PROTEONOMIX, INC. (OTC.BB:PROT), a biotechnology company focused on developing therapeutics based upon the use of human cells and their derivatives, has executed a joint venture agreement with a group of investors that will create a new stem cell treatment and research facility in the United Arab Emirates (U.A.E.). The Investor Group has committed to invest $5 million on or before September 10, 2010. The Joint Venture company, XGen Medical LLC (“XGen”), a Nevis Island limited liability company, will be owned 51% by Proteonomix and 49% by the Investor Group. Due to confidentiality and competitive reasons, the Investor Group has requested to remain anonymous for the present. The Investor Group is not related directly and/or indirectly to the Company, its management, its board of directors and/or its current shareholders.
The Investor Group assumes a variety of operational duties under the agreement, including some regulatory responsibility in the U.A.E., physician recruitment and cooperative management of the local entity. The Investor Group $5 million cash investment includes the purchase of $1 million of cellular material from Proteonomix.
Additionally, as part of the agreement, Proteonomix will license to XGen (the joint venture), both a use and treatment license in the UAE, as well as a license to manufacture the cellular material. The agreement also anticipates the formation of treatment facilities in other locations to be jointly agreed upon between the Company and the Investor Group. Each new facility would require the Investor Group to contribute a minimum investment of $5 million.
The agreement calls for Proteonomix, Inc., through its wholly owned subsidiary, StromaCel, Inc., to receive $ 7,500 per treated patient.
Additionally, the agreement calls for XGen, the joint venture, to market and distribute Proteoderm, including the Matrix NC-138 anti-aging products.
StemCells, Inc. (Nasdaq:STEM) reports the publication of new preclinical data demonstrating that the Company’s proprietary human neural stem cells restore lost motor function in mice with chronic spinal cord injury. This is the first published study to show that human neural stem cells can restore mobility even when administered at time points beyond the acute phase of trauma, suggesting the prospect of treating a much broader population of injured patients than previously demonstrated. This groundbreaking study, entitled “Human Neural Stem Cells Differentiate and Promote Locomotor Recovery in an Early Chronic Spinal Cord Injury NOD-scid Mouse Model,” was led by Dr. Aileen Anderson of the Sue and Bill Gross Stem Cell Research Center at the University of California, Irvine (UCI).
In this latest study, StemCells’ human neural stem cells were transplanted into mice 30 days after a spinal cord injury that results in hind limb paralysis. The transplanted mice demonstrated a significant and persistent recovery of walking ability in two separate tests of motor function when compared to control groups. These results are particularly significant because it is the first time that human neural stem cells have been shown to promote functional recovery in a chronic spinal cord injury setting, which is characterized as a point in time after injury in which inflammation has stabilized and behavioral recovery has reached a plateau. In humans, the chronic phase typically does not set in until several weeks or months following the injury.
StemCells, Inc. is engaged in the research, development, and commercialization of stem cell therapeutics and tools for use in stem cell-based research and drug discovery. In its therapeutic product development programs, StemCells is targeting diseases of the central nervous system and liver. StemCells’ lead product candidate, HuCNS-SC(R) cells (purified human neural stem cells), is in clinical development for the treatment of two fatal neurodegenerative disorders that primarily affect young children. StemCells also markets specialty cell culture products under the SC Proven(R) brand, and is developing stem cell-based assay platforms for use in pharmaceutical research, drug discovery and drug development. The Company has exclusive rights to approximately 55 issued or allowed U.S. patents and over 200 granted or allowed non-U.S. patents.
International Stem Cell Corporation (OTCBB:ISCO), recently reported that its stem cell therapeutic programs focused on protective, transparent corneas (CytoCor) in the front of the eye and the light-sensitive retinal tissue (CytoRet) in the back of the eye will be formalized into a new business unit, Cytovis. Together these programs will leverage external and internal development, regulatory and commercial expertise in cellular ophthalmology to form a focused portfolio of complementary product candidates designed to address high unmet medical needs with apparent pharmacoeconomic and quality of life benefits.
CytoCor is the brand name for ISCO�s corneal tissue that can be derived from the company�s proprietary parthenogenetic stem cells or commonly used embryonic stem cells. Research and development with partners Absorption Systems in the US, Sankara Nethralaya in India and Automation Partnership in the UK continues for the purpose of optimizing the tissue for transplantation in the 10 million people worldwide suffering from corneal vision impairment and as an alternative to the use of live animals and animal eyes in the $500+M market for safety testing of drugs, chemicals and consumer products. ISCO�s goal in the coming months is to establish funding and infrastructure in India for accelerated development of CytoCor for the therapeutic application and to advance and implement the chemical testing application with partners in the US and Europe.
International Stem Cell Corporation is a California-based biotechnology company focused on therapeutic and research products. ISCO’s core technology, parthenogenesis, results in creation of pluripotent human stem cells from unfertilized oocytes (eggs). These proprietary cells avoid ethical issues associated with use or destruction of viable human embryos and, unlike all other major stem cell types, can be immune matched and be a source of therapeutic cells with minimal rejection after transplantation into hundreds of millions of individuals across racial groups. ISCO also produces and markets specialized cells and growth media for therapeutic research worldwide through its subsidiary Lifeline Cell Technology, develops a line of cosmeceutical products via its subsidiary Lifeline Skin Care and advances novel human stem cell-based therapies where cells have been proven to be efficacious but traditional small molecule and protein therapeutics do not.
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