Scancell Holdings Plc, (AIM:SCLP), the developer of therapeutic cancer vaccines, would like to alert shareholders to the recent article “IgG4 subclass antibodies impair antitumor immunity in melanoma” in the peer reviewed cancer journal: The Journal of Clinical Investigation, published on 1 March 2013.

The new study published in The Journal of Clinical Investigation supports earlier studies by King’s College London that indicate that patients with the cancer, malignant melanoma, appear to elicit a weak antibody response to the tumour cells which appears to be relatively ineffective in combating the cancer and which may in effect switch off the immune system.

This study indicates that patients with malignant melanoma initiate a B cell immune response to produce an antibody called IgG4. IgG4 is considered a “weak” subclass of antibody and is thought to inhibit the production of other stronger antibodies such as IgG1, actually protecting the tumour cells from a more effective and aggressive attack from the patients’ immune system.

Scancell’s melanoma cancer vaccine SCIB1, which is currently in Part 2 of a Phase I/II clinical trial, works by activating the immune system through T cells rather than B cells. The Board believes that T cell activation is a more effective approach to treating patients with an immune system compromised in the manner found in those with malignant melanoma.

Dr Richard Goodfellow, joint Chief Executive Officer of Scancell, comments: “We believe that The Journal of Clinical Investigation paper supports Scancell’s approach to fighting cancers, such as malignant melanoma, where T cell activation appears to be the more effective route of combating this often fatal disease. Results from our Phase I/II clinical trial are expected at the end of this year.”

-ENDS-
 

For Further Information:

Dr Richard Goodfellow, Joint CEO, Scancell Holdings Plc
+ 44 (0) 74 2323 0497

Professor Lindy Durrant, Joint CEO, Scancell Holdings Plc
+ 44 (0) 74 2323 0497 

Simon Conway/Mo Noonan, FTI Consulting
+ 44 (0) 20 7831 3113

Annie Cheng, CFA Visible Value LLP
+ 44 (0) 74 2323 0497

Camilla Hume/Stephen Keys, Cenkos Securities plc
+ 44 (0) 20 7397 8900

About Scancell

Scancell is developing therapeutic vaccines for the treatment of cancer and infectious diseases based on its ImmunoBody® and Moditope™ technology platforms. Scancell’s first cancer vaccine SCIB1 is being developed for the treatment of melanoma and is in Phase 1/2 clinical trials. Preliminary evidence from Part 1 of the study showing that SCIB1 produced an immune response which might be associated with clinical benefit in patients with malignant melanoma was released in December 2012.

Treating cancer by vaccination allows small non-toxic doses of a vaccine to be administered to a patient, stimulating an immune response. Effective cancer vaccines need to target dendritic cells to stimulate both parts of the cellular immune system; the helper cell system where inflammation is stimulated at the tumour site; and the cytotoxic T-lymphocyte or CTL response where immune system cells are primed to recognise and kill specific cells.

A limitation of many cancer vaccines currently in development is that they cannot specifically target dendritic cells in vivo. Several groups have demonstrated successful vaccination by growing dendritic cells ex vivo, pulsing them with tumour antigens and re-infusing them. However, this procedure is patient specific, time consuming and expensive. Scancell has developed its breakthrough patent protected ImmunoBody® technology to overcome these limitations.

Scancell has also identified and patented a series of modified epitopes that stimulate the production of killer CD4 that destroy tumours without toxicity. The Directors believe that the Moditope™ platform could have a profound effect on the way that cancer vaccines are developed.

Scancell (AIM: SCLP), the developer of therapeutic cancer vaccines, announces that Michael Rippon, Non Executive Director, has resigned from the board of the Company with immediate effect.

David Evans, Non Executive Chairman, said "I would like to thank Mike for his many years of unstinting service to Scancell from its foundation to the present day and I wish him well in his retirement post Scancell."

-ENDS-
 

For Further Information:

Scancell Holdings Plc
David Evans, Non Executive Chairman     +44 (0) 7740084452
Dr Richard Goodfellow, Joint CEO            +44 (0) 74 2323 0 497

Visible Value LLP:               + 44 (0) 74 2323 0497
Annie Cheng, CFA                [email protected]

Cenkos Securities:             +44 (0) 20 7397 8900
Stephen Keys

About Scancell

Scancell is developing novel therapeutic vaccines for the treatment of cancer and infectious diseases based on its groundbreaking ImmunoBody® and Moditope™ technology platforms. Scancell's first cancer vaccine SCIB1 is being developed for the treatment of melanoma and is in Phase 2 clinical trials.

