Showing posts with label cell death. Show all posts
Showing posts with label cell death. Show all posts

5.22.2014

Flubbed The Obvious

I had an obnoxiously long blog post full of crazy information and charts, and things about glutamine - I had been working on it all day - then my mind was blown with a shattering epiphany, things started piecing together. If low grade tumors feed mostly off of glutamine/glutamate, then what's the story with glucose? So I talked it out with Dan and as we both started searching online (boy do we have some sexy phone dates) we finally started asking the right questions. What is in my special F-DOPA PET scan that I fly down to UCLA for? I felt like a moron, how had I never wondered that? If they weren't measuring glucose, which they clearly stated, what were they measuring? We typed it in and bam, if I'm understanding this correctly, the F-DOPA PET is essentially measuring an amino acid on the glutamine-glutamate pathway (click for a study).

How did I not ask that? How did I not figure it out? I remember being completely distracted by the fact that they were using radioactive particles. I guess that's where my mind went. It never occurred to me to wonder what was being mixed with those particles. I remember talking to my doctors after the surgery, in the neruosurgery ICU, about the idea of me going on the restricted keto to slow tumor growth. They thought it was great. How did it not come up that glutamine is the food source for my type of tumor, not glucose? Had they not pieced that together either? It seems as if they would have, yet, clearly they didn't or I think they would have said something. It's the whole point of this latest fancy scan, this exclusive machine that's only available at a few centers across the country, to measure the glutamine-ish stuff going on in my low grade tumor. How are the fragments of knowledge scattered so far apart throughout the tumor world that it's this hard for tumor patients to piece it together? What's going on? Oh, I feel sick. We really do have to figure stuff out on our own. Thank God I give a fart. At least now I can adjust. If I would have stayed on the Paleo diet it would have sped up tumor growth. The way that I have been eating has been full speed down the pro-amino acid freeway. No stoplights. And according to what I'm reading, the more glutamine in your system, the faster your tumor shifts into using glucose as fuel. It's a catalyst. Hello faster growing tumor. Hello death. I am literally glaring at an imagined Grim Reaper right now. I just told him I'm not ready, and if he comes near me he's going to regret it. Scythe or no scythe, this girl is scrappy.

Here's a scary, but necessary read about glutamine (for the record, I have shifted from Coldplay to straight up Enya's greatist hits - in dire need of some uplifting):

 

Glutamine promotes hallmarks of malignancy (click for full article)


Deregulated energetics. One hallmark of cancer cells is aberrant bioenergetics (26). Glutamine’s involvement in the pathways outlined above contributes to a phenotype conducive to energy formation, survival, and growth. In addition to its role in mitochondrial metabolism, glutamine also suppresses expression of thioredoxin-interacting protein, a negative regulator of glucose uptake (27). Thus, glutamine contributes to both of the energy-forming pathways in cancer cells: oxidative phosphorylation and glycolysis. Glutamine also modulates hallmarks not traditionally thought to be metabolic, as outlined below. These interactions highlight the complex interplay between glutamine metabolism and many aspects of cell biology.

Sustaining proliferative signaling. Pathological cancer cell growth relies on maintenance of proliferative signaling pathways with increased autonomy relative to non-malignant cells. Several lines of evidence argue that glutamine reinforces activity of these pathways. In some cancer cells, excess glutamine is exported in exchange for leucine and other essential amino acids. This exchange facilitates activation of the serine/threonine kinase mTOR, a major positive regulator of cell growth (28). In addition, glutamine-derived nitrogen is a component of amino sugars, known as hexosamines, that are used to glycosylate growth factor receptors and promote their localization to the cell surface. Disruption of hexosamine synthesis reduces the ability to initiate signaling pathways downstream of growth factors (29).

Enabling replicative immortality. Some aspects of glutamine metabolism oppose senescence and promote replicative immortality in cultured cells. In IMR90 lung fibroblasts, silencing either of two NADPH-generating isoforms of malic enzyme (ME1, ME2) rapidly induced senescence, while malic enzyme overexpression suppressed senescence (30). Both malic enzyme isoforms are repressed at the transcriptional level by p53 and contribute to enhanced levels of glutamine consumption and NADPH production in p53-deficient cells. The ability of p53-replete cells to resist senescence required the expression of ME1 and ME2, and silencing either enzyme reduced the growth of TP53+/+ and, to a lesser degree, TP53–/– tumors (30). These observations position malic enzymes as potential therapeutic targets.

