Showing posts with label Immunotherapy. Show all posts
Showing posts with label Immunotherapy. Show all posts

Thursday, January 28, 2016

Industry Expert Paul Parren, Ph.D. Provides Exclusive Insights on ThinkTank


ThinkTank, is a free knowledge community focused on the antibody engineering field. Ask questions. Share answers. And boost your reputation. IBC Life Sciences, producer of the Antibody Engineering & Therapeutics conference, hosts these conversations to enable efficient knowledge exchange amongst practitioners. Insight is within sight.

ThinkTank has been built for professionals in a mobile world, who need high-quality answers to difficult questions from people with experience and expertise.

One of the many industry experts who actively participate on ThinkTank is Paul Parren, Ph.D., Senior Vice President and Scientific Director, Genmab, The Netherlands – Below you will find snippets of his responses to a variety of questions that have been posed on the platform. To continue your learnings with the Antibody Engineering community, be sure to login to ThinkTank now.


Excerpts from Dr. Parren's insights via ThinkTank;

With all the different antibody modalities to choose from (bispecifics, antibody fragments, antibody mixtures, ADCs and other conjugations, fusions, antibody combinations), how does one decide which approach to use in a specific project? And what are some advantages and disadvantages of these various modalities?

Dr. Parren: Your approach would be guided by the target product profile, i.e. does your application require long/short half-life, antibody effector function yes/no etc. This should eliminate a number of the possibilities. Then the approach becomes empirical in which I would recommend to produce a model antibody in a number of the remaining formats and assess for maximal activity/safety in comparison to competitor drugs.

Which immunotherapeutic antibody mechanisms have shown the most promise in the clinic? And where is this field headed next?

Dr. Parren: Hard to say in general. Preferably a therapeutic antibody engages multiple mechanisms as a single specific mechanism may, for example, not work against all diseased cells or in all anatomical niches. The required mechanisms will in addition be strongly dependent on your intended application.

The development future of non-canonical therapeutic antibodies (such as nanobodies, antibody scaffolds)? 

Dr. Parren: This is a very broad question and therefore not easy to answer in general terms. In my opinion, antibody fragments such as nanobodies, will have their strongest appeal in areas not served by classical, full length, antibodies. That is in areas for which topical or local administration is most appropriate. One could think of ocular injection or inhalation. In addition, applications which require a short in vivo half-life are attractive, e.g. imaging or in which short, temporary, target inhibition is important.

Should patients be pre-screened (genetically or epigentically) in order to achieve the maximum efficiency/efficacy of antibody therapy?

Dr. Parren: Prescreening of patients to be treated with targeted therapies is important to achieve maximal effects and proper patient selection is the future. Choosing the right biomarker or companion diagnostic will be critical however. Genetic prescreening may only be suitable for some applications, i.e. when screening for target expression, an antibody-based diagnostics may be more appropriate. The impact of the microbiome on antibody therapy is a relatively new field, which needs substantial further investigation, but definitely an area to watch.

The current therapeutic antibodies are targeting membrane-bound or circulating proteins. Any efforts or prospects on targeting intracelluar proteins using antibody/derivatives?

Dr. Parren: The best progress on targeting intracellular proteins is in the targeting of MHC-peptide (e.g. WT1 and NY-ESO-1) complexes presented on the surface of tumor cells with antibodies or affinity-matured TCR antibody-like constructs. Several groups are trying to target antibodies to intracellular compartments, but none of these efforts is ready for prime time yet.



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Wednesday, November 18, 2015

Podcast: Using Antibodies to Treat Alzheimer’s a No-Brainer

By Marc Dresner, Senior Editor, IBC Life Sciences

While antibody therapies today are most commonly associated with oncology and inflammatory diseases, the next big breakthroughs may be on the neurology front.

Dr. Trudi Veldman, Senior Director of Biologics Generation at AbbVie Bioresearch Center, says deploying bispecifics as a “Trojan Horse” to enhance transport across the blood brain barrier could finally satisfy some extreme unmet needs.