Treating cancer by vaccination allows small non-toxic doses of a vaccine to be administered to a patient, stimulating an immune response. Effective cancer vaccines need to target dendritic cells to stimulate both parts of the cellular immune system; the helper cell system where inflammation is stimulated at the tumour site; and the cytotoxic T-lymphocyte or CTL response where immune system cells are primed to recognise and kill specific cells.

A limitation of many cancer vaccines currently in development is that they cannot specifically target dendritic cells in vivo. Several groups have demonstrated successful vaccination by growing dendritic cells ex vivo, pulsing them with tumour antigens and re-infusing them. However, this procedure is patient specific, time consuming and expensive. Scancell has developed its breakthrough patent protected ImmunoBody® technology to overcome these limitations.

An ImmunoBody® is a human antibody or fusion protein engineered to express helper cell and CTL epitopes from tumour antigens over-expressed by cancer cells. Antibodies are ideal vectors for carrying T cell epitopes from tumour antigens as they have long half-lives and can effectively target dendritic cells via their Fc receptors, allowing efficient stimulation of both helper and CTL responses.

The Immunobody® technology can be adapted to provide the basis for treating any tumour type and may also be of potential utility in the development of vaccines against hepatitis, HIV and other chronic infectious diseases.

Scancell has also identified and patented a series of modified epitopes that stimulate the production of killer CD4 that destroy tumours without toxicity. The Directors believe that the Moditope™ platform could have a profound effect on the way that cancer vaccines are developed.

Scancell Holdings Plc, (AIM:SCLP), the developer of therapeutic cancer vaccines, is pleased to announce that a patent for its protein ImmunoBody® vaccine technology has been approved for grant in Japan. The patent has already been approved in the US, Europe and Australia.

Dr. Richard Goodfellow, Joint Chief Executive of Scancell, commented:

“This is a further important step in the development and commercialisation of the ImmunoBody® platform and provides further evidence to support the novelty of Scancell’s  ImmunoBody®  technology in another key pharmaceutical market.  Scancell will continue building its growing portfolio of intellectual property in parallel with driving the clinical trial programme on SCIB1 forward during 2013.”

The Directors of the issuer accept responsibility for this announcement.

-ENDS-

For Further Information: 

About Scancell

Scancell is developing therapeutic vaccines for the treatment of cancer based on its ImmunoBody® and Moditope™ technology platforms. Scancell’s first cancer vaccine SCIB1 is being developed for the treatment of melanoma and is in Phase 1/2 clinical trials. Preliminary evidence from Part 1 of the study showing that SCIB1 produced an immune response which might be associated with clinical benefit in patients with malignant melanoma was released in December 2012.

Treating cancer by vaccination allows small non-toxic doses of a vaccine to be administered to a patient, stimulating an immune response. Effective cancer vaccines need to target dendritic cells to stimulate both parts of the cellular immune system; the helper cell system where inflammation is stimulated at the tumour site; and the cytotoxic T-lymphocyte or CTL response where immune system cells are primed to recognise and kill specific cells.

A limitation of many cancer vaccines currently in development is that they cannot specifically target dendritic cells in vivo. Several groups have demonstrated successful vaccination by growing dendritic cells ex vivo, pulsing them with tumour antigens and re-infusing them. However, this procedure is patient specific, time consuming and expensive. Scancell has developed its breakthrough patent protected ImmunoBody® technology to overcome these limitations.

Scancell has also identified and patented a series of modified epitopes that stimulate the production of killer CD4 that destroy tumours without toxicity. The Directors believe that the Moditope™ platform could have a profound effect on the way that cancer vaccines are developed.

Scancell Holdings Plc, (AIM:SCLP), the developer of therapeutic cancer vaccines, today announces the recruitment and treatment of the final patient in the second part of its Phase 1/2 clinical trial of SCIB1, its DNA ImmunoBody® vaccine being developed for the treatment of melanoma. This part of the trial is being conducted in five UK centres in  patients with Stage III/IV disease to further assess the safety of treatment and to assess the cellular immune response induced by SCIB1. Patients  are being treated with a 4mg dose of SCIB1 on five occasions over a period of 6 months.  

