Breakthrough stem cell therapy may reverse life-threatening conditions in dogs – Study Finds

SAKAI, Japan Just like humans, mans best friend deals with all sorts of chronic and degenerative conditions as they age. For dogs however, scientists have fewer ways of reversing life-threatening illnesses compared to human patients. Now, a team in Japan has successfully developed a technique which creates new stem cells from a dogs blood. Their study opens the door for new therapies which can regenerate a dogs body just like stem cells do in people.

In humans, these baby cells have the potential to grow into a variety of specialized cells, an ability called pluripotency. After scientists transplant these stem cells into a patient, they guide their differentiation into the specific kind of cells which completes their task. The new cells can then regenerate damaged tissues, reversing the effect of various diseases. While stem cell research for humans is a widely studied topic, researchers say little work is done with pets.

The new study, led by Associate Professor Shingo Hatoya from Osaka Prefecture University, focuses on induced pluripotent stem cells (iPSCs) in canine blood samples. Study authors say iPSCs are a type of stem cell which can be programmed from a developed cell. Scientists can do this by introducing specific genes into the cell. The genes code for specific proteins (transcription factors) which trigger the change from a developed cell into a pluripotent stem cell.

Another good thing about iPSCs is they multiply rapidly, providing a sustainable supply of usable stem cells for medical treatments.

We successfully established an efficient and easy generation method of canine iPSCs from peripheral blood mononuclear cells Dr. Hatoya in a university release.

The study authors call this a breakthrough in veterinary science. Hatoya hopes in the near future, it may be possible to perform regenerative medicinal treatments in dogs.

This isnt the first time scientists have experimented with iPSCs from canine blood cells. Researchers say these attempts used viral vectors to deliver the stem cell-triggering transcription factors.

In the new study, the Japanese team tested a different combination of factors to create pluripotency. Most importantly, researchers say they had to control how the reprogrammed cells multiplied in the host.

Scientists use viral vectors, which encode these transcription factors, to infect cells and convert them into iPSCs. Unfortunately, since these vectors merge with the hosts genetic material, these pluripotency factors can actually cause tumors if they are transplanted into a dog.

To avoid this, researchers created footprint-free stem cells using a special type of viral vector. This particular vector generates iPSCs without mixing with the hosts genes. It can also be automatically silenced by microRNAs in the cells. The OPU team grew these cells in a special environment which contained a small-molecule cocktail that enhances pluripotency. The results successfully produced cells which developed germ layers the basis of all organs.

Study authors say their findings provide a clear path to easy stem cell treatments for dogs. However, they add that their research may also have a ripple effect in the human medical world as well.

We believe that our method can facilitate the research involving disease modeling and regenerative therapies in the veterinary field, Dr. Hatoya says. Dogs share the same environment as humans and spontaneously develop the same diseases, particularly genetic diseases.

The team believes finding a cure for diseases in mans best friend may also open the door to curing illnesses still plaguing mankind.

The study appears in the journal Stem Cells and Development.

Go here to read the rest:
Breakthrough stem cell therapy may reverse life-threatening conditions in dogs - Study Finds

SLAS Technology Special Collection on Artificial Intelligence in Process Automation Available Now – Newswise

Newswise Oak Brook, IL The February edition of SLAS Technology is a special collection of articles focused on Artificial Intelligence in Process Automation by Guest Editor Cenk ndey, Ph.D. (Amgen, Thousand Oaks, CA, USA).

This SLAS Technology special collection targets the use of artificial intelligence (AI) techniques and technologies as applied specifically to drug discovery, automated gene editing and machine learning. As AI becomes increasingly more prevalent in research, medicine and even everyday life, laboratory automation has gone beyond hardware advancements toward new levels of precision and complexity. Beyond research, AI serves as a powerful tool for clinicians diagnosing and treating patients in a medical setting. The AI advancements presented in this issue highlight the wide spectrum of medical AI breakthroughs.

This months issue of SLAS Technology also celebrates the top 10 most-cited articles within the journals history. Over the past decade, the publications priority has been to provide a platform for researchers to share technological advancements as well as a resource to continually share the impact of technology on life sciences and biomedical research.

The February issue of SLAS Discovery includes nine articles of original research in addition to the cover article.

Articles of Original Research include:

Other articles include:

Access to Februarys SLAS Technology issue is available at http://journals.sagepub.com/toc/jlad/26/1.