“I see a lot of opportunities around Alzheimer’s, Multiple Sclerosis and Parkinson’s disease.”

“I see a lot of opportunities around neurological diseases, such as Alzheimer’s, Multiple Sclerosis and Parkinson’s disease,” said Veldman.

In this podcast interview for Inside Antibody Engineering, Dr. Veldman explains:

• Why she thinks antibody applications in neurology look so promising

• Where she sees impressive progress elsewhere in the field

• Why Fc receptor biology needs more attention and more!


Listen to the podcast or download a transcript here!

Editor’s note: Dr. Trudi Veldman will be chairing the Antibody Therapeutics for Non-Cancer Indications track at the Antibody Engineering and Therapeutics Conference taking place December 7-10 in San Diego.

Click here for an agenda. 

Or for more information visit: www.ibclifesciences.com/antibodyeng




ABOUT THE AUTHOR/INTERVIEWER
Marc Dresner is sr. editor and special communication project lead with IBC Life Sciences. He is the former executive editor of Pharma Market Research Report, a publication for market research professionals specializing in pharmaceuticals and life sciences. He may be reached at mdresner@iirusa.com. Follow him @mdrezz.


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Thursday, October 8, 2015

Look Who's Attending | Last Chance to Save up to $400

Last Chance to Save up to $400 is This Friday, October 9th
Register Today
Be Sure to use code: D15172BLOG

  

Connect with hundreds of your colleagues this December in San Diego at the largest and most trusted Antibody Engineering & Therapeutics event to discover, engineer and develop novel and next generation antibody modalities across diverse disease indications. Included with your 4-day registration fee this year is a new 2-day Antibody-Drug Conjugate track that will showcase the latest progress and clinical updates from the most exciting ADC programs in development.

Secure your seat today to attend this year's meeting and access:
• 100+ speaker presentations covering critical scientific and development updates that can accelerate your antibody research, discovery efforts and clinical programs - download the agenda. 
• 50+ exhibitors to keep you on the pulse of evolving technologies
• 100+ scientific posters to give you first-hand updates on unpublished, peer-submitted research projects
• 700+ global antibody researchers for you to connect with onsite to forge successful scientific and business partnerships

A sample of the attending companies:
• Abbvie
• Albert Einstein College of Medicine
• Amgen
• Bayer Healthcare
• Biogen
• Boehringer Ingelheim
• Boston College
• Boston University
• Bramhill Biological Consulting
• Bristol Myers Squibb
• Celgene Corporation
• Covagen AG
• Daiichi Sankyo
• Dana Farber Cancer Institute
• Dartmouth College
• David Geffen School of Medicine at UCLA
• Development Center for Biotechnology
• Eli Lilly & Company
• EnGen Bio
• Esbatech A Novartis Company
• Genentech
• Genesun Biopharmaceutical      
• Genmab BV
• Genomics Inst of Novartis Research
• Genzyme Corporation
• Georgetown University
• GlaxoSmithKline
• Global Biological Standards Institute
• Imaginab
• Immunocore
• ImmunoGen
• Janssen
• Johnson & Johnson
• Jounce Therapeutics
• Kookmin University
• KTH Royal Institute of Technology
• Massachusetts Institute of Technology
• Maxcyte Inc
• MD Anderson Cancer Center
• MedImmune
• Meditope Biosciences
• Memorial Sloan Kettering Cancer Center
• Merck
• Merrimack Pharmaceuticals Inc
• National Cancer Center Hospital East
• National Cancer Institute NIH
• National Institute for Communicable Diseases
• National Research Council Canada
• Novartis
• Novo Nordisk   
• OMT Therapeutics
• Oslo University Hospital, Rikshospi
• Oxford University Kellogg College
• Panorama Research Institute
• Pfizer
• Queen Mary University of London
• Regeneron
• Research Corporation Technologies
• Roche
• Royal Institute of Technology (KTH)
• Sanofi
• Seattle Genetics
• Simon Fraser University
• Stanford University Medical Center
• Stanford University School of Medicine
• Taipei Medical University
• Takeda
• Tel Aviv University
• Teva Pharmaceuticals
• The Rockefeller University
• The Scripps Research Institute
• The University Of Tokyo
• Tokyo University of Pharmacy and Life Sciences• UCL Cancer Institute
• UMass Medical School
• Univ. of Texas MD Anderson Cancer Ct
• University of Cincinnati College of Medicine
• University of Pittsburgh Cancer Institute
• Vaccinex
• Yale School of Medicine and more!