In December 2012, Scancell released preliminary evidence from Part 1 of the study showing that SCIB1 produced an immune response which might be associated with clinical benefit in patients with malignant melanoma. Also in December 2012, Scancellannounced that the Gene Therapy Advisory Committee ('GTAC') and the Medicines and Healthcare products Regulatory Agency ('MHRA') Medicines Division had given their approval to dose an extra group of patients with a higher, 8 mg, dose of SCIB1. Scancell is planning to start treating patients with the 8mg dose shortly.

 Professor Lindy Durrant, Joint CEO of Scancell Holdings and Professor of Cancer Immunotherapy at Nottingham University, commented:

 "As expected, the recruitment of patients in the second part of the trial proceeded faster than recruitment for the first part of the trial, as we were not constrained by the cohort study design requiring sequential dose escalation, and there were more patients available with earlier stage disease. The recruitment and dosing of the final patient in Part 2 gives us confidence that this phase of the study will be completed by the end of 2013, consistent with previous expectations."

Dr Richard Goodfellow, Joint CEO  of Scancell Holdings, commented:

 "The SCIB1 clinical programme is progressing on schedule and, as previously announced, we expect the results for Part 2 of the study to be available by the end of 2013. 

The Directors of the issuer accept responsibility for this announcement.  

-ENDS-

For Further Information: 

The design  of the Phase 1/2 study

Part 1 of this Phase1/2 clinical trial was conducted in five UK centres in 11 patients with Stage III/IV malignant melanoma.  Patients were to be  given five doses of 0.4mg, 2mg or 4mg of SCIB1, delivered using the Ichor Medical Systems' TriGrid™ electroporation delivery device, over a period of six months at the start of the trial, as well as at three weeks, six weeks, three months, and six months after the initial dose.

As this was the first human trial of SCIB1, safety of each dose was assessed before patients were given a higher dose.

In view of the encouraging results and minimal side effects seen with the 4mg dose the Company intends to evaluate an 8mg dose in parallel with Part 2 of the Phase1/2 study.

Part 2 of the study is being conducted in 13 patients with resected Stage III/IV disease and is designed to further assess  the cellular immune response, safety and tolerability of the 4mg dose when given over a period of 6 months.

About Scancell

Scancell is developing therapeutic vaccines for the treatment of cancer and infectious diseases based on its ImmunoBody® and Moditope™ technology platforms. Scancell's first cancer vaccine SCIB1 is being developed for the treatment of melanoma and is in Phase 1/2 clinical trials. Preliminary evidence from Part 1 of the study showing that SCIB1 produced an immune response which might be associated with clinical benefit in patients with malignant melanoma was released in December 2012.

Treating cancer by vaccination allows small non-toxic doses of a vaccine to be administered to a patient, stimulating an immune response. Effective cancer vaccines need to target dendritic cells to stimulate both parts of the cellular immune system; the helper cell system where inflammation is stimulated at the tumour site; and the cytotoxic T-lymphocyte or CTL response where immune system cells are primed to recognise and kill specific cells.

A limitation of many cancer vaccines currently in development is that they cannot specifically target dendritic cells in vivo. Several groups have demonstrated successful vaccination by growing dendritic cells ex vivo, pulsing them with tumour antigens and re-infusing them. However, this procedure is patient specific, time consuming and expensive. Scancell has developed its breakthrough patent protected ImmunoBody® technology to overcome these limitations.

Scancell has also identified and patented a series of modified epitopes that stimulate the production of killer CD4 that destroy tumours without toxicity. The Directors believe that the Moditope™ platform could have a profound effect on the way that cancer vaccines are developed.

Scancell Holdings Plc, (AIM:SCLP), the developer of therapeutic cancer vaccines, is pleased to announce that the Gene Therapy Advisory Committee (‘GTAC’) and the Medicines and Healthcare products Regulatory Agency (‘MHRA’) Medicines Division have given their approval to dose an extra group of patients with a higher, 8 mg, dose of SCIB1, its DNA ImmunoBody® vaccine being developed for the treatment of melanoma.