For more information about SLAS and its journals, visitwww.slas.org/journals. Access a behind the scenes look at the latest issue with SLAS Technology Authors Talk Tech podcast. Tune into Februarys episode by visiting https://slastechnology.buzzsprout.com/.

*****

SLAS (Society for Laboratory Automation and Screening) is an international professional society of academic, industry and government life sciences researchers and the developers and providers of laboratory automation technology. The SLAS mission is to bring together researchers in academia, industry and government to advance life sciences discovery and technology via education, knowledge exchange and global community building.

SLAS Discovery: Advancing the Science of Drug Discovery, 2019 Impact Factor 2.195. Editor-in-Chief Robert M. Campbell, Ph.D., Twentyeight-Seven Therapeutics, Boston, MA (USA).

SLAS Technology: Translating Life Sciences Innovation, 2019 Impact Factor 2.174. Editor-in-Chief Edward Kai-Hua Chow, Ph.D., National University of Singapore (Singapore).

###

View original post here:
SLAS Technology Special Collection on Artificial Intelligence in Process Automation Available Now - Newswise

Exacis Biotherapeutics Announces Key Addition To Its Executive Leadership Team With Dirk Huebner MD Joining As Chief Medical Officer – PRNewswire

CAMBRIDGE, Mass., Jan. 29, 2021 /PRNewswire/ --Exacis Biotherapeutics, Inc., a development-stageimmuno-oncology company working to harness the immune system to cure cancer,today announcedthe addition of Dirk Huebner,MD,as its Chief Medical Officer. Exacis launched in 2020 to develop next generation mRNA-based cellular therapeutics to treat liquid and solid tumors.

Exacis CEO Gregory Fiore MD said, "Dirk is a wonderful addition and a great fit for our management team. His extensive experience in oncology drug development, including antibody related therapies will be instrumental as we build our pipeline to include high performance stealth edited NK and T cells, with and without CARs (ExaNK, ExaCAR-NK and ExaCAR-T). We look forward to Dirk's insights and medical leadership as we build the company and advance our portfolio."

Dr. Huebner joins Exacis from Mersana Therapeutics where he wasthe Chief Medical Officer,oversaw their clinical developmentand helped build thecompany'sclinical infrastructure. Dr Huebnerhas worked in oncology and immuno-oncology drug development and academiafor more than 25 yearsand brings a deep understanding of the needs in the oncology space as well as the ability to successfully deliverproducts to meet those needs.

Commenting on the new role, Dr. Huebner said, "I am thrilled to join the Exacis team and work with best-in-class technology to create innovative, next-generation engineered NK and T cell therapies that have the potential to improve outcomes and treatment experiences for patients with challenging hematologic and solid tumor malignancies."

About Exacis Biotherapeutics

Exacis is a development stageimmuno-oncologycompany focused on harnessing the human immune system to cure cancer. Exacis uses its proprietary mRNA-based technologies to engineer next generation off-the-shelf NK and T cell therapies aimed at liquid and solid tumors.Exacis was founded in 2020 with an exclusive license to a broad suite of patents covering the use ofmRNA-based cell reprogramming and gene editing technologiesfor oncology.

ExaNK, ExaCAR-NK and ExaCAR-T utilize mRNA cell reprogramming and mRNA gene editing technologies developed and owned by Factor Bioscience. Exacis has an exclusive license to the Factor Bioscience technology for engineered NK and T cell products derived from iPSCs for use in oncology and holds all global development and commercial rights for these investigational candidates.

About T and Natural Killer (NK) Cell Therapies

T and NK cells are types of human immune cells that are ableto recognize and destroy cancer cells and can be modified through genetic engineering to target specific tumors.

SOURCE Exacis Biotherapeutics, Inc.

See the original post:
Exacis Biotherapeutics Announces Key Addition To Its Executive Leadership Team With Dirk Huebner MD Joining As Chief Medical Officer - PRNewswire

Induced Pluripotent Stem Cells Market 2020 Global Share, Growth, Size, Opportunities, Trends, Regional Overview, Leading Company Analysis And Forecast…

To survive in a challenging and continuously transforming environment collecting, analyzing, and evaluating data becomes a key task to overcome obstacles and support the decision-making aspects of a business. Research documents or reports are a convenient medium to understand and analyze how a specific market is projected to perform in the coming years.

Why Choose DataIntelo?