Don't miss out! Join the growing list of attendees at the largest antibody engineering and therapeutics event in the industry! This Friday, October 9th is your last chance to take advantage of the early-bird savings of up to $400. Be sure to use code: D15172BLOG – Register here.

Best,
The Antibody & Protein Therapeutics – From Discovery to Production Team
@ibcusa
#AntibodyEng
http://futurebiopharma.blogspot.com/



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Wednesday, September 30, 2015

Plenary Sessions Pave the Way for "Cure Not Treatment"



By: Brian Caine

Cell Therapy Bioprocessing & Commercialization got off to an exciting start as plenary speakers Marc Better PhD, Julie Alllickson PhD and Bruce Levine described the cell therapy landscape and their outlined progress.

More than 200 cell therapy professionals heard Dark Horse Consulting president and event chairperson Anthony Davies set the stage by reviewing the real progress and strides the cell therapy market has made while acknowledging the hard work that the industry is facing.

Marc Better, Phd, Vice President, Product Services at Kite Pharma kicked off the first of three presentations describing the market as "exciting and challenging". He outlined the general challenges faced by Kite Pharma and focused on the solutions it implemented to effectively and successfully engineer autologous T cell therapies.

Julie Allickson, PhD, Director, Regenerative Medicine Clinical Center, Wake Forest Institute for Regenerative Medicine said real commercialization would come as research moved to "cure, not treatment".

She provided attendees with Wake Forest’s approach to determine what process design, development, manufacturing, and technologies will best support their initiatives.

"Academic and industry must come together in order to be successful," she said to create "a manufacturing roadmap for TERM Technologies".

Allickson reinforced the need to create a consortium to develop infrastructure and resources to advance manufacturing and set a standards. She also noted that bio-printing is showing greta results and has a bright future.

Bruce Levine, PhD, Associate Professor in Cancer Gene Therapy, University of Pennsylvania detailed their approach to targeting tumors with CAR-modified T-Cells and reported on the positive short and long term results.

Join the conversation on Twitter by following #IBC_CTB15


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Tuesday, September 15, 2015

Major Challenges Facing Immunotherapy Developers

  

Dr. Marc Better, Vice President of Product Sciences, Kite Pharma - a Keynote Speaker at this years Cell Therapy Bioprocessing & Commercialization Event, sat down to discuss the current projects he is working on at Kite Pharma, the biggest challenges facing immunotherapy developers, regulatory hurdles, and this years meeting. Below you will find a brief teaser from the interview, to access the full interview, follow the links below...


What are the biggest challenges facing immunotherapy developers?

Well really, I think the biggest challenge for us is that we are charting new ground. There really isn’t a lot of precedent for bringing this type of product to the market. However, we do know - at least in the early trials we are seeing really exciting results both with our collaborators at the NCI and other institutions. We are building a lot of processes and systems around this to allow us to expand these programs and commercialize products like KTC 19.

Any field that is as innovative and exciting as this is very challenging, but we are very committed to being the best in the area that we can possibly be....[Click here to continue reading


Want to hear more from Dr. Better? Join him in Alexandria, VA for Cell Therapy Bioprocessing & Commercialization, September 30 - October 2, 2015 - where Dr. Better will have a keynote address titled "Overcoming Challenges for Engineered Autologous T-Cell Therapy". To see the complete agenda, click here. And register now with the code XB15188BLOG to save $100 off the current rate.

