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Integral Molecular Hosts Art of Science Residency

PHILADELPHIA (September 6, 2017) – A new kind of interdisciplinary artistic collaboration is happening in Philadelphia this fall. The University City Science Center has partnered with biotech company and uCity Square resident Integral Molecular to host an artist-in-residence program focused on biotechnology. The three-month pilot of the Art + Science Residency will begin in September with Philadelphia-based artist Orkan Telhan.

The Art + Science Residency’s goal is to provide access, opportunity and awareness for artists to explore the ever-changing world of biotechnology. Telhan will have free reign of Integral Molecular’s lab space with direct access to biotech expertise and equipment at the company. The Science Center will host a public lecture by Telhan on October 3rd at 5:00 p.m. to be held at Quorum, and progression of his work will also be documented online.

Orkan Telhan’s work focuses on the design of interrogative objects, interfaces, and media, engaging with critical issues in social, cultural, and environmental responsibility. For the Art + Science Residency, Telhan will work with scientists at Integral Molecular to explore different ways of manipulating taste transduction by working with a variety of taste receptors, visualizing novel sensations on the tongue in humans and other animals.

“Historically, my work has explored the future of food and taste from a number of different perspectives through the biosynthesis of novel flavors and designing experimental living artifacts,” says Telhan. “This residency will allow me to focus on the tongue itself—which is the ultimate decision-maker that determines what we like or dislike. I am excited to work with Integral Molecular on the biochemistry of taste perception and find ways to make this invisible world more accessible to non-scientists.”

“The ability to interpret and communicate science to the larger community is an important goal of this program,” says Benjamin Doranz, President and CEO of Integral Molecular, as well as a part-time sculptor. “On a daily basis, scientists everywhere have an impact on medicine and public health, yet much of this is not visible outside the scientific community. We hope this program will begin changing this by promoting scientific engagement with the general public.”

Telhan is Associate Professor of Fine Arts – Emerging Design Practices at University of Pennsylvania, School of Design. He holds a Ph.D. in Design and Computation from MIT’s Department of Architecture. He was part of the MIT Media Laboratory and MIT Design Laboratory.

Telhan will be working with Benjamin Doranz and his staff at Integral Molecular. Integral Molecular’s research is focused on membrane proteins, such as taste receptors, viral Envelope proteins, and cellular transporters that are involved in diseases such as asthma, Zika, cancer, and chronic pain.

The Art + Science Residency is coordinated and facilitated by Angela McQuillan, the curator of the Science Center’s Esther Klein Gallery at 3600 Market Street in Philadelphia. Angela spent 10 years working as a research scientist before pursuing an artistic career. She is well versed in the technical aspects of scientific discourse as well as the creative side of art and exhibition making, and has curated over 25 art exhibitions to date.

About the Science Center
Located in the heart of uCity Square, the Science Center is a mission-driven nonprofit organization that catalyzes and connects innovation to entrepreneurship and technology commercialization. For 50+ years, the Science Center has supported startups, research, and economic development in the life sciences, healthcare, physical sciences, and emerging technology sectors. As a result, graduate firms and current residents of the Science Center’s incubator support one out of every 100 jobs in the Greater Philadelphia region and drive $13 billion in economic activity in the region annually. By providing resources and programming for any stage of a business’s lifecycle, the Science Center helps scientists, entrepreneurs and innovators take their concepts from idea to IPO – and beyond.
For more information about the Science Center, go to www.sciencecenter.org

About the Esther Klein Gallery
The Esther Klein Gallery (EKG), which opened in 1977, uses the creative arts as a platform to explore relationships between art, science and technology. EKG seeks to positively impact the cultural life of both its immediate neighborhood of West Philadelphia and the broader Philadelphia community. EKG programming is designed to explore the range of art, science and technology exhibitions, and includes gallery talks, panel discussions, and education programs. For more information, visit www.sciencecenter.org/discover/ekg.

Integral Molecular Doubles Antibody Discovery Capacity

PHILADELPHIA-(BUSINESS WIRE)-Integral Molecular, a Philadelphia based biotechnology company, announces the expansion of its facility, personnel, and resources dedicated to antibody discovery for membrane protein targets.

