetylase inhibitors and other compounds. While these agents have shown preclinical success, translation to success in clinical trials has been more difficult. These clinical trials are reviewed along with evaluation of some of the potential problems with these agents in their clinical application.

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Digeranyl bisphosphonate inhibits geranylgeranyl pyrophosphate synthase

Wiemer

Tong

Swanson

et al. 2007

Biochemical and Biophysical Research Communications

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Transfusion-Related Acute Lung Injury (TRALI): Current Clinical and Pathophysiologic Considerations

Swanson

Dwyre

Krochmal

et al. 2006

Lung

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Transfusion-related acute lung injury (TRALI) is a rare transfusion reaction presenting as respiratory distress during or after transfusion of blood products. TRALI varies in severity, and mortality is not uncommon. TRALI reactions have equal gender distributions and can occur in all age groups. All blood products, except albumin, have been implicated in TRALI reactions. TRALI presents as acute respiratory compromise occurring in temporal proximity to a transfusion of a blood product. Other causes of acute lung injury should be excluded in order to definitively diagnose TRALI. Clinically and pathologically, TRALI mimics acute respiratory distress syndrome (ARDS), with neutrophil-derived inflammatory chemokines and cytokines believed to be involved in the pathogenesis of both entities. Anti-HLA and anti-neutrophil antibodies have been implicated in some cases of TRALI. Treatment for TRALI is supportive; prevention is important. It is suspected that TRALI is both underdiagnosed and underreported. One of the difficulties in the evaluation of potential TRALI reactions is, until recently, the lack of diagnostic criteria. A group of transfusion medicine experts, the American-European Consensus Conference (AECC), recently met and developed diagnostic criteria of TRALI, as well as recommendations for management of donors to prevent future TRALI reactions. In light of the AECC consensus recommendations, we report an incident of TRALI in an oncology patient as an example of the potential severity of the lung disease and the clinical and laboratory evaluation of the patient. We also review the literature on this important complication of blood transfusion that internists may encounter.

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Recurrent transfusion‐related acute lung injury after a two‐year interval

Krochmal

Dwyre

Swanson

et al. 2007

Transfusion Medicine

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Transfusion-related acute lung injury (TRALI) is a life-threatening complication of blood transfusion. The epidemiology and pathogenesis of TRALI are not well established. A Medline literature search shows only rare reports of recurrent TRALI, all occurring soon after the first episodes. We report a case of recurrent TRALI after a 2-year interval. A patient developed TRALI after transfusion of 4 units of fresh frozen plasma for gastrointestinal bleeding due to oesophageal varices in September 2002. The patient required mechanical ventilation but recovered completely. Two years later, in October 2004, the patient experienced a second episode of TRALI during liver transplantation for hepatitis C virus /alcoholic cirrhosis. Again, the patient recovered after ventilator support. Laboratory investigation of the first TRALI episode (2002) showed antibodies against class II human leukocyte antigens (HLA) in three female donors. Laboratory investigation of the second episode (2004) showed anti-DR52 (HLA class II) antibodies in one female donor matching the DR-52 HLA class II antigen in the recipient. TRALI can rarely recur. Consideration of future blood needs for patients experiencing recurrent TRALI should include preventive measures against further TRALI reactions, such as blood from male donors or blood less than 14 days old.

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Kelly M. Swanson

Anti-Cancer Therapy: Targeting the Mevalonate Pathway

Digeranyl bisphosphonate inhibits geranylgeranyl pyrophosphate synthase

Transfusion-Related Acute Lung Injury (TRALI): Current Clinical and Pathophysiologic Considerations

Recurrent transfusion‐related acute lung injury after a two‐year interval

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