Tumor Cell–Derived IL1β Promotes Desmoplasia and Immune Suppression in Pancreatic Cancer

Recently, in a study published in Cancer Research, scientists from New York University and other institutions have found that a key immune signal may play a previously unknown role in turning off the immune system to attack pancreatic cancer. The researchers found that the immune signaling protein interleukin 1β (IL-1β) can be made and released by pancreatic tumor cells, while it reduces the body’s anti-cancer immune response, thereby promoting the growth of pancreatic ductal adenocarcinoma (PDA), a type of cancer that is usually fatal within two years.

The researchers say blocking IL-1 Beta activity in mice with antibodies may reduce PDA tumor growth by 32%, while other experiments can combine anti-IL-1β antibodies (which can lock and neutralize their targets) with antibody therapies that have been approved to turn off the PD1 protein checkpoint. To protect normal cells from immune attack, the immune system uses checkpoints on immune cells to turn off when they receive normal signals; cancer cells intercept checkpoints to turn off the function of the immune system, triggering the immune knowledge of CD8 + T cells, which in turn kills cancer cells, a therapy called checkpoint inhibitors can effectively neutralize this effect.

Although effective against a variety of cancers, checkpoint inhibitors are helpless for the treatment of PDA. In some experiments, the tumor response rate to therapy is only about 3%, and poor CD8 + T cell infiltration and immunosuppression are the main reasons for the limitations. In the current study, the researchers found that adding anti-IL-1β antibody to anti-PD-1 antibody therapy doubled T cell infiltration into PDA and increased the anti-tumor activity of PD-1 blockers by 40%.

Dr. Dafna Bar-Sagi, a researcher, said that by engineering mice to lack the IL-1β gene, we found for the first time that pancreatic cancer cells can produce IL-1β, which is essential for the continued growth of PDA tumors, and blocking IL-1β using antibody therapy may provide a novel strategy to make pancreatic tumors on the host immune system, thus potentially increasing the therapeutic potential of checkpoint inhibitors.

The findings of this study are consistent with previous research work by other researchers, which describe that the body’s microbiome changes when PDA is present, and that the microbiome is a key factor in cancer growth, an area that traditionally allocates IL-1β production to immune cells, but this study found that pancreatic tumor cells can also respond to proteins released by specific bacteria. The researchers say bacterial products can activate a protein on the cell surface called toll-like receptors, which can turn on the chain reaction needed for IL-1β production in cancer cells.

In addition, the researchers found that high levels of IL-1β promoted increased production of high-density proteins such as collagen in nearby pancreatic stellate cells, an overgrowth of fibrous tissue that often occurs near pancreatic tumors and is not associated with treatment resistance. Active pancreatic stellate cells are able to induce the production of signaling proteins, which can attract macrophages into tumors and reprogram them to become M2 macrophages that can effectively inhibit immune responses; now researchers have confirmed that high levels of IL-1β and M2 macrophages and fibroblast-driven connective tissue formation may reduce the ability of CD8 + T cells that kill cancer cells to enter tumors.

Finally, researcher Shipra Das said, this study provides strong evidence that blocking IL-1β activity may promote better penetration of T cells into tumors and kill cancer cells, which may hopefully overcome the dilemmas and limitations of current immunotherapy in the treatment of pancreatic cancer.

The Complement System in Systemic Lupus Erythematosus: Overview and Outlook

The Complement system is a participant in many diseases such as paroxysmal nocturnal hemoglobinuria (PNH), hemolytic uremic syndrome (HUS), hereditary angioedema (HAE), etc. Among these rheumatic diseases, systemic lupus erythematosus (SLE) is proved to have the closest relationship with the complement system.

In 1896, Jules Bordet discovered the complement system, and related research earned him the Nobel Prize in Physiology in 1919. At that time, it happened that World War I caused the Nobel Prize to cease for four consecutive years. Jules Bordet became the first recipient of the Physiology Award after the re-award.

After this, complement-related research has experienced many developments and even subversions. Compared to Jules Bordet’s study back then, today’s understanding of complement system is beyond recognition. This article will discuss the relationship between complement and SLE.

Defects in the Complement System Lead to SLE

Congenital defects in the complement system make people more vulnerable to bacterial viruses. This is a major category of congenital immunodeficiency. Interestingly, this not only leads to a decline in resistance to pathogens, but also brings autoimmune diseases.

About 93% of C1q-deficient people will suffer from SLE. Similarly, 75% of those with C4 deficiency and over 30% of those with C2 defects also lead to SLE. Most of the C1r and C1s defecting will also result in SLE. However, due to their low prevalence, it is not appropriate to accurately determine the strength of their association. No stronger innate factors related to SLE have been found. Fortunately, the incidence of such birth defects is low.