The expansion reflects the success of the company’s MPS Antibody Discovery platform, including new partners and the growth of its internal therapeutic antibody pipeline. The expansion doubles the number of personnel at Integral Molecular dedicated to antibody discovery, and includes the build-out of additional laboratory space at the University City Science Center. The new state-of-the-art laboratory space will house specialized equipment, extending existing capabilities including robotic liquid handling and ultrahigh-throughput microfluidics to support antibody isolation and functional screening.

“The expansion of our antibody platform is a testament to the success of our scientific approach and the enthusiasm of our partners who recognize the value of our technology for discovering first-in-class therapeutics for unique targets”, says Benjamin Doranz, President and CEO of Integral Molecular.

Integral Molecular currently has a pipeline of therapeutic antibodies against under-exploited GPCR, ion channel, and transporter targets in therapeutic areas including NASH (CB1 antagonist), immuno-oncology (C5aR antagonist), and pain (P2X3 antagonist). The company offers antibody licensing opportunities, MPS Antibody Discovery services, and partnerships for new target discovery.

About Integral Molecular
Integral Molecular is a research-driven biotechnology company creating a pipeline of therapeutic antibodies against under-exploited membrane protein targets, including GPCRs, ion channels, transporters, and viral envelope proteins, using its proprietary MPS Antibody Discovery technology. This platform is built on the company’s Lipoparticle and Shotgun Mutagenesis technologies and over 15 years of experience optimizing membrane proteins to enable the isolation, characterization, and engineering of monoclonal antibodies against otherwise intractable membrane protein targets. Integral Molecular offers antibody discovery services to commercial partners, and also pursues internal programs to develop antibodies for licensing. The company currently has therapeutic programs focused on metabolic diseases, pain, immunity, and oncology.

For more information please contact:

Integral Molecular, Inc.
Benjamin Doranz, 215-966-6061
info@integralmolecular.com
staging.integralmolecular.com

Integral Molecular Announces Technology Advancement for Discovery of New Immuno-Oncology Therapeutic Targets

PHILADELPHIA-(BUSINESS WIRE)-Integral Molecular, a leader in membrane protein technologies, has initiated a therapeutic target discovery program in immuno-oncology by exploiting its Membrane Proteome Array technology to identify cell-surface proteins involved in regulating the ability of the human immune system to recognize and destroy cancer.

The Membrane Proteome Array is a cell-based screening platform composed of 5,300 unique membrane proteins expressed in live human cells. Using this technology, the company has identified entirely novel immuno-oncology protein interactions, as well as validated therapeutic axes such as PD1/PD-L1. The Membrane Proteome Array is ideally suited to the discovery of new therapeutic targets because each membrane protein is expressed in its functional form on the surface of live human cells, enabling signaling and binding assays to detect functional interactions. In addition, the 5,300 membrane proteins that form the platform represent the largest library of its kind, including over 95% of all known IgV-set proteins and GPCRs.

“No other platform has systematically explored the role of GPCRs, ion channels, and transporters in the immuno-oncology space,” says Benjamin Doranz, CEO of Integral Molecular, adding that “our capabilities in this area have already resulted in the discovery of new immune protein interactions, and we expect to identify more with our novel approach”.

About Integral Molecular
Integral Molecular is a research-driven biotechnology company creating a pipeline of therapeutic antibodies against under-exploited membrane protein targets, including GPCRs, ion channels, transporters, and viral envelope proteins, using its proprietary MPS Discovery Engine®. This platform is built on the company’s Lipoparticle and Shotgun Mutagenesis technologies and over 15 years of experience optimizing membrane proteins, enabling the isolation, characterization, and engineering of monoclonal antibodies against otherwise intractable membrane protein targets. Integral Molecular discovers antibodies for partners in parallel with its own independent work developing antibodies for licensing. The company currently has therapeutic programs focused on pain, metabolic diseases, and viral pathogens.

Integral Molecular Announces the Expansion of its Membrane Proteome Array Technology for Improving Antibody Safety and New Target Discovery

PHILADELPHIA–Integral Molecular announces the expansion of its proprietary Membrane Proteome Array™ to now consist of 5,300 unique human membrane proteins, representing nearly the entire human membrane proteome, making it the broadest platform of its kind for antibody specificity profiling and de-orphaning.