See you in Alexandria!


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Wednesday, July 15, 2015

Unlock the Key to Advancing Immuno-Oncology

As innovations and discoveries in cancer immunotherapies progress at lightning speed, it is critical to understand the successes and challenges with current immunotherapies to separate the hype from the real opportunities. IBC's Immuno-Oncology event develops tactics for improving the efficacy and response rates with first generation immunotherapies and builds a strategy for utilizing combination therapies, t-cell therapies, and checkpoint inhibitors to propel the next wave of cancer immunotherapies.

Download the Immuno-Oncology brochure now to create your pathway for an answer to cancer: http://bit.ly/1O6tbIZ

Immuno-Oncology
Advancing the Next Generation of Cancer Immunotherapies
September 30 – October 1, 2015
Hilton Alexandria Mark Center, Alexandria, VA

Register today and explore the latest advances in Immuno-Oncology to:

Develop next generation immunotherapies by understanding recent advances made with CAR-T and T-Cell therapies, checkpoint inhibitors, cancer vaccines, and agnostic antibodies
Create a successful combination therapy strategy by gaining insights from global leaders on effective combinations
Optimize the discovery and development of your promising immunotherapies by hearing best practices and lessons learned from the first wave of cancer immunotherapies

Download the brochure for full program details: http://bit.ly/1O6tbIZ

Reserve your seat now. Use code IMMUNO15BL to get $100 off the current rate. Register today: http://bit.ly/1O6tbIZ

Best,
The Immuno-Oncology Team 2015
@ibcusa

#Immuno15


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Tuesday, July 14, 2015

How will cell therapy change in the next five years?


Joining us in this Cell Therapy Bioprocessing & Commercialization Podcast is Anthony Davies, President of Dark Horse Consulting. Anthony discusses key industry challenges he is seeing, the evolution of the field in the next five years, some exciting new initiatives he is working on, regulatory issues and much more. Below is a brief excerpt from the podcast, be sure to click on the links below to access the complete podcast.


How do you see the field of cell therapy changing in the next five years? 

I believe strongly that the next five years will bring the first significant drug approval. This will be a transformative moment for the field. A lot of players who are sitting on the wings will move in and there will be a big acceleration. Who will benefit from that the most are the organizations and the entities which have spent the difficult, recent years preparing and positioning themselves the best. 

I think we would do well to look around at this point because it will – in a sense – be the calm before the storm. The companies which are working fervently now preparing themselves to be able to take their drugs all the way to commercialization are the ones who are going to step in to the fast lane when the first big approval comes. And as I said, I do think that the next five years is a very realistic timeframe for this to occur.

[The above was a brief excerpt from the podcast]


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Wednesday, June 3, 2015

Researchers Find New Drugs to Help Fight Cancer

We're looking at another weapon in the arsenal”

A study recent found that a combination of two drugs that helped allow the immune system to fight the cancer -- ipilimumab and nivolumab -- stopped the deadly skin cancer melanoma from advancing for nearly a year in 58 percent of the cases.  

In addition, there are other studies that have shown promise in treating lung cancer, according to CNN. Those involved in the fight against cancer are divided as to just how excited to get over the promise of immunotherapy in battling cancer.

"Immunotherapy drugs have already revolutionized melanoma treatment, and now we're seeing how they might be even more powerful when they're combined," said Dr. Steven O'Day, an expert with the American Society of Clinical Oncology.


"But the results also warrant caution -- the nivolumab and ipilimumab combination used in this study came with greater side effects, which might offset its benefits for some patients. Physicians and patients will need to weigh these considerations carefully," O'Day explained to CNN.

In the study, 36 percent of the patients receiving the two-drug combination had to stop the therapy due to side effects.  Nell Barrie, a spokeswoman for Cancer Research UK, while calling the results "encouraging" and "promising," told CNN that a lot remains to be learned and the new drugs would not replace any of the existing cancer treatments.