The new cohort will recruit up to six more patients and will be recruited in parallel with the patients being recruited into Part 2 of the study.  Patients with metastatic tumour present may enter the new cohort so that their tumour response can be assessed, whereas patients who have had their tumours surgically removed may enter Part 2.  In addition, Scancell’s partner Ichor Medical Systems (‘Ichor’) has obtained the required parallel approval from the MHRA Devices Division for the use of Ichor’s TriGrid™ electroporation delivery device to administer SCIB1 to this additional group of patients.

Scancell is planning to start treating patients with the 8mg dose in the new year.

This update follows the announcement made by Scancell on 6th December 2012, of preliminary results from Part 1 of the Phase 1/2 clinical trial of SCIB1 in patients with Stage III/IV malignant melanoma. In view of the encouraging results and minimal side effects seen with the 4mg dose, the Company stated that it intended to evaluate an 8mg dose in parallel with Part 2 of the Phase1/2 study

Part 2 of the study continues to be on track to be completed by the end of 2013. A successful outcome, if achieved, would confirm the potential of SCIB1 as a new cancer treatment as well as validating the Immunobody® platform technology.

Prof. Lindy Durrant, Joint CEO of Scancell, commented:

“This approval from GTAC and MHRA provides Scancell   with the opportunity to determine whether a higher dose of SCIB1 would be even more effective in inducing immune response and clinical benefit in late stage melanoma patients.”

The Directors of the issuer accept responsibility for this announcement.

-ENDS-

For Further Information: 

The design  of the Phase 1/2 study

Part 1 of this Phase1/2 clinical trial was conducted in five UK centres in 11 patients with Stage III/IV malignant melanoma.  Patients were to be  given five doses of 0.4mg, 2mg or 4mg of SCIB1, delivered using the Ichor Medical Systems’ TriGrid™ electroporation delivery device, over a period of six months at the start of the trial, as well as at three weeks, six weeks, three months, and six months after the initial dose.

As this was the first human trial of SCIB1, safety of each dose was assessed before patients were given a higher dose.

In view of the positive results and minimal side effects seen with the 4mg dose the Company intends to evaluate an 8mg dose in parallel with Part 2 of the Phase1/2 study.

Part 2 of the study is being conducted in 13 patients with resected Stage III/IV disease and is designed to further assess  the cellular immune response, safety and tolerability of the 4mg dose when given over a period of 6 months.

About Scancell

Scancell is developing therapeutic vaccines for the treatment of cancer and infectious diseases based on its ImmunoBody® and Moditope™ technology platforms. Scancell’s first cancer vaccine SCIB1 is being developed for the treatment of melanoma and is in Phase 1/2 clinical trials. Preliminary evidence from Part 1 of the study showing that SCIB1 produced an immune response which might be associated with clinical benefit in patients with malignant melanoma was released in December 2012.

Treating cancer by vaccination allows small non-toxic doses of a vaccine to be administered to a patient, stimulating an immune response. Effective cancer vaccines need to target dendritic cells to stimulate both parts of the cellular immune system; the helper cell system where inflammation is stimulated at the tumour site; and the cytotoxic T-lymphocyte or CTL response where immune system cells are primed to recognise and kill specific cells.

A limitation of many cancer vaccines currently in development is that they cannot specifically target dendritic cells in vivo. Several groups have demonstrated successful vaccination by growing dendritic cells ex vivo, pulsing them with tumour antigens and re-infusing them. However, this procedure is patient specific, time consuming and expensive. Scancell has developed its breakthrough patent protected ImmunoBody® technology to overcome these limitations.

Scancell has also identified and patented a series of modified epitopes that stimulate the production of killer CD4 that destroy tumours without toxicity. The Directors believe that the Moditope™ platform could have a profound effect on the way that cancer vaccines are developed.

Scancell Holdings Plc, (AIM:SCLP), the developer of therapeutic cancer vaccines, announces the resignation of Nigel Evans, a Director on the Company’s Board of Directors and Company Secretary, effective 11 December 2012.

The Board intends to make a new appointment and will make an announcement in due course.

David Evans, Chairman of Scancell, commented: "I would like to thank Nigel for his important contribution to Scancell over many years. Nigel, in his role as Executive Chairman of the Company from 2000-2007 played a critical role in development of the company at a particularly turbulent time in its history. More recently Nigel has given steadfast support to the Company both as Board Director and as Company Secretary and we wish him well in his retirement.