Off-target drug binding accounts for half of all safety failures during clinical drug development. To address this concern, the Membrane Proteome Array provides the unprecedented ability for highly sensitive and comprehensive screening of biotherapeutic candidates against nearly all human membrane proteins, which are the targets for most drugs. Screening for off-target interactions early in therapeutic development de-risks lead selection and can minimize adverse clinical effects.

“The Membrane Proteome Array represents a convergence of Integral Molecular’s 15 years of experience as a leader in membrane protein expression, and its high-throughput expression analysis capabilities,” says Benjamin Doranz, President and CEO of Integral Molecular. “We are excited by the potential of this technology to improve drug safety and find new drug targets.”

In addition to drug safety testing, the expanded Membrane Proteome Array is being used to de-orphan antibodies that show therapeutic promise but do not yet have an assigned target or mechanism-of-action. The Membrane Proteome Array is also actively being used to identify novel receptors for viruses and immuno-oncology targets.

About Integral Molecular
Integral Molecular is a research-driven biotechnology company creating a pipeline of therapeutic antibodies against under-exploited membrane protein targets, including GPCRs, ion channels, transporters, and viral envelope proteins, using its proprietary MPS Discovery Engine®. This platform is built on the company’s Lipoparticle and Shotgun Mutagenesis technologies and over 15 years of experience optimizing membrane proteins, enabling the isolation, characterization, and engineering of monoclonal antibodies against otherwise intractable membrane protein targets. Integral Molecular discovers antibodies for partners in parallel with its own independent work developing antibodies for licensing. The company currently has therapeutic programs focused on pain, metabolic diseases, and viral pathogens.

Immunization Elicited Antibody Shows Universal Protection Against Multiple Ebolaviruses

ROCKVILLE, Md., May 18, 2017 /PRNewswire/ — In research published online today in Cell, a team of scientists describe an antibody called CA45, elicited by immunization of nonhuman primates (NHP), which binds to Ebola virus surface protein, a region that is shared among all pathogenic ebolaviruses. CA45 blocks cells from infection by Ebola (EBOV), Sudan (SUDV), and Bundibugyo (BDBV), the only Ebola virus known to cause lethal disease in humans. The team of scientists led by Dr. M. Javad Aman from Integrated Biotherapeutics, and Dr. Yuxing Li from the Institute for Bioscience and Biotechnology Research (IBBR) and Department of Microbiology and Immunology, University of Maryland School of Medicine, also included researchers from Albert Einstein College of Medicine, U.S. Army Medical Research Institute of Infectious Diseases (USAMRIID), National Institute of Allergy and Infectious Disease (NIAID), Garvan Institute of Medical Research, The Scripps Research Institute, Integral Molecular, the University of Manitoba, and the Public Health Agency of Canada.

Members of the Filovirus family are among the deadliest viruses with no approved treatments or vaccines available for human use. Several vaccines are currently in development but these vaccines primarily elicit responses against only EBOV, the Zaire Ebola virus that caused the 2014 Ebola virus disease outbreak in West Africa. However, the past four decades multiple outbreaks of SUDV, and BDBV with high mortality rates. Given the unknown nature of future ebolavirus outbreak development of vaccines and therapeutics that can broadly protect people against infection with any of these viruses is critically important.

The team of investigators immunized a macaque with a special cocktail of engineered proteins mimicking the surface glycoproteins of ebolaviruses to induce broadly protective responses. The scientists then screened immune cells of the vaccinated animal to specifically isolate those monoclonal antibodies that reacted to multiple ebolaviruses. After searching through millions of immune cells, a cross-reactive antibody (CA45) was isolated that was able to neutralize cellular infection by all pathogenic ebolaviruses.

CA45, when given to already infected rodents at the peak of their disease, was able to protect the animals from the otherwise lethal infection. The scientists then combined CA45 with another antibody they discovered previously and demonstrated that the combination showed superior activity, protecting mice, guinea pigs and ferrets from infections with Ebola, Sudan, and Bundibugyo viruses with almost no sign of disease. This is the first time a therapeutic agent has been able to fully protect animals against all three pathogenic ebolaviruses.

