Viewpoints:

Dispatches from the Frontlines of Research - edited by John W. Nelson

Richard M. van Rijn and Jennifer L. Whistler

The Only Way Is Up: Preventing Opioid Tolerance by Promoting Cell Surface Expression of MOR-DOR Heterodimers?
Mol. Interv. 2008 8: 277-280. [Summary] [Full Text] [PDF]  

Mark A. Simmons

Let’s Go Rafting: Ligand Functional Selectivity May Depend on Membrane Structure
Mol. Interv. 2008 8: 281-283. [Summary] [Full Text] [PDF]  

R E V I E W S:

Richard Nass, Kalpana M. Merchant, and Timothy Ryan

Caenorhabditis elegans in Parkinson’s Disease Drug Discovery: Addressing an Unmet Medical Need
Mol. Interv. 2008 8: 284-293. [Summary] [Full Text] [PDF] [Erratum]   

The relevance of dopaminergic function to Parkinson’s disease has been exploited for forty years, and pharmacological supplementation of brain dopamine levels continues to be the primary goal of treatment. Novel pharmacotherapies are desperately needed to attenuate disease progression, but a primary problem of research has been the daunting challenge of monitoring the degeneration of dopamine neurons in a living organism. Enter C. elegans, a small nematode, complete with eight dopamine neurons, that is amenable to genetic manipulation and laboratory observation. Through transgenic addition of the green fluorescent protein to the organism’s dopamine neurons, a model system has been developed in which dopamine neurodegeneration, in vivo, can be assayed in a microtiter plate format. The induction of dopamine neuron degeneration in these organisms results in the loss of green fluorescence—and the effect of gene products and chemical agents upon such degeneration can be assessed on a high-throughput basis. The power of the model is just beginning to be tapped, and the accuracy to which the model recapitulates the human disease is surprising. Today, novel targets for therapeutic intervention—and potentially, novel drugs—promise to extend treatment beyond the brute aim of supplying degenerating neurons with dopamine.

Irina Zabbarova and Anthony Kanai

Targeted Delivery of Radioprotective Agents to Mitochondria
Mol. Interv. 2008 8: 294-302. [Summary] [Full Text] [PDF]  

The therapeutic and technological use of ionizing radiation is one of the hallmarks of twentieth-century medical progress. Additional applications of nuclear energy—and all the implications of the atomic age—will continue to mark medicine, society, and government at the global level for the foreseeable future. Increasingly, pharmacological research is entering into equations that are formulated to assess the risks and benefits of human exposure to radiation in diverse contexts: patient exposure to radio-therapeutic procedures; occupational hazards of medical, technological, and custodial personnel; and terrorist exploitation of radioactive materials. Research biologists customarily think of ionizing radiation in terms of its physical and mutational insults to DNA. The generation of aqueous radicals as a product of mitochondrial metabolic reactions, however, may be fundamental to cellular demise in tumors and healthy tissues alike. Intriguingly, pharmacological manipulation and chemical syntheses promise the possibility of drug development that may allow for the exacerbation of tumor responses to radiation (i.e., "radiosensitization") while sustaining the survivability of healthy tissues (i.e., "radioprotection").

D E P A R T M E N T S:

Reflections:

Science in the cultural context

Stanley Scheindlin

Something Old... Something Blue
Mol. Interv. 2008 8: 268-273. [Full Text] [PDF]  

Nascent Transcripts:

Emerging concepts from the recent literature
Mol. Interv. 2008 8: 276. [Full Text] [PDF]  

Significant Deciles:

Dayle Houston

2001–2008
Mol. Interv. 2008 8: 274-275. [Full Text] [PDF]  

Beyond the Bench:

Representations of pharmacology and science in the media

John Nelson

Holiday Round-Up 2008
Mol. Interv. 2008 8: 303-304. [Full Text] [PDF]  

Net Results:

Sites of interest on the World Wide Web

David Roman

Sites of interest on the World Wide Web
Mol. Interv. 2008 8: 305-307. [Full Text] [PDF]  

Outliers:

Cartoon

Outliers
Mol. Interv. 2008 8: 312. [Full Text] [PDF]  

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