The Directors of the issuer accept responsibility for this announcement.

-ENDS-

For Further Information:

About Scancell

Scancell is developing therapeutic vaccines for the treatment of cancer and infectious diseases based on its ImmunoBody® and Moditope™ technology platforms. Scancell’s first cancer vaccine SCIB1 is being developed for the treatment of melanoma and is in Phase 1/2 clinical trials.

Treating cancer by vaccination allows small non-toxic doses of a vaccine to be administered to a patient, stimulating an immune response. Effective cancer vaccines need to target dendritic cells to stimulate both parts of the cellular immune system; the helper cell system where inflammation is stimulated at the tumour site; and the cytotoxic T-lymphocyte or CTL response where immune system cells are primed to recognise and kill specific cells.

A limitation of many cancer vaccines currently in development is that they cannot specifically target dendritic cells in vivo. Several groups have demonstrated successful vaccination by growing dendritic cells ex vivo, pulsing them with tumour antigens and re-infusing them. However, this procedure is patient specific, time consuming and expensive. Scancell has developed its breakthrough patent protected ImmunoBody® technology to overcome these limitations.

Scancell has also identified and patented a series of modified epitopes that stimulate the production of killer CD4 that destroy tumours without toxicity. The Directors believe that the Moditope™ platform could have a profound effect on the way that cancer vaccines are developed.

Scancell Holdings Plc, (AIM:SCLP), the developer of therapeutic cancer vaccines, is pleased to announce preliminary results from Part 1 of the Phase 1/2 clinical trial of its DNA ImmunoBody® vaccine in patients with Stage III/IV malignant melanoma. Of the six patients allocated to the 2mg and 4mg dose cohorts and who received at least four doses of SCIB1, four have shown a vaccine-induced T cell response to treatment.

Although the study was not designed primarily to measure tumour response, one patient in the 4mg dose cohort with multiple tumour lesions at study entry had a differential response to treatment including partial or complete regression of all lung metastases. A further two patients who had all their tumours surgically removed prior to SCIB1 treatment have remained disease-free more than a year after first dosing. The vaccine produced very few side effects, none of which were serious.

These encouraging results provide the first evidence that Scancell’s ImmunoBody® vaccine approach is producing an immune response in cancer patients which may also be associated with clinical benefit. In view of the positive results and minimal side effects seen with the 4mg dose the Company intends to evaluate an 8mg dose in parallel with Part 2 of the Phase1/2 study.

The first part of this Phase 1/2 clinical trial was conducted in five UK centres in 11 patients, ten with stage IV and one with Stage III malignant melanoma. Patients were to be given five doses of 0.4mg, 2mg or 4mg of SCIB1, delivered by Ichor Medical Systems’ TriGrid™ electroporation delivery device, over a period of six months. One patient in the 0.4mg dose group and one in the 4mg dose group who received only a single dose of SCIB1 were withdrawn from the study due to progressive disease shortly after study entry and were replaced to ensure that at least three patients in each dose cohort could be fully evaluated for immune response. During the course of the study regulatory approval was granted to increase the SCIB1 dose from 2mg to 4mg in patients in the 2mg cohort, if the vaccine was well tolerated. Two patients in this group received two 4mg doses of SCIB1 and one patient received a single 4mg dose.

Clinical response

Three of the four patients in the 4mg cohort are still alive and one remains disease-free more than a year after starting treatment. The fourth patient progressed and died too soon after first dosing for any effect to be seen. Two out of the three patients in the 2/4mg cohort are still alive and one remains disease-free more than a year after starting treatment. The third patient died of progressive disease after 63 weeks. Three out of four patients in the 0.4mg dose group have died. The fourth patient is still alive 27 months after starting treatment.

One patient in the 4mg dose group had a long history of metastatic disease and multiple tumour lesions present at the start of treatment (including several in her lungs), all of which decreased in size or disappeared completely following six months of treatment with SCIB1 except for one abdominal tumour nodule which increased in size and which will be resected. This "differential response" pattern is typical of immunotherapeutic agents and is the first signal that SCIB1 may be having an impact on the course of the disease as well as inducing an immune response.