A key site of vulnerability revealed:

The glycoprotein (GP) on the surface of the ebolavirus is responsible for entry into the cells. The entry process involves first interaction with the cell surface followed by transport to specialized cellular compartments called endosomes where GP interacts with its cellular receptor. Finally the GP mediates the last step of entry, the fusion of the viral and endosomal membrane that allows the virus to release its content into the cells. Using a variety of methods the team identified the specific region of ebolavirus GP that is attacked by CA45. This region is within the so-called fusion loop that mediates fusion of the viral and endosomal membrane. The site attacked by CA45 has a remarkably similar structure in the GP of various ebolaviruses, explaining its ability to cross protect against multiple viruses. Recently similar broadly neutralizing antibodies targeting the fusion domain of HIV and influenza have been discovered indicating that this region is a key site of vulnerability for these viruses.

Prospect of a Pan-ebolavirus vaccine

The fact that such a broadly protective antibody was elicited by immunization with an engineered vaccine suggests the feasibility of developing a vaccine protective against multiple ebolaviruses. “With every new antibody we learn a little more about this virus and how it can be attacked,” says Dr. M. Javad Aman of Integrated BioTherapeutics and a senior author on the paper. He went on to say “We are carefully analyzing this information to devise strategies to make a single vaccine effective against all ebolaviruses– such a vaccine may be entirely within reach now.”

“We are on our way to designing novel vaccines and immunotherapeutics for broader protection against all pathogenic ebolaviruses, with the insights we have been gaining,” says Dr. Yuxing Li, Associate Professor of IBBR and the co-corresponding author of the paper.

The paper is titled “Immunization-elicited Broadly Protective Antibody Reveals Ebolavirus Fusion Loop as a Site of Vulnerability.” In addition to Drs. Li and Aman and the co-first authors Drs. Xuelian Zhao and Katie A. Howell, contributors include Shihua He, Jennifer M. Brannan, Anna Z. Wec, Edgar Davidson, Hannah L. Turner, Chi-I Chiang, Lin Lei, J. Maximilian Fels, Hong Vu, Sergey Shulenin, Ashley N. Turonis, Ana I. Kuehne, Guodong Liu, Mi Ta, Yimeng Wang, Christopher Sundling, Yongli Xiao, Jennifer S. Spence, Benjamin J. Doranz, Frederick W. Holtsberg, Andrew B. Ward, Kartik Chandran, John M. Dye, and Xiangguo Qiu.

This work was supported by a contract (HDTRA1-13-C-0015) from US Defense Threat Reduction Agency (DTRA) and NIAID/NIH grants R43AI124765, R01AI126587, U19AI109762, Intramural Research Award from IBBR, University of Maryland, NIAID contract HHSN272201400058C, JSTO-DTRA project CB4077, and also partially supported by Public Health Agency of Canada (PHAC).

About Integrated Biotherapeutics (IBT)

IBT is a biotechnology company focused on the discovery of novel vaccines and therapies for emerging infectious diseases with a pipeline that includes promising product candidates for bacterial and viral infections including unique pan-filovirus immunotherapeutics and vaccines, vaccines for Staphylococcal infections, and a variety of other product candidates for emerging viruses. Located in Rockville, MD, IBT has a close working relationship with United States Government agencies including the National Institute of Allergy and Infectious Diseases (NIAID/NIH). National Cancer Research Institute (NCI), Department of Defense (DOD), United States Army Medical Research Institute of Infection Diseases (USAMRIID) as well as many biotechnology and pharmaceutical companies and academic laboratories. For more information, visit www.integratedbiotherapeutics.com.

