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“Gene-Editing” Produces GMOs That Must Be Regulated

The EU is considering the exclusion of gene-edited plants and animals from GM regulations.

Just like traditional genetic engineering, gene-editing techniques can cause unintended alterations in DNA. (Image: GMO seeds via Shutterstock)

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The EU is considering the exclusion of gene-edited plants and animals from GM regulations. However, gene-edited organisms clearly fall within the definition of GMOs in both European and international law. They also present real risks to the environment and human health – and must be regulated like any other GMOs.

There has been a lot in the news recently about the ethics of gene editing in humans.

But, as yet largely unnoticed is that the European Commission is considering whether the gene-editing of plants and animals, for example in agriculture, be exempted from regulation or even falls outside the scope of EU law governing genetically modified organisms (GMOs).

In other words, whether the products of gene-editing should be labelled and regulated as GMOs, or allowed to enter the food chain untested and unlabelled.

If you believe the proponents’ claims, gene-editing is nothing more than the ‘tweaking’ of DNA in plants and animals – nothing to be concerned about.

But the reality is that gene editing is simply GM 2.0, with many of the same concerns and problems as the GM crops that Europeans have already rejected.

What Is Gene-Editing?

Gene-editing is a form of genetic engineering. It covers a range of new laboratory techniques that, just as older genetic engineering techniques, can change the genetic material (usually DNA) of a living organism, for example a plant or an animal, without
breeding.

In many respects, they are similar to the ‘traditional’ genetic engineering we are familiar with. The difference is that these techniques can change the DNA of the plant or animal at a specific ‘targeted’ location, compared to the insertion of genes at
random locations characteristic of previous techniques.

Many of these techniques can be used to insert genes from an unrelated species into a plant or animal as traditional genetic engineering does and the resulting products, with their novel genes would be regarded as GMOs. But not all the applications of
gene-editing involve the insertion of novel genes.

The current debate surrounds applications of gene-editing that, instead of inserting genes, re-write genes using a sort of ‘DNA typewriter’. The question is whether plants and animals with ‘edited’ genes (without inserted novel genes) should be regulated
as GMOs.

Products of gene editing with re-written genes that might be imported, grown or farmed in Europe in the near future, including the UK, include a herbicide-tolerant oil seed rape,
produced by a technique known as oligonucleotide directed mutagenesis (ODM), and hornless cattle, developed through a technique known
as ‘CRISPR’.

CRISPR is becoming well known in scientific circles as it’s a particularly efficient method of gene-editing.

The Risks of Gene-Editing?

With current commercial GM crops, one of the major concerns is that unexpected effects can result, and have resulted, from the genetic
engineering process, and these can affect food and environmental safety. These effects can include, altered levels of toxins or nutritional compounds and changes to the protein chemistry, which could produce new allergens.

That is why the EU has set up regulations for GM organisms, requiring them to undergo an environmental and health risk assessment before they are grown or reared commercially or enter the food chain. Even so, doubts linger as to the effectiveness of these
assessments.

‘Traditional’ genetic engineering involves the random insertion of genes (or genetic sequences) into an organism’s genome. Proponents tell us that gene-editing is far more precise than the genetic engineering techniques we are familiar with. But what exactly is meant by ‘precise’ here?

Gene-editing techniques may perhaps be more precise at the level and point where the DNA is altered but how this altered DNA might affect interactions with other genes and processes within the cell is largely unknown. Importantly, these gene-to-gene interactions
within the cell are reflected in the organism as a whole.

The effects of the altered DNA on the wholesomeness as a foodstuff and how the organism interacts with the environment are far from being precisely known. Therefore, although gene-editing may be more precise in the intended location where the DNA is modified,
there is still potential for unexpected and unpredictable effects.

Such effects could have implications for food, feed and environmental safety if they increase levels of toxic compounds, reduce levels of nutritional compounds or even produce new allergens.

“Off-Target” Genetic Alterations

Just like traditional genetic engineering, gene-editing techniques can cause unintended alterations in the DNA. For example, several gene-editing techniques use so-called ‘molecular scissors’ to cut DNA as part of the editing process.