Two further patients on SCIB1 remain disease-free more than one year after treatment started. The first patient had a history of gradual disease progression in the six months prior to study entry, including the development of multiple tumour nodules, which were excised prior to study treatment. This patient was dosed five times with 4mg SCIB1 and had no tumour present at study entry so could not be evaluated for tumour response but is still disease-free 15 months after first dosing and 18 months after the last tumour surgery. The second patient (in the 2/4mg cohort), who also received two 4mg doses at three and six months after the start of dosing, was entered into the study after all recurrent tumour had been resected and remains disease-free, 17 months after first dosing and 23 months after the last tumour excision. Whilst these results are promising it should be emphasised that they will have to be confirmed in larger, controlled studies in due course.

Immune response

All three patients in the 2/4mg dose cohort and one patient in the 4mg dose cohort produced an immune response to the melanoma specific epitopes in SCIB1. Only one of the patients in the lowest dose group showed any immune response to treatment.

Immune response was measured by peptide-specific proliferation that was at least twice the background control at each time point and at least twice the pre-treatment control value on two or more of the six time points measured. The patient with the differential clinical response was also assessed using a cultured enzyme-linked immunosorbent (ELISPOT) assay and made a strong response to the melanoma TRP-2 antigen.

These preliminary results suggest that therapeutic vaccination with SCIB1 induces specific immune responses that may lead to clinical benefit. In view of the positive results and minimal side effects seen with the 4mg dose the Company intends to evaluate an 8mg dose in a further cohort of three to six patients with evaluable disease, thereby permitting an assessment of the safety and immunogenicity of an increased dose of SCIB1 in addition to the effect of this higher dose on tumour burden. This additional cohort will be evaluated in parallel with the second part of the Phase 1/2 study which is primarily designed to assess the effect of the 4mg dose on immune response in patients who have had all tumour removed prior to treatment.

Prof Lindy Durrant, Joint CEO of Scancell Holdings and Professor of Cancer Immunotherapy at Nottingham University, commented: “These preliminary results show for the first time that Scancell’s ImmunoBody® vaccine, SCIB1, can elicit melanoma-specific immune responses in patients that appear to be associated with clinical benefit and provides clinical validation for the ImmunoBody® approach. The assessment of a higher dose in patients with evaluable disease and the further assessment of immune responses in Part 2 of the Phase 1/2 trial should provide further evidence to support the use of ImmunoBody® vaccines for the treatment of cancer”.

Prof Poulam Patel, Principle Investigator and Prof of Clinical Oncology at the University of Nottingham, commented: “ I am pleased that we have successfully completed the first part of this study and that we have seen measurable immune responses in patients. I am particularly interested in the shrinkage of the tumours we have seen in a patient with lung secondaries and look forward to seeing the results of the next part of the study,”

Leading oncologist Karol Sikora, Professor of Cancer Medicine and external assessor to Scancell commented: “The positive immune response data and impressive clinical response in the patient with multiple lung metastases is encouraging news for patients with malignant melanoma. The temporal relationship of the disappearance of the lung metastases in this patient is very suggestive of the effective immune destruction of the cancer. I look forward to seeing the results of the ongoing studies and in particular whether a higher dose of SCIB1 will confirm the impact of SCIB1 on active disease.”

Dr Richard Goodfellow, Joint CEO of Scancell Holdings, commented: " This is a defining moment for Scancell. These preliminary yet encouraging results provide the first clinical endorsement for the groundbreaking cancer vaccine research undertaken by Scancell under the scientific leadership of Prof Durrant. We will continue to gather additional longer term data on these patients and those in Part 2 of the study during 2013.”

The Directors of the issuer accept responsibility for this announcement.

-ENDS-

For Further Information:

Dr Richard Goodfellow, Joint CEO Scancell Holdings Plc + 44 (0) 74 2323 0497   
Professor Lindy Durrant, Joint CEO  Scancell Holdings Plc + 44 (0) 74 2323 0497

Annie Cheng, CFA Visible Value LLP + 44 (0) 74 2323 0497

Camilla Hume/Stephen Keys Cenkos + 44 (0) 20 7397 8900

The design of the Phase 1/2 study

Part 1 of this Phase1/2 clinical trial was conducted in five UK centres in 11 patients with Stage III/IV malignant melanoma. Patients were to be given five doses of 0.4mg, 2mg or 4mg of SCIB1, delivered using the Ichor Medical Systems’ TriGrid™ electroporation delivery device, over a period of six months at the start of the trial, as well as at three weeks, six weeks, three months, and six months after the initial dose.

