JM

Jonathan Milner

Entrepreneur

Greater Cambridge Area

Invests in

Stages:

  • Min Investment:

    $5,000.00
  • Max Investment:

    $50,000.00
  • Target Investment:

    $25,000.00

Work Experience

  • Investor

    2018

    LIfT BioSciences is a socially-minded Biotech start-up developing The World's First Cell Bank of Cancer Killing Neutrophils (a type of white blood cell) to destroy all solid tumours, irrespective of strain or mutation. The Cell Bank will enable us to provide a range of potentially life-saving immuno-oncology cell therapies for different solid tumour types. Our innate immunity platform is known as Neutrophil only Leukocyte Infusion Therapy (N-LIfT), a first-in-class patented cell therapy. N-LIfT is produced ex-vivo and benefits from being more scalable with potentially better and more consistent efficacy and safety than other forms of leukocyte infusion

2018

  • Investor

    2018

    SolasCure’s mission is to support healthcare professionals with wound care products that significantly improve the health and wellbeing of patients with chronic wounds.

2017

  • Investor

    2017

    Gelmetix Ltd, Manchester, UK, is introducing a novel, non-surgical procedure for the treatment of Chronic Lower Back Pain (CLBP) caused by Degenerative Disc Disease (DDD). Gelmetix, originating from the University of Manchester, develops a novel approach which addresses DDD at an early stage before the onset of irreversible disc degeneration of both the nucleus pulposus and annulus fibrosis material.

  • Lead Investor

    2017

    More than 170 million people in the world are living with neurodegenerative diseases or coronary heart disease. As our society ages, this number will double during the next 20 years. Despite two decades of intensive research, no drugs have been approved that can reverse the symptoms of these diseases. Recent discoveries by several academic research teams have highlighted the role of the cellular energy system in age-related diseases. A common finding is the detection of an increased level of mutations in mitochondrial DNA (mtDNA). When this damage rises above a critical threshold, mitochondria are no longer able to provide sufficient energy to sustain the normal healthy functioning of the cell. Mitochondrial gene shifting – reversing the progression of mtDNA damage – represents a new therapeutic opportunity. Shift Bioscience is a UK biotechnology firm that is creating new drug targets and diagnostic tools to enhance healthy lifespan through the repair of mitochondrial genes.

  • Lead Investor

    2017

    Psyomics aims to deliver better outcomes in mental health through prevention, early diagnosis and personalised intervention. Prevention – Digital solutions to empower individuals to take the right positive action to improve their own mental health and wellbeing. Diagnosis – Developing proteomic diagnostics to improve early diagnosis and treatment outcomes for those with neuropsychiatric disorders including depression and bipolar disorder. Discovery tools – Providing digital and biological patient stratification tools to support clinical trials for new psychiatric treatments.

  • Investor

    2017

    Elpis Biomed/BitBio aims to become a leading, global supplier of in vitro cell types for academic research and commercial drug discovery & development purposes. The cells could provide an alternative to the limited supply of primary cells and replace animal studies in other cases. BitBio/Elpis Biomed’s proprietary technology allows rapid generation of highly mature, differentiated cell types at unmatched purity. The process is scalable with the potential to expand product offering with additional cell-types in the neuro-mesoderm focus area. Initial products will be cortical neurons, oligodendrocytes and skeletal muscle cells to be sold to academic research groups and pharma/biotech customers.

2016

  • Investor

    2016

    DefiniGEN are a Cambridge UK company providing highly functional human cell products including liver, pancreas, lung, and intestinal cells plus custom services for drug discovery and disease model generation. Our proprietary platform technology OptiDIFF delivers our products and custom services including induced Pluripotent Stem Cell (iPSC) generation, CRISPR-CAS9 gene editing,iPSC differentiation and custom disease model development.

  • Investor

    2016 - 2023

    DefiniGEN was founded in April 2012 to industrialize the OptiDIFF stem cell production platform developed at the University of Cambridge, UK. The company has world-leading expertise in the area of iPSC production and metabolic disease modelling. The application of these technologies in drug discovery provides pharmaceutical companies with more predictive in vitro cell products enabling the development of safer and more effective treatments. In addition the technology platform utilises fully defined and humanized conditions required for the development of regenerative medicine cellular therapies. DefiniGEN builds on intellectual property and knowledge resident at the University of Cambridge Regenerative Medicine Department at Addenbrooke’s Hospital and in addition has in-licensed the Yamanka induced pluripotent stem cell IP portfolio from iPS Academia Japan Inc.

  • Co Founder

    2016

    The Consortium will initially operate from the Wellcome Trust/Cancer Research UK Gurdon Institute, but will move into the Milner Institute in early 2018. The Milner Therapeutics Institute One of the major aims of the Institute will be to help understand how drugs work and to push forward new ideas and technologies to improve the development of novel therapies. A major, but not exclusive, focus of the Institute will be cancer. It is envisaged that the Milner Institute will be equipped with core facilities, such as high-throughput screening of small molecules against cell lines, organoids (‘mini organs’) and tumour biopsies, as well as bioinformatics support to help scientists deal with large datasets. Its facilities will be available to researchers working on collaborative projects within the Therapeutics Consortium and, capacity permitting, to other scientists and clinicians within the Cambridge community. In addition, the Milner Institute will have space for senior and junior scientists to set up independent research groups. There will also be associated faculty positions, which will be taken up by scientists in different departments, whose research and expertise will benefit from a close association with the Milner Institute. The Milner Institute will be housed within the new Capella building, alongside the relocated Wellcome Trust/MRC Cambridge Stem Cell Institute, a new Centre for Blood & Leukaemia Research, and a new Centre for Immunology & Immunotherapeutics. Jonathan Milner, whose donation has made the Milner Therapeutics Institute possible, is a former member of Tony Kouzarides’ research group and experienced entrepreneur. - See more at: https://www.cam.ac.uk/research/news/cambridge-researchers-and-pharma-in-innovative-new-consortium-to-develop-and-study-early-stage-drugs#sthash.gko3rT1x.dpuf

  • Non Executive Director

    2015

    PhoreMost is a new-model drug discovery company based in Cambridge, UK: Using its core expertise to open up new ‘druggable’ target space and working with a global network of co-invested academic and industrial collaboration partners, we aim to bring a wide array of novel ‘targeted’ therapies more efficiently to market and pass these cost savings onto patients.

  • Co Founder

    2015

    The University of Bath has founded the Milner Centre for Evolution, a unique cross-faculty research centre bridging biology, health and education. Core objectives of the new Centre 1. Asking the big evolutionary questions Evolutionary biology underpins the whole of the Life Sciences. Through the new centre, we aim to understand how and why species change over time. We will develop our understanding of what it means to be human by addressing broad evolutionary questions, such as: Why do we have about the same number of genes as a worm but many fewer than rice? Given our modest number of genes, why do we have such a large amount of DNA? Can we predict which species are likely to survive a mass extinction? 2. Finding new technological and clinical research applications Applied evolutionary research focuses on developing tools to tackle real-life challenges, like tracking bacterial disease epidemics in real time and improving agriculturally important animals and plants. The ability to respond to urgent questions has never been more important than in our rapidly changing environmental climate. By better understanding evolution, we can make more informed decisions and use research to guide policy; for example, around optimised use of antibiotics or improved nutritional advice. 3. Taking evolutionary research into the community Evolutionary biology has a unique and popular appeal and touches upon issues of philosophical and imaginative interest. It tells the story of our own origins and offers a window into humanity's future. Our aim is to provide world-leading public communication of evolutionary science. We will work directly with schools to improve evolution teaching and will actively engage in the public debate on evolutionary issues.