Monthly Archives: January 2018

IICB uncovers molecular mechanism of stress-induced gastric ulcer

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Damage caused to the stomach by mental stress can be reduced by targeting the mitochondria present in the stomach, says Uday Bandyopadhyay (centre).

The link between mitochondria in the stomach and the brain was found using rats

Researchers at Kolkata’s CSIR-Indian Institute of Chemical Biology (CSIR-IICB) have for the first time identified the molecular mechanism by which acute mental stress affects the stomach causing gastric ulcer or stress-related mucosal disease. Using a rat model subjected to cold-restrained stress, the research team led by Uday Bandyopadhyay from the Division of Infectious Diseases and Immunology at IICB has used drugs that can act specifically on mitochondria present in the stomach to prevent gastric ulcer caused by stress.

When subjected to stress, the mitochondrial respiratory capacity was disrupted, ATP production was reduced and oxidative stress increased. Stress also causes morphological changes to the mitochondria such as increased fragmentation. The results of the study were published in the journal Free Radical Biology and Medicine.

“Due to oxidative stress and fragmentation, the mitochondria in the gastric mucosal lining cannot behave in a normal fashion and ATP production gets further compromised. In the absence of ATP production, cells cannot proliferate and the gastric lining gets thinner due to mucosal cell death. All these cause stress-induced gastric ulcer,” explains Dr. Bandyopadhyay. “This is the first time we could find a link between the mind and mitochondria in the stomach. It is very exciting and fascinating.”

Second brain

The stomach is one of the organs most severely affected by stress and this is due to the link between the stomach and the brain. Moreover, the stomach is also known as the body’s second brain with a specialised neural network, repository of neurotransmitters and different kinds of nerve cells innervating the organ, though fewer in number.

Plenty of corticosterone was released into the blood when the animals were subjected to stress. Once corticosterone gets inside mitochondria it reduces ATP production and respiration capacity. By using a drug that prevents corticosterone from binding to the receptor found inside the cell, the researchers were able to significantly prevent stomach injury in the animals.

Interestingly, some common psychoactive drugs used in the study helped in preventing the pathological manifestations — gastric ulcer. “So we can say that it is indeed the acute mental stress which is causing gastric complications,” says Rudranil De from IICB and first author of the paper.

Role of mitochondria

“We delved deeper to find out the involvement of mitochondria in stress-induced gastric damage,” says De. A compound that scavenges harmful free radicals released from the malfunctioning mitochondria and another compound that inhibits mitochondrial fragmentation significantly prevented the injury and intra-gastric bleeding; although the drugs don’t reportedly act on the brain.

“Although stress is present, we could still prevent the damage caused to the stomach by targeting the mitochondria,” says De. “The use of these two compounds acting directly on the mitochondria confirmed that acute mental stress damages the mitochondria of the stomach ultimately leading to tissue injury and haemorrhage.”

The use of tranquilisers and barbiturates, often prescribed to patients suffering from mental stress and disorders, are associated with inherent problems including withdrawal effects and long-term side effects. “Our study proposes an alternative line of therapeutic strategy which relies on salvaging mitochondrial damage, thereby providing significant protection from stress. This will help avoid the use of existing psychoactive drugs while keeping the subjects alert,” says Somnath Mazumder from IICB, one of the authors.

If further research and human trials confirm the results seen in animal studies, it would lead to a new generation of anti-stress medications with minimal side effects which would aim at targeting the mitochondrial pathology to take care of a bigger psychosomatic health complication.

source: http://www.thehindu.com / The Hindu / Home> Sci-Tech / by R. Prasad / January 06th, 2018

Jhargram-born scientist discovers low cost material to build anti-landmine vehicle

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Kolkata :

Aerospace Engineering researcher Professor Santanu Bhowmick, who hails from Jhargram district of West Bengal, has discovered a unique raw material to manufacture light weight anti landmine-vehicles.

The anti-landmine vehicles used by the defence organisations in India usually weigh 10-15 tonnes. Whereas vehicles manufactured using raw material discovered by Profesor Bhowmick will weigh only 5 tonnes, resulting in faster spped and greater mobility, especially in hilly terrains. The new material is also capable of withstanding heat upto 2400 degrees celcius. Usually, heat generated during a landmine blast measures upto 2000 degrees celcius.

Professor Bhowmick has already discovered a light weight bulletproof jacket which has been approved by the empowered committee of the Ministry of Defence. The jacket is made from indigenous ultra modern lightweight thermoplastic technology. It has been included in the Prime Minister’s ‘Make in India’ project.

Anti-landmine vehicles used in India are made of steel which tends to melt by the heat generated by landmine blasts, resulting in the death of its occupants -namely security personnel and jawans.

According to Professor Bhowmick, “Primarily the new vehicle will be provided with a heat withstanding ceramic and steel plate fitted to its base. The other portions of the vehicle will be made of steel. Later the entire vehicle can be made entirely of this material which will make it lighter. The material remains unchnged even at the highest temperature limit of 2400 degrees celcius.”

The vehicle base will be made of three layers of heat resistant ceramic plates of 60mm thickness.

Professor Bhowmick claims that the new anti-landmine vehicle will be made by the Tata group at their Jamshedpur workshop. On January 4, a meeting was held between him and the representatives of Tata group. According to Bhowmick, “Tata will supply high quality steel. The vehicle will be entirely made by Indian technology.”

The newly discovered material’s patent has been secured by Bhowmick. The new series of vehicles will be ready by 2020, confirms the scientist.

On Monday, the professor delivered a presentation about the newly discovered technology at the Army Technology Seminar 2018 using slide shows to illustrate his findings. According to him, “In the future this raw material may be used in building army bunkers, tanks, missiles and space research centres too.”

Bhowmick has been assisted in the research by three other scientists – Govindraju M, G Ajesh and V Shivakumar.

Monday’s presentation was attended by the Indian Army chief Gen. Bipin Rawat and many top ranking Army officers. DRDO director S Christopher was also present at the show together with scientists from the Chennai and Gandhinagar IITs.

Professor Bhowmick’s discovery is considered an important progress towards Prime Minister Narendra Modi’s Make In India project especially in the Defence sector.

source: http://www.telegraphindia.com / The Telegraph, Calcutta,India / Home> News> City News> Kolkata News / by El Samay / January 09th, 2018