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t1_iqvx371 wrote

>But the most surprising discovery came when the team tested the
technique in mice without cancer. Blocking NALCN also caused healthy
cells to migrate away from their original organs to other ones –
pancreatic cells, for instance, moved to the kidney and became healthy
kidney cells instead.

Wow! This breakthrough could potentially lead to stuff like regeneration of damaged tissue, or maybe even regrowing limbs and organs?

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t1_iqwd7mf wrote

I have chronic pancreatitis and currently there's no cure for this. Literally meant to die painfully and slowly with this disease. Hope this discovery save me and many other patients.

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t1_iqxebzy wrote

I hope you come out on top with some breakthrough like this ❤️

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t1_iqxtjz8 wrote

Oof that sucks. The pancreas is one of those organs that no one thinks about when it's working properly but will seriously fuck you up if something goes wrong.

I hope this does lead to some treatment for you and others.

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t1_iqybzcw wrote

Things that kill you right quick; brain, heart, pancreas, liver… in that order

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t1_ir89hzg wrote

Liposomal Vitamin C at 4000mg/day minimum. Standard Vitamin C formulations are unable to accumulate in cells at therapeutically relevant concentrations.

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t1_iqxcnjc wrote

I am confused.

The article states that "the scientists blocked the function of the NALCN protein, and found that it triggered metastasis in stomach, intestinal and pancreatic cancers."

Why would you use that mechanism if it can cause metastasis?
It seems like a huge gamble, and possibly cause early onset metastasis.

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t1_iqz1246 wrote

They were testing something unrelated with blocking NALCN (mobilization of salt in cells) and found out about the metastasis on accident.

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t1_iqzsa3s wrote

I imagine because if you can figure out how to unblock it, you can prevent metastasis? That has enormous implications in cancer treatment, suddenly a whole host of cancers become curable if they're not just constantly cropping up all over the body.

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t1_iqyjvnj wrote

Amazing amazing. If we could somehow balance ourselves at a cellular level, that would be mind blowing

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t1_iqys8hx wrote

So, wait a second. The cells move to a different organ and re-differentiate? Or does this process revert cells back to stem cells?

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t1_ir88zal wrote

Block NALCN, and inject stem cells into damaged organ. Normally, stem cells die off quickly when introduced into the body, but in this instance, they may be able to differentiate into the desired cell type, prompting regeneration of the damaged organ.

As for cancer, upregulate NALCN, and potentially cripple the ability of cancerous cells to migrate from the primary tumour.

If we're going to be interfering with NALCN for therapeutic effect, I wonder if there is an alternative way to maintain cellular sodium gradients, when it is either a suppressed, or upregulated state.

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