Resisting cell death. Although many cancer cells require glutamine for survival, cells with enhanced expression of Myc oncoproteins are particularly sensitive to glutamine deprivation (8, 12, 16). In these cells, glutamine deprivation induces depletion of TCA cycle intermediates, depression of ATP levels, delayed growth, diminished glutathione pools, and apoptosis. Myc drives glutamine uptake and catabolism by activating the expression of genes involved in glutamine metabolism, including GLS and SLC1A5, which encodes the Na+-dependent amino acid transporter ASCT2 (12, 16). Silencing GLS mimicked some of the effects of glutamine deprivation, including growth suppression in Myc-expressing cells and tumors (10, 12). MYCN amplification occurs in 20%–25% of neuroblastomas and is correlated with poor outcome (31). In cells with high N-Myc levels, glutamine deprivation triggered an ATF4-dependent induction of apoptosis that could be prevented by restoring downstream metabolites oxaloacetate and α-ketoglutarate (15). In this model, pharmacological activation of ATF4, inhibition of glutamine metabolic enzymes, or combinations of these treatments mimicked the effects of glutamine deprivation in cells and suppressed growth of MYCN-amplified subcutaneous and transgenic tumors in mice.

The PKC isoform PKC-ζ also regulates glutamine metabolism. Loss of PKC-ζ enhances glutamine utilization and enables cells to survive glucose deprivation (32). This effect requires flux of carbon and nitrogen from glutamine into serine. PKC-ζ reduces the expression of phosphoglycerate dehydrogenase, an enzyme required for glutamine-dependent serine biosynthesis, and also phosphorylates and inactivates this enzyme. Thus, PKC-ζ loss, which promotes intestinal
tumorigenesis in mice, enables cells to alter glutamine metabolism in response to nutrient stress.

Invasion and metastasis. Loss of the epithelial cell-cell adhesion molecule E-cadherin is a component of the epithelial-mesenchymal transition, and is sufficient to induce migration, invasion, and tumor progression (33, 34). Addiction to glutamine may oppose this process because glutamine favors stabilization of tight junctions in some cells (35). Furthermore, the selection of breast cancer cells with the ability to grow without glutamine yielded highly adaptable subpopulations with enhanced mesenchymal marker expression and improved capacity for anchorage-independent growth, therapeutic resistance, and metastasis in vivo (36). It is unknown whether this result reflects a primary role for glutamine in suppressing these markers of aggressiveness in breast cancer, or whether prolonged glutamine deprivation selects for cells with enhanced fitness across a number of phenotypes.

I am mortified and kicking myself that this fell through my fingers. There is en masse of information out there about what to do, what to eat, how to survive cancer, and the hard part is that much of it contradicts. You never know which boat to jump on, but one thing is for certain you'll never survive long if you are stuck treading water. But how did I not follow the tracks? The obviousness of the F-DOPA; the uptake of an unknown substance that was allowing my tumor to glow on this special scan. How did I not think to ask what caused the illumination? I feel like a fool. It saddens me that I've spent a year and a half headed in the wrong direction, eating almost exactly what I shouldn't have. The nauseating irony. All this falls right before my MRI. I have spent the last four months eating glutamine rich foods, just nurturing old Hermie, pampering him. I've already called my doctor to get the ball rolling on adding sodium phenylbytrate (a plasma glutamine lowering drug) at my June 25th appointment - gotta sign some legal documents since it's off label. The crazy thing is that my team of nutritionists who specialize specifically in brain cancer patients were emphatic about me having protein with every meal, and snack, to keep blood glucose stable. The peanut butter was pushed to join in with the apple. But now I know, from checking the levels, peanut butter has a crazy high volume of glutamine. It looks like I would have been better off with just my original apple. How crazy is that!? It's so confusing.

I gotta go decompress. Time restart Enya's greatest hits or something. And maybe munch on one of those juicily tart apples.

Cool thing of the day: Earlier I got an email from Julene, a very sweet blog reader. We had never met, but she offered to drop off a care package to help me survive until Dan arrives (saving me from resorting to my mom's granola bars - definitely not on the new diet).


It was just what I needed. I met a new friend, I stole a few much needed hugs from her, and little did I know that vegetables were going to be paramount in my new diet. And apples have one of the lowest concentrations of glutamine in foods. Why wasn't I listening to my gut!?!? You guys know I love apples. Ugh. FOOL.
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