As this was the first human trial of SCIB1, safety of each dose was assessed before patients were given a higher dose.

In view of the positive results and minimal side effects seen with the 4mg dose the Company intends to evaluate an 8mg dose in parallel with Part 2 of the Phase1/2 study.

Part 2 of the study is being conducted in 13 patients with resected Stage III/IV disease and is designed to further assess the cellular immune response, safety and tolerability of the 4mg dose when given over a period of 6 months.

About SCIB1

SCIB1 is a plasmid DNA which encodes a human antibody molecule engineered to express a melanoma antigen called Tyrosinase-Related Protein 2 (TRP2) plus two helper T cell epitopes. Following immunisation, the engineered antibody will be expressed and be taken up by dendritic cells, resulting in the development of immune responses against tumour cells expressing the TRP2 antigen.

SCIB1 was designed so that the Fc component of the engineered antibody will be recognised by the high affinity CD64 receptor present on dendritic cells, leading to a significant enhancement of both the frequency and avidity of the T cell immune response. The induction of high avidity T cells against TRP-2 is expected to lead to the inhibition and regression of both primary and metastatic tumour growth.

About ImmunoBody®

An ImmunoBody® is a human antibody or fusion protein engineered to express helper cell and CTL epitopes from tumour antigens over-expressed by cancer cells. Antibodies are ideal vectors for carrying T cell epitopes from tumour antigens as they have long half-lives and can effectively target dendritic cells via their Fc receptors, allowing efficient stimulation of both helper and CTL responses.

The Immunobody® technology can be adapted to provide the basis for treating any tumour type and may also be of potential utility in the development of vaccines against hepatitis, HIV and other chronic infectious diseases.

About Scancell

Scancell is developing therapeutic vaccines for the treatment of cancer and infectious diseases based on its ImmunoBody® and Moditope™ technology platforms. Scancell’s first cancer vaccine SCIB1 is being developed for the treatment of melanoma and is in Phase 1/2 clinical trials.

Treating cancer by vaccination allows small non-toxic doses of a vaccine to be administered to a patient, stimulating an immune response. Effective cancer vaccines need to target dendritic cells to stimulate both parts of the cellular immune system; the helper cell system where inflammation is stimulated at the tumour site; and the cytotoxic T-lymphocyte or CTL response where immune system cells are primed to recognise and kill specific cells.

A limitation of many cancer vaccines currently in development is that they cannot specifically target dendritic cells in vivo. Several groups have demonstrated successful vaccination by growing dendritic cells ex vivo, pulsing them with tumour antigens and re-infusing them. However, this procedure is patient specific, time consuming and expensive. Scancell has developed its breakthrough patent protected ImmunoBody® technology to overcome these limitations.

Scancell has also identified and patented a series of modified epitopes that stimulate the production of killer CD4 that destroy tumours without toxicity. The Directors believe that the Moditope™ platform could have a profound effect on the way that cancer vaccines are developed.

Scancell Holdings Plc, (AIM: SCLP), the developer of therapeutic cancer vaccines, announces that at the Annual General Meeting, held yesterday, all resolutions were duly passed.

About Scancell

Scancell is developing therapeutic vaccines for the treatment of cancer and infectious diseases based on its ImmunoBody® and Moditope™ technology platforms. Scancell's first cancer vaccine SCIB1 is being developed for the treatment of melanoma.

Treating cancer by vaccination allows small non-toxic doses of a vaccine to be administered to a patient, stimulating an immune response. Effective cancer vaccines need to target dendritic cells to stimulate both parts of the cellular immune system; the helper cell system where inflammation is stimulated at the tumour site; and the cytotoxic T-lymphocyte or CTL response where immune system cells are primed to recognise and kill specific cells.

A limitation of many cancer vaccines currently in development is that they cannot specifically target dendritic cells in vivo. Several groups have demonstrated successful vaccination by growing dendritic cells ex vivo, pulsing them with tumour antigens and re-infusing them. However, this procedure is patient specific, time consuming and expensive. Scancell has developed its breakthrough patent protected ImmunoBody® technology to overcome these limitations.

Scancell has also identified and patented a series of modified epitopes that stimulate the production of killer CD4 that destroy tumours without toxicity. The Directors believe that the Moditope™ platform could have a profound effect on the way that cancer vaccines are developed.