According to Barrie, surgery and chemotherapy or radiotherapy would still be vital. Researchers had yet to study the long-term survival rates for immunotherapy, and the side effects can include inflammation of the stomach and bowel serious enough to require hospitalization, said Barrie.
But Dr. James Larkin, the lead author of the melanoma study, called the results a ‘game changer.’ 

"We've seen these drugs working in a wide range of cancers, and I think we are at the beginning of a new era in treating cancer.”


Barrie said immunotherapy could offer hope to people with cancers that are otherwise difficult to treat. "We're looking at another weapon in the arsenal,” he said. 


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Thursday, December 4, 2014

What is next for immunotherapy?

We recently had a chance to sit down with a few of the Antibody Engineering and Therapeutics speakers to get an inside look into what they're working on and insights into their work.  We continue our interview series off with Omid Hamid, MD, Chief of Research, Immuno-Oncology at The Angeles Clinic and Research Institute.

As we wrap up our interview series with our Antibody Engineering speakers, Dr. Hamid answers this final question:
What is next for immunotherapy?
Dr. Hamid: The future for immunotherapy in solid tumors is bright. There are many avenues to take. We are looking at bispecific antibodies that are antibodies that bring two things together, like a T cell close to the tumor and then initiating an immune response. We are looking at adoptive T cell therapy where you take the T cells out of the tumor and grow them and then re-infuse them into patients. That is also referred to as “TIL Therapy” as is done at NCI and other major academic centers. We are looking at trying to bring that to community cancer centers and all patients. Again, combinatorial therapies with other immune therapies, including IL-2, anti CTL 4 therapy coming forward. And this will move quickly now that the field of oncology has understood these benefits. 
Now, as we talk about combination, we talk about where the field is going. Let’s not forget that immuno-oncology can be paired with many different modalities. We are looking at the ability to initiate or improve immune response through radiation – so called “Abscopal Effect”. We are looking at the role of chemotherapy within oncology or target therapies, which is something that I haven’t spoken about. But, the first checkpoint inhibitor to be approved was Ipilimumab and it was approved at the same time that BRAF targeted therapy was approved in metastatic melanoma. Today we have multiple trials looking at combinations of BRAF targeted therapy and immunotherapy with PD-1, PDL-1 and anti CTLA 4.

So, what’s next is happening now. I would support patients looking into options with any one of these modalities. What we have seen is that even heavily pre-treated patients and patients with rare tumors may have the possibility of benefiting from these modalities.

Dr. Hamid will be presenting The Promise of PD1 Checkpoint Inhibition for Multiple Solid Tumors on  next Wednesday, December 10 at the Antibody Engineering and Therapeutics event. For more information on his session and the rest of the program, download the agenda. As a reader of this blog, when you register to join us and mention code XD14172BLOGJP, you can save 20% off the standard rate.


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Monday, May 5, 2014

How has the field of cancer immunotherapy in general advanced over the last view years?

Next week, we're hosting the TIDES 2014 Event.  Over the next few days, we'll be going back and looking at some of the one on one interviews we conducted with our speakers.  We'll start out by looking at the conversation we had with Eric Von Hofe, President of Antigen Express.

Today, Eric answers the question:
How has the field of cancer immunotherapy in general advanced over the last view years?

His answer:
It has had a really difficult time, up until the approval of Provans for prostate cancer and Yervoy for melanoma a couple of years ago.

For the first ten years of this century, there were lots of failures in the clinic and, simply, there were a lot of things that people needed to learn in the clinic in regards to how to use these compounds. So, while most therapeutic agents produce their effects relatively quickly, either they see tumors shrinking after hemotherapeutic agents given, which is good, or it doesn’t, which is bad. Even if therapeutic agents work differently --- and the problem there is that it can take up to eight months to a year to really get the patient’s immune system revved up and able to recognize the tumor. So, that’s really a big difference. Once people started taking that into consideration in the clinic, they started seeing many more encouraging results.