Secondary Complement Deficiency and SLE

Bacterial infections, SLE, etc. will cause the level of complement to drop. SLE brings a lot of immune complexes, which combine with complement to cause damage to the body. This is particularly evident in lupus nephritis.

Except that the combination of immune complex and complement leads to the decrease of complement, there are also antibodies against complement. The most widely used is anti-C1q antibody. About 30% of patients with SLE have anti-C1q antibodies, and it is 68% of patients with lupus nephritis. Therefore, a positive anti-C1q antibody indicates a high possibility of lupus nephritis.

Complement-related Drugs and SLE Treatment

The complement system plays an important role in the pathogenesis of many diseases. The pharmaceutical industry has also developed many drugs in a targeted manner.

(1) Eculizumab

Eculizumab is a humanized monoclonal antibody. The antibody binds to complement component 5 and prevents it from cleaving into C5a and C5b, and C5b is necessary to form a membrane attack complex (MAC), which is an important link for complement to participate in body damage, so eculizumab can be used to treat PNH and HUS. However, it is a pity that the clinical practical significance has not been seen in the clinical drug experiments for the treatment of SLE.

(2) Avacopan

The latest major breakthrough in the rheumatology research is Avacopan, a small molecule compound that targets the complement C5a receptor.

Recent clinical randomized double-blind controlled trials have confirmed that Avacopan can successfully replace hormones in combination with other drugs. The biggest problem of this experiment is that the number of cases participating in the experiment is not enough, and the observation time is not long enough. Can Avacopan replace hormones during SLE treatment? There is no reliable clinical controlled trial to verify.

Clinical experience tells us that compared with SLE, ANCA-associated vasculitis tends to rely more on hormones. Since ANCA-associated vasculitis can get out of hormones during treatment, it is possible to look forward to hormone replacement during SLE treatment. The complement therapeutics might the hope of the hormonal-free era of lupus treatment.

Enhance the Value of Your Money: Invest in the Small-Cap Funds

Don’t you know that you can increase the value of your money manifold? If you already know about it, then why you are left out of the amazing world of mutual fund investments! And if you don’t have any idea about what the starting line is all about, then read below to understand the concepts of small-cap funds so that you too can reap multiple benefits from them.

What Are Small-Cap Funds?

The mutual fund schemes which invest in the stocks of small companies or basically start-ups are termed as small-cap funds. The small-cap companies are those who have a market capitalisation ranging from Rs. 500 crore to Rs. 1000 crore. There are several unique features in this category which make them the most opted one among the others. They are also known for generating high capital appreciation in the long term. Here are some of the amazing facts about the small-cap stocks which you will love to know.

Small-Cap Stocks: The Facts

Temporary Price Dis-connectivity : Mostly the small-cap schemes are known for their highly rewarding nature, but there is a contradictory fact which reveals the other face. Basically, in the initial years, the small companies keep competing for their survival in the industry. But, at that time least people bother to invest in their stocks as they do not see any growth opportunity in them. When one or the other such small company start chasing the growth, it comes under the notice of the investors. It attracts the herd to invest in these stocks, and in this way, with time it turns into a bigger entity resulting in the increase in value of the assets. The investors who stay invested in the small caps since their inception earns the utmost benefits. However, they face temporary price dis-connectivity in the initial years, they may also get enriched with extreme capital growth in the long run.
Thinly Traded Market : The small companies experience a phase in their initial stage where least people are aware of them. However, the shrewd investors know the benefits of investing in such stocks and rest remains unaware. That is why, initially, the traffic of the flocks remains less in the small cap mutual funds, and they provide a thinly traded market to the potential investors. Over time, when the value of these stocks grow, more people become aware of them and start deploying their money in them. The increasing demand for investments in these stocks kicks up their value, thus helping them achieve new heights of growth.
Hidden Gems : One of the amazing facts about the small companies is that they can be proved to be a hidden gem for you. Yes, you heard it right. They can turn your small capital investment into an impressive corpus. It is also because of the same reason that the small entities remain undiscovered from the eyes of the herd. And their growth keeps rolling over time and burst out attaining new heights in the long run. The wise investors always keep an eye on the whereabouts of the targeted small-cap stocks to reap benefits from their growth.
So, what are you going to do now? The best is to know about all the small-cap funds so that you can recognise one as per your investment requirements. Do it before you miss it! And fetch the big returns from the small-cap funds in the long-term period.