About the Institute for Bioscience and Biotechnology Research (IBBR)

IBBR is a University System of Maryland joint research enterprise among the University of Maryland College Park, the University of Maryland Baltimore, and the National Institute of Standards and Technology. With a long-standing scientific focus on structure-function relationships of biomolecules, genetic systems, and applications, e.g., vaccines, therapeutics, drug delivery technologies, and biomanufacturing, IBBR’s mission is to leverage its unique capabilities and infrastructure to marshal innovative technologies and expertise across its partnering institutions, to foster integrated, cross-disciplinary team approaches to scientific research and education, and to pursue translational programs and projects aimed at advancing innovations to commercialization in real world applications. The Institute also serves to expand the economic base of science and technology in the state of Maryland and at the national level. For more information visit http://www.ibbr.umd.edu/

About United States Army Medical Research Institute of Infectious Diseases
USAMRIID’s mission is to provide leading edge medical capabilities to deter and defend against current and emerging biological threat agents. Research conducted at USAMRIID leads to medical solutions-vaccines, drugs, diagnostics, and information-that benefit both military personnel and civilians. The Institute plays a key role as the lead military medical research laboratory for the Defense Threat Reduction Agency’s Joint Science and Technology Office for Chemical and Biological Defense. USAMRIID is a subordinate laboratory of the U.S. Army Medical Research and Materiel Command. For more information, visit www.usamriid.army.mil

About Albert Einstein College of Medicine
Albert Einstein College of Medicine is one of the nation’s premier centers for research, medical education and clinical investigation. During the 2016-2017 academic year, Einstein is home to 717 M.D. students, 166 Ph.D. students, 103 students in the combined M.D./Ph.D. program, and 278 postdoctoral research fellows. The College of Medicine has more than 1,900 full-time faculty members located on the main campus and at its clinical affiliates. In 2016, Einstein received more than $160 million in awards from the National Institutes of Health (NIH). This includes the funding of major research centers at Einstein in aging, intellectual development disorders, diabetes, cancer, clinical and translational research, liver disease, and AIDS. Other areas where the College of Medicine is concentrating its efforts include developmental brain research, neuroscience, cardiac disease, and initiatives to reduce and eliminate ethnic and racial health disparities. Its partnership with Montefiore, the University Hospital and academic medical center for Einstein, advances clinical and translational research to accelerate the pace at which new discoveries become the treatments and therapies that benefit patients. Einstein runs one of the largest residency and fellowship training programs in the medical and dental professions in the United States through Montefiore and an affiliation network involving hospitals and medical centers in the Bronx, Brooklyn and on Long Island. For more information, please visit www.einstein.yu.edu.

Integral Molecular and Integrated BioTherapeutics Initiate Collaboration for Virus Vaccine Discovery

Philadelphia, PA & Rockville, MD. (BUSINESSWIRE) March 2, 2017 —Integral Molecular and Integrated BioTherapeutics have teamed up in the fight against the global health crises posed by Ebola and Zika viruses, signing a collaborative vaccine discovery agreement to help eradicate these threats.

The two companies will leverage their complementary technologies to produce vaccine candidates that are specifically engineered to generate a maximally protective immune response in humans. The availability of such vaccines will prevent the recurrence of the deadly 2014-2016 Ebola epidemic that killed over 11,000 people in West Africa, and has the potential to curtail the spread of the ongoing Zika virus epidemic associated with severe fetal brain defects.

Integral Molecular is an industry leader in the study of complex membrane proteins such as viral Envelope proteins. The company will use its proprietary Shotgun Mutagenesis protein engineering technology to generate and screen large panels of Envelope protein variants to identify an optimized protein that could serve as a highly immunogenic and protective vaccine, and will ultimately apply its high-resolution epitope mapping technologies to characterize the vaccine’s protective effects. Integrated BioTherapeutics, a leader in infectious disease research, will conduct preclinical studies to test the efficacy of vaccine candidates in disease models.

“The vulnerability of human populations during the recent Ebola and Zika outbreaks highlighted the consequences of the lack of effective vaccines against these pathogens. The goal of our collaboration is to meet these concerns by creating efficacious vaccine candidates based on viral Envelope proteins,” said M. Javad Aman, President and CEO of Integrated BioTherapeutics.

“We look forward to working with Integrated BioTherapeutics. Their experience in the development of a pipeline of antiviral products based on rationally designed and engineered viral proteins and antibodies will be a tremendous asset in our joint efforts towards producing Ebola and Zika vaccines,” continued Benjamin Doranz, President and CEO of Integral Molecular.