DataIntelo, one of the worlds prominent market research firms has rolled out a new report on the Induced Pluripotent Stem Cells Market. The report is full of crucial insights on the market which will help the clients in making correct business decisions. This research will help both existing and new aspirants for Induced Pluripotent Stem Cells market to figure out and study market requirements, market size, and competition. The report includes the supply and demand scenario, the competitive market scene, and challenges for market growth, market opportunities, and the restraints faced by key players.

Request Free Exclusive Sample on Induced Pluripotent Stem Cells Market Report @ https://dataintelo.com/request-sample/?reportId=77310

The report is also integrated with the impact of the ongoing global crisis i.e. COVID-19 on the Induced Pluripotent Stem Cells market and how the pandemic is tweaking the market trends and situation. The published report is designed with the help of a vigorous and thorough research methodology. DataIntelo is also popular for its data accuracy and granular market reports. A complete picture of the competitive scenario of the Induced Pluripotent Stem Cells market is presented by this report. The report has a substantial amount of data about the recent product and technological developments in the markets. It has a wide spectrum of analysis regarding the impact of these advancements on the markets future growth, government policies, norms, and regulations that have and can affect the dynamics of the market.

The historical and forecast information provided in the report ranges between 2020 and 2027. It also includes data fluctuating according to region and country. The insights in the report are simple, easy to understand, include pictorial representations, and infographics. These insights are also suitable for real-time scenarios. Components such as market drivers, restraints, challenges, and opportunities for Induced Pluripotent Stem Cells are explained in detail. Since our research team is tracking the data for the market from 2017, therefore any additional data requirement can be easily fulfilled.

Purchase a copy of this report at: https://dataintelo.com/checkout/?reportId=77310

Some of the prominent companies that are covered in this report:

Fujifilm Holding Corporation Astellas Pharma Fate Therapeutics Bristol-Myers Squibb Company ViaCyte Celgene Corporation Aastrom Biosciences Acelity Holdings StemCells Japan Tissue Engineering Organogenesis

*Note: Additional companies can be included on request

The industry seems to be evenly competitive. To analyze any market with simplicity the market is divided into segments, such as its product type, application, technology, end-user, etc. Segmenting the market into smaller components makes it easier in understanding the dynamics of the market with more transparency. Data is depicted with the help of tables and figures that consist of a graphical representation of the numbers in the form of histograms, bar graphs, pie charts, etc. Another major component that is integrated with the report is the regional analysis to assess the global presence of the Induced Pluripotent Stem Cellsmarket.

Following is the gist of segmentation:

By Applications:

Academic Research Drug Development And Discovery Toxicity Screening Regenerative Medicine

By Types:

Hepatocytes Fibroblasts Keratinocytes Amniotic Cells Others

By Regions:

North America: U.S. and Canada

Asia Pacific: India, China, Japan, and Rest of Asia Pacific

Europe: Germany, France, Italy, the UK, and Rest of Europe

Latin America: Brazil, Cuba, Argentina, and Rest of Latin America

Middle East & Africa: South Africa, Saudi Arabia, and Rest of Middle East & Africa

You can also go for a yearly subscription to all the updates on the Induced Pluripotent Stem Cells market.

Reasons you should buy this report:

Below is the TOC of the Report:

If you have any questions on this report, please reach out to usFor any queries on this report: https://dataintelo.com/enquiry-before-buying/?reportId=77310

About DataIntelo:

DATAINTELO has set its benchmark in the market research industry by providing syndicated and customized research report to the clients. The database of the company is updated on a daily basis to prompt the clients with the latest trends and in-depth analysis of the industry. Our pool of database contains various industry verticals that include: IT & Telecom, Food Beverage, Automotive, Healthcare, Chemicals and Energy, Consumer foods, Food and beverages, and many more. Each and every report goes through the proper research methodology, validated from the professionals and analysts to ensure the eminent quality reports.

Contact Info:

Name: Alex Mathews

Address: 500 East E Street, Ontario,

CA 91764, United States.

Phone No: USA: +1 909 545 6473

Email: [emailprotected]

Website: https://dataintelo.com

More here:
Induced Pluripotent Stem Cells Market 2020 Global Share, Growth, Size, Opportunities, Trends, Regional Overview, Leading Company Analysis And Forecast...

Money on the Move: January 27 February 2 – BioSpace

The groundhog saw his shadow, meaning six more weeks of winter. But there's no freezing of funds in the biopharma world. Here's a recap of where life sciencescash has been flowing the past week.