These molecular scissors sometimes have what is known as ‘off-target’ effects. This means the DNA is cut in unintended places as well as the intended places, accidentally causing additional genetic alterations.

Other gene editing techniques such as ODM could also edit DNA in the wrong place. In addition, the newly edited gene could interact with other genes in different ways, affecting protein composition and production, chemistry and metabolism.

Many of the gene-editing techniques are so new that it is not yet possible to fully evaluate the potential for and consequences of unintended changes. Importantly, just because gene-edited organisms don’t contain foreign DNA, this doesn’t make them safe.

Furthermore, there is increasing evidence of ‘off-target’ effects. The intended change (e.g. tolerance to a herbicide or cattle without horns) may be clear to see, but the unintended changes aren’t immediately apparent, and certainly not apparent if they
aren’t looked for. It’s a case of ‘don’t look, won’t find’.

The Law Is Clear: Gene-Editing Is Still Genetic Engineering

The question being debated in the EU at the moment is whether small ‘edits’, i.e. changes, insertions or deletions, of segments of DNA without the insertion of new genes are also to be considered as producing a GMO, or fall outside the scope of European
law.

At the core of this debate is the question of what is the distinction between conventional breeding that involves mating and GMOs. In both the EU law (Directive 2001/18)
(See Article 2(2) and Annexes, below) and the UN agreement on GMOs – the Cartagena Protocol, made under the Convention on Biological Diversity – GMOs involve novel arrangements of genetic
material that do not occur naturally, and alterations to genetic material being made directly without mating.

The Directive contains annexes which define exactly what techniques of genetic alteration do, and do not, fall under the definition (reproduced in full below). However gene-editing simply is not mentioned: the technology did not exist in 2001
when the law was written. That means we have to rely on the initial definition:

“‘Genetically modified organism (GMO)’ means an organism, with the exception of human beings, in which the genetic material has been altered in a way that does not occur naturally by mating and/or natural recombination;”

Likewise, the Cartagena Protocol, adopted in 2000, does not specifically list gene-editing as a technology included in its definition (full version below). However the technology, once again, is encompassed by the simple meaning of the words:

“‘Living modified organism’ means any living organism that possesses a novel combination of genetic material obtained through the use of modern biotechnology; … ‘Modern biotechnology’ means the application of: a. In vitro nucleic acid techniques, including … “

In terms of the Directive, it is accurate to say that in gene-edited organisms “the genetic material has been altered in a way that does not occur naturally by mating and/or natural recombination”.

In terms of the Cartagena Protocol, in is accurate to say that a gene-edited organism “possesses a novel combination of genetic material obtained through the … application of … In vitro nucleic acid techniques”.

So in fact – despite the abstruse legal arguments deployed by GM advocates – the law is perfectly clear on the issue. According to the both the EU and Cartagena definitions, gene-editing produces GMOs.

Therefore to remove or exempt gene-editing from regulation, as GM advocates wish, the EU would need to amend the existing Directive. If it tried to interpret the Directive as GM advocates wish, the decision would surely by challenged in the European Court,
for example by one of the many EU countries opposed to the use of GMOs in farming – where in our opinion it should struck down.

Does It Matter if Gene-Editing Is Not Classed as a GM Technique?

If crops and animals developed by gene-editing techniques are officially considered non-GM, or exempted from the EU GMO laws, then they will enter the food chain and the environment completely unregulated and unlabelled.

This means there would be no assessment of food or environmental safety; no requirement to detect any unintended alterations to the organisms’ DNA or its consequences and no assessment of the implications of the trait produced by gene editing (e.g. herbicide
tolerance).

Gene-edited foodstuffs would not have to be labelled. European consumers have resoundingly said “No!” to GM crops,
yet there would be no way for consumers and farmers to avoid gene-edited crops and animals if they were not classified (and hence labelled) as GMOs.