The upshot of all that is that most people now agree that probably within the next ten years, immunotherapy will constitute one of the mainstays of cancer therapy. So, it is an exciting time; people are very encouraged by it.

Read Dr. Von Hofe's full interview here.

Dr. Von Hofe will present the case study Peptide-Based Vaccines in the New Era of Cancer Immunotherapy on Tuesday, May 13.  For more information on his presentation and the rest of the program, download the agenda.  As a reader of this blog, when you register to join us May 12-15 in Providence, Rhode Island, you're eligible to save 20% off the standard rate!  Simply register to join us and mention priority code XB14180BLOG.  Have any questions?  Email Jennifer Pereira.


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Monday, September 30, 2013

What is the value of antibody engineering in immunotherapy?

We at the Future of Biopharma blog recently had some time to sit down and speak with speakers from the Antibody Engineering and Therapeutics event. Today speaker Dr. Holbrook Kohrt, Associate Professor in the Department of Medicine in the Division of Oncology at Stanford University shares with us what he thinks the value of antibbdy engineering in immunotherapy is.
I actually think that antibody engineering is critical in the area of immunotherapy because of the interaction of a novel antibody that we are engineering today and applying for patients with cancer. 
What we’ve identified over the past 20 years, since the initial development of Rituximab, is an antibody that targets CD20 on the surface of non-Hodgkin’s lymphoma. Now, this antibody – Rituximab – was put into Phase I testing in 1994, FDA approved in 1997 and today is approximately an $8 million worldwide market in immunotherapy and induces responses anywhere between 60 and 90% of non-Hodgkin’s lymphoma patients and has been demonstrated to improve survival. 
Since the development of Rituximab, there have been multiple other antibodies developed, such as Trastuzumab, which targets HER2 on the surface of breast cancer, as well as Cetuximab, which targets EGFR on the surface of head and neck, as well as in colorectal and potentially in lung and other tumor types. 
Unfortunately, these monoclonal antibodies have failed to be the magic bullet that we all once hoped. So today the major additional effort is trying to identify how we can improve the efficacy of these monoclonal antibodies and thus the importance of antibody engineering.

For a long period of time we have considered antibody engineering really just as enhancing a single monoclonal antibody to improve its efficacy. But what I argue is that actually there is an alternative paradigm changing approach by antibody engineering to two targets simultaneously. Now this may sound similar to biospecifics or diabodies. But in fact, what I’m referring to is targeting one target on the tumor itself and a second target on a completely different cell type, specifically on an infector cell within the immune system. 
So, how do monoclonal antibodies work? Well, the majority monoclonal antibodies, such as Rituximab, work by ADCC – Antibody Dependent Cell-Mediated Cytotoxicity. In this process, a monoclonal antibody binds to the surface of the cell of interest, such as the lymphoma cell or breast cancer cell or the head and neck cancer cell. Once that first antibody binds, the Fc portion of that antibody recruits and binds to parts of the immune system, specifically natural killer cells or any cells bearing an Fc receptor. Now the affinity of that interaction is very important. So, if we can improve the first monoclonal antibody by making that affinity even higher, that’s one success. But the second success really comes by targeting the immune system. How can we do that? When these cells – the natural killer cells – bind to the Fc portion of a monoclonal antibody, that interaction triggers stimulation of them. That stimulation helps regulate things on their cell surface.

For the rest of Dr. Holbrook's answer, download the full podcast and PDF here.

Dr. Kohrt will be presenting Stimulation of Natural Killer Cells with an Anti-CD137 Antibody Enhances the Efficacy of Trastuzumab, Cetuximab, and Rituximab in HER2-expressing Breast Cancer, EGFR+ Head and Neck Cancer, and CD20+ Lymphoma on Wednesday, December 11 at the Antibody Engineering and Therapeutics Event.  For more information on his session and the rest of the program, download the agenda.  If you'd like to join us, as a reader of this blog, when you register to join us and mention priority code XD13172BLOGJP, you can save 20% off the standard rate!


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