Sana Biotechnology

Initially filing for a$150 million IPO, Seattle-based Sanaamendedto amassivegoal of$323 million,offering 15 million shares at $20 to $23 per share.Although the company is still at a preclinical stage,this IPOwould value the company at a price of nearly $4.5 billion.Prime focuses of startup company Sana Biotechnology include the development ofin vivoandex vivocell engineering platformslicensedfrom Harvard University to discover novel treatments across several therapeutic areas that currently have unmet treatment needs. Therapeutic areas of particular interest to the company include oncology, diabetes, central nervous system (CNS) disorders, cardiovascular diseases and genetic disorders. IND applications are anticipated in 2022 and 2023. Last summer Sana raised$700 million ininitial financing.

Design Therapeutics

Launched last Marchwith $45 million to create a new class of disease-modifying therapies,Design Therapeutics secured another$125 million this week in a Series B.In the short time since our launch, Design Therapeutics has made significant progress in the advancement of our novelGeneTACplatform focused on addressing the underlying causes of serious degenerative diseases, said Joo Siffert, M.D., president and chief executive officer of Design Therapeutics. This capital raise provides important resources to efficiently advance our pipeline, including our lead programs in Friedreich ataxia and myotonic dystrophy type-1. Proceeds will be used to advance theGeneTACplatform to develop a pipeline ofGeneTACmolecules with an initial focus on nucleotide repeat expansion disorders, including Friedreich ataxia. Design hopes to be in the clinic by the first half of 2022.

Nuvalent

Launching with a$50 million Series A,Nuvalentistackling the most common type of lung cancer NSCLC. The funds raised will fuelNuvalentsR&D efforts towardbuildinga portfolioof innovative small molecule kinase inhibitors for programs in NSCLC. Therapeuticagents include a potential best-in-class ROS1-selective inhibitor, NUV-520, and an ALK-selective inhibitor, NUV-655.The companys first lead program involving NUV-520 will examine the molecules efficacy in treating advanced NSCLC, particularly cases that have developed resistance to treatment, driven by a ROS1 fusion. The first Phase I/II trial investigating the potential therapy in NSCLC is expected for the second half of this year. Another program targeting NSCLC tumors driven by an ALK fusion is anticipated in 2022.

Ukko

On a mission to eliminate food allergies and sensitivities, a massive needs market, Ukko scooped up$40 million in a Series B round.Using an AI-driven protein engineering platform, the company isdevelopinga promising investigational therapy for peanut allergies.Ukko is also working on an improved gluten for people with Celiac disease and other gluten sensitivities to be able to enjoy.Data on both of these programs suggest these do not trigger allergic responses in the immune systems of patients. The new fundingwilltake Ukko to clinical trial with its peanut allergy therapeutic.Pharma-giantBayer was aleadinvestor in the round.

Cellino

Artificial intelligence is impacting the future of every industry, and the life sciences industry is no different. Using image-guided machine learning AI, Cambridge-based Cellinois guiding automated cell reprogramming, expansion and differentiation. Launchedin 2017, the company just completed a$16 million seed roundtoenable its induced pluripotent stem cell (iPSC) engineering platform, powered by artificial intelligence.Autologous iPSCs cells taken from a patient, engineered for therapeutic benefit and returned to the patient have been in clinical testing since 2014, but none have reached regulatory approval.Cellinos platform will allow it to precisely steer iPSCs to a target tissue state.

Endogena

Discovering and developing regenerative medicines from within,Endogenabrought in$8 millionin a Series A financing round last week.Focused on novel treatments for neurodegenerative diseases, the funds will help its lead program aimed at retinitis pigmentosa to establish clinical proof-of-concept.EndogenasAI-driven platform is a combination of stem cell research and small molecule drug discovery. The company also hopes to advance its age-related macular degeneration program to an IND.

AffyXell

Established last January to develop novel mesenchymal stem cell therapies,AffyXellclosed aSeries A for $7.3 millionto develop its pipeline of next-gen cell and gene therapies.The biotech combines Avacta TherapeuticssAffimerplatform withDaewoongPharmaceuticals MSC platform to genetically modify stem cells tosecreteAffimerproteins that enhance the therapeutic effectsof the MSC. Funds from the series will be used for further development oftherapies that will suppress immune response and restore balance for inflammatory and autoimmune diseases.

Most Read Today

See the rest here:
Money on the Move: January 27 February 2 - BioSpace