Importantly, although gene-editing might be promoted as causing only small changes in DNA, it can be used repeatedly to achieve substantial changes to one or even several genes. This raises the concern that the alterations could involve the introduction
of, for example, whole new chemical pathways within a plant or animal with a high potential for unexpected effects.

Such organisms would end up in our environment and on our dinner plates completely unregulated if gene-editing techniques are not encompassed by the GMO regulations.

The EU’s GMO laws were devised to protect against the risk of organisms developed by the direct alteration of genetic material using modern biotechnologies (e.g. by in vitro techniques) entering the environment and food chain.

It’s clear that gene-edited crops and animals need to be assessed as GMOs in the same ways as current GM crops. Otherwise EU citizens will unwittingly be exposed to the risks of genetic engineering without testing or labelling, as will the environment,
biodiversity and agriculture.

Additional reporting by The Ecologist.

Further Reading:

Cotter, J., Zimmermann, D. & van Bekkem, H. 2015. ‘Application of the EU and Cartagena definitions of a GMO to the classification of plants developed by cisgenesis and gene-editing techniques‘.
Greenpeace Research Laboratories Technical Report (Review) 07-2015.

Steinbrecher, R. 2015. ‘Genetic Engineering in Plants and the “New Breeding Techniques (NBTs)”. Inherent risks and the need to regulate‘. Econexus
Briefing.

Cartagena Protocol – use of terms

(g) “Living modified organism” means any living organism that possesses a novel combination of genetic material obtained through the use of modern biotechnology;

(h) “Living organism” means any biological entity capable of transferring or replicating genetic material, including sterile organisms, viruses and viroids;

(i) “Modern biotechnology” means the application of:
a. In vitro nucleic acid techniques, including recombinant deoxyribonucleic acid (DNA) and direct injection of nucleic acid into cells or organelles, or
b. Fusion of cells beyond the taxonomic
family, that overcome natural physiological reproductive or recombination barriers and that are not techniques used in traditional breeding and selection;

See full text.

Directive 2011/18, Article 2(2) & Annexes

“Genetically modified organism (GMO)” means an organism, with the exception of human beings, in which the genetic material has been altered in a way that does not occur naturally by mating and/or natural recombination;

Within the terms of this definition:

(a) genetic modification occurs at least through the use of the techniques listed in Annex I A, part 1;

(b) the techniques listed in Annex I A, part 2, are not considered to result in genetic modification;

ANNEX I A

TECHNIQUES REFERRED TO IN ARTICLE 2(2)

PART 1

Techniques of genetic modification referred to in Article 2(2)(a) are inter alia:

(1) recombinant nucleic acid techniques involving the formation of new combinations of genetic material by the insertion of nucleic acid molecules produced by whatever means outside an organism, into any virus, bacterial plasmid or other vector system
and their incorporation into a host organism in which they do not naturally occur but in which they are capable of continued propagation;

(2) techniques involving the direct introduction into an organism of heritable material prepared outside the organism including micro-injection, macro-injection and micro-encapsulation;

(3) cell fusion (including protoplast fusion) or hybridisation techniques where live cells with new combinations of heritable genetic material are formed through the fusion of two or more cells by means of methods that do not occur naturally.

PART 2

Techniques referred to in Article 2(2)(b) which are not considered to result in genetic modification, on condition that they do not involve the use of recombinant nucleic acid molecules or genetically modified organisms made by techniques/methods other
than those excluded by Annex I B:

(1) in vitro fertilisation,

(2) natural processes such as: conjugation, transduction, transformation,

(3) polyploidy induction.

ANNEX I B

TECHNIQUES REFERRED TO IN ARTICLE 3

Techniques/methods of genetic modification yielding organisms to be excluded from the Directive, on the condition that they do not involve the use of recombinant nucleic acid molecules or genetically modified organisms other than those produced by one
or more of the techniques/methods listed below are:

(1) mutagenesis,

(2) cell fusion (including protoplast fusion) of plant cells of organisms which can exchange genetic material through traditional breeding methods.

See full text.

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