Thus far, the two companies have engaged in highly successful collaborative research that has culminated in the pursuit of these vaccine candidates. This includes the development and characterization of the protective and cross-neutralizing pan-Ebola antibody FVM04, recently published in Cell Reports (Howell et al., 2016). Additional research resulting from this collaboration is expected to be published later this year.

About Integral Molecular
Integral Molecular is a research-driven biotechnology company creating innovative technologies and a pipeline of therapeutic antibodies against under-exploited membrane protein targets, including GPCRs, ion channels, transporters, and viral envelopes. This platform is built on the company’s Lipoparticle and Shotgun Mutagenesis technologies and over 15 years of experience optimizing membrane proteins. Integral Molecular discovers antibodies for partners in parallel with its own independent work developing antibodies for licensing. The company currently has therapeutic programs focused on pain, immunity, and infectious diseases. For more information, visit staging.integralmolecular.com

About Integrated BioTherapeutics
IBT is a biotechnology company focused on the discovery of novel vaccines and therapeutics for emerging infectious diseases with a pipeline that includes promising product candidates for bacterial and viral infections including unique pan-filovirus monoclonal antibodies and vaccine candidates and a variety of other engineered product candidates for emerging viruses. IBT also operates a testing service business (www.ibtbioservices.com) focused on in vitro and in vivo models for viral agents such as Zika, dengue, yellow fever, influenza and RSV as wells as bacterial agents such as S. aureus, S. pneumoniae, E. Coli, and C. difficile. Located in Rockville, Maryland, IBT has a close working relationship with United States Government agencies including the National Institute of Allergy and Infectious Diseases (NIAID/NIH), National Cancer Institute (NCI), Department of Defense (DOD), United States Army Medical Research Institute of Infectious Diseases (USAMRIID) as well as many biotechnology and pharmaceutical companies and academic laboratories. For more information, visit www.integratedbiotherapeutics.com

Integral Molecular Isolates Zika-Specific Monoclonal Antibodies for Vaccine Research and Diagnostics

PHILADELPHIA — Integral Molecular announces the isolation of neutralizing monoclonal antibodies specific for the Zika virus envelope, thereby enabling vital vaccine research and the development of improved diagnostics to combat the ongoing Zika epidemic.

The antibodies will be used to further understand critical elements of Zika virus replication that can serve to design improved vaccines and characterize the immune responses of infected individuals. In addition, Integral Molecular’s Zika virus antibodies can be applied to the development of better diagnostics due to their exquisite specificity.

These highly specific antibodies were isolated using Integral Molecular’s proprietary MPS Antibody Discovery platform and long-standing expertise with mosquito borne viruses. Until now, Zika-specific antibody discovery has been hampered by cross-reactivity between the envelope proteins of Zika and Dengue viruses, with antibodies unable to differentiate between these closely related viruses. To overcome this, isolated antibodies were screened for specificity and virus neutralization using Zika reporter virus particles (RVPs), also recently developed by Integral Molecular.

“There is a significant need for monoclonal antibodies highly specific to Zika virus,” says Ross Chambers, Director of Integral Molecular’s antibody discovery team, adding that “we were able to isolate antibodies that overcome the challenges of cross-reactivity and that potently neutralize the virus at nanomolar concentrations.”

These antibodies were presented at the American Society of Tropical Medicine and Hygiene conference (November 13-16, 2016). Integral Molecular’s work on Zika virus was also recently highlighted in a November article published in the journal Nature.


About Integral Molecular

Integral Molecular is a research-driven biotechnology company creating innovative technologies and a pipeline of therapeutic antibodies against under-exploited membrane protein targets, including GPCRs, ion channels, transporters, and viral envelopes. This platform is built on the company’s Lipoparticle and Shotgun Mutagenesis technologies and over 15 years of experience optimizing membrane proteins, enabling the isolation, characterization, and engineering of monoclonal antibodies against otherwise intractable membrane protein targets. Integral Molecular discovers antibodies for partners in parallel with its own independent work developing antibodies for licensing. The company currently has therapeutic programs focused on pain, immunity, and infectious diseases.

Antibody Protects Against Fetal Disease in Mouse Model of Zika Infection

Administering a human antibody that neutralizes Zika virus to pregnant mice before or after Zika virus infection reduced levels of the virus in placental and fetal tissues and decreased fetal disease, new findings show. The work may aid development of vaccines and therapies for Zika virus infection, which can cause severe birth defects when it occurs during pregnancy.