The Directors of the issuer accept responsibility for this announcement.

-ENDS-

Scancell (AIM: SCLP), the developer of therapeutic cancer vaccines, is pleased to announce that its results for the year ended 30 April 2012 will be released on 12 October 2012.

The board of Directors of the Company also notes the rise in the Company's share price. The Directors are not aware of any reason that would lead to such a movement in its price.

For Further Information: 

About Scancell 

Scancell is developing novel therapeutic vaccines for the treatment of cancer and infectious diseases based on its groundbreaking ImmunoBody® and Moditope™ technology platforms. Scancell's first cancer vaccine SCIB1 is being developed for the treatment of melanoma and is in Phase 2 clinical trials. 

Treating cancer by vaccination allows small non-toxic doses of a vaccine to be administered to a patient, stimulating an immune response. Effective cancer vaccines need to target dendritic cells to stimulate both parts of the cellular immune system; the helper cell system where inflammation is stimulated at the tumour site; and the cytotoxic T-lymphocyte or CTL response where immune system cells are primed to recognise and kill specific cells.

A limitation of many cancer vaccines currently in development is that they cannot specifically target dendritic cells in vivo. Several groups have demonstrated successful vaccination by growing dendritic cells ex vivo, pulsing them with tumour antigens and re-infusing them. However, this procedure is patient specific, time consuming and expensive. Scancell has developed its breakthrough patent protected ImmunoBody® technology to overcome these limitations.

An ImmunoBody® is a human antibody or fusion protein engineered to express helper cell and CTL epitopes from tumour antigens over-expressed by cancer cells. Antibodies are ideal vectors for carrying T cell epitopes from tumour antigens as they have long half-lives and can effectively target dendritic cells via their Fc receptors, allowing efficient stimulation of both helper and CTL responses.

The Immunobody® technology can be adapted to provide the basis for treating any tumour type and may also be of potential utility in the development of vaccines against hepatitis, HIV and other chronic infectious diseases.

Scancell has also identified and patented a series of modified epitopes that stimulate the production of killer CD4 that destroy tumours without toxicity. The Directors believe that the Moditope™ platform could have a profound effect on the way that cancer vaccines are developed.

Scancell (AIM: SCLP), the developer of therapeutic cancer vaccines, was notified on 6 October 2012 that Helium Special Situations Fund holds 9,225,000 ordinary shares in the Company representing  4.7% of the Company's voting share capital.

For Further Information: 

About Scancell 

Scancell is developing novel therapeutic vaccines for the treatment of cancer and infectious diseases based on its groundbreaking ImmunoBody® and Moditope™ technology platforms. Scancell's first cancer vaccine SCIB1 is being developed for the treatment of melanoma and is in Phase 2 clinical trials. 

Treating cancer by vaccination allows small non-toxic doses of a vaccine to be administered to a patient, stimulating an immune response. Effective cancer vaccines need to target dendritic cells to stimulate both parts of the cellular immune system; the helper cell system where inflammation is stimulated at the tumour site; and the cytotoxic T-lymphocyte or CTL response where immune system cells are primed to recognise and kill specific cells.

A limitation of many cancer vaccines currently in development is that they cannot specifically target dendritic cells in vivo. Several groups have demonstrated successful vaccination by growing dendritic cells ex vivo, pulsing them with tumour antigens and re-infusing them. However, this procedure is patient specific, time consuming and expensive. Scancell has developed its breakthrough patent protected ImmunoBody® technology to overcome these limitations.

An ImmunoBody® is a human antibody or fusion protein engineered to express helper cell and CTL epitopes from tumour antigens over-expressed by cancer cells. Antibodies are ideal vectors for carrying T cell epitopes from tumour antigens as they have long half-lives and can effectively target dendritic cells via their Fc receptors, allowing efficient stimulation of both helper and CTL responses.

The Immunobody® technology can be adapted to provide the basis for treating any tumour type and may also be of potential utility in the development of vaccines against hepatitis, HIV and other chronic infectious diseases.

Scancell has also identified and patented a series of modified epitopes that stimulate the production of killer CD4 that destroy tumours without toxicity. The Directors believe that the Moditope™ platform could have a profound effect on the way that cancer vaccines are developed.