The study was funded by the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health, and conducted by scientists at Vanderbilt University, Washington University School of Medicine and Integral Molecular, a Philadelphia biotechnology company.

The researchers isolated immune B cells from the blood of three people with prior Zika virus infections, generated antibodies from these cells and characterized antibodies that bind to Zika virus proteins. One antibody, named ZIKV-117, neutralized all strains of Zika virus tested, including African, Asian and American lineages. Male mice that received a single dose of ZIKV-117 even five days after Zika infection were more likely to survive than those given a control antibody, suggesting that ZIKV-117 could treat active Zika infection.

The researchers next found that ZIKV-117 had protective effects during pregnancy. Pregnant mice that received the antibody and were then infected with Zika virus had lower levels of Zika virus in their blood and brain tissues than mice not treated with ZIKV-117. Among the treated mice, the scientists found protective levels of ZIKV-117 in fetal tissues and markedly reduced levels of virus in the placenta and the fetal brain. Taken together, these findings suggest that ZIKV-117 may reduce mother-to-fetus virus transmission and also neutralize Zika virus that reaches the fetus. The researchers saw similar effects when they administered ZIKV-117 to pregnant mice immediately after the animals were infected with Zika virus. The reduced viral loads were associated with less placental injury and larger fetus size.

Although more preclinical work is needed before establishing whether anti-Zika antibodies can reduce Zika complications and disease severity in humans, the results suggest that ZIKV-117 or similar antibodies could be developed to protect pregnant women and others. In addition, the findings may inform the design of vaccines that elicit protective neutralizing antibodies against Zika virus.

About the National Institutes of Health (NIH): NIH, the nation’s medical research agency, includes 27 Institutes and Centers and is a component of the U.S. Department of Health and Human Services. NIH is the primary federal agency conducting and supporting basic, clinical, and translational medical research, and is investigating the causes, treatments, and cures for both common and rare diseases. For more information about NIH and its programs, visit http://www.nih.gov.

Integral Molecular Launches Target Specificity Technology to Improve Safety of Biotherapeutics

Integral Molecular announces the launch of the Membrane Proteome Array (MPA), a rapid and reliable platform for de-risking therapeutic development by profiling the target specificity of antibodies and other biologics.

Off-target drug binding accounts for half of all safety failures during clinical drug development. The MPA reduces this risk by testing biotherapeutic candidates for off-target binding early in the development process, potentially saving millions of dollars and increasing patient safety. This high-throughput technology determines the reactivity of antibodies against nearly the complete human membrane proteome (4,500 different membrane proteins, each individually expressed in human cells), allowing rapid screening of anything from entire antibody lead panels to individual preclinical candidates.

“We are extremely excited to announce the MPA, a technology founded on Integral Molecular’s fifteen years of membrane protein experience,” says Integral Molecular CEO, Benjamin Doranz, adding that “the sensitivity of this technology allows detection of low-level off-target binding, de-risking the selection of lead candidates.”

The MPA has already been used to de-risk the development of internal and partner antibodies by identifying off-target binding that could cause patient side-effects, thereby informing final lead selection in therapeutic antibody programs. In addition, the MPA is currently being used to identify the targets of orphan antibodies and protein ligands, resulting in new intellectual property, novel therapeutic targets, and new disease biomarkers. The MPA will be presented this week at the Discovery on Target conference in Boston (September 19-22, 2016).

About Integral Molecular
Integral Molecular is a research-driven biotechnology company creating a pipeline of therapeutic antibodies against under-exploited membrane protein targets, including GPCRs, ion channels, transporters, and viral envelope proteins, using its proprietary MPS Discovery Engine®. This platform is built on the company’s Lipoparticle and Shotgun Mutagenesis technologies and over 15 years of experience optimizing membrane proteins, enabling the isolation, characterization, and engineering of monoclonal antibodies against otherwise intractable membrane protein targets. Integral Molecular discovers antibodies for partners in parallel with its own independent work developing antibodies for licensing. The company currently has therapeutic programs focused on pain, immunity, and infectious diseases.