My policy is that, for a global code to be robust, each object A should check as much as possible, as early as possible. But the "as much as possible" needs explanation:
- The internal coherence of each field B in A (type, range in type etc) should be checked by the field type B itself. If it is a primitive field, or a reused class, it is not possible, so the A object should check it.
- The coherence of related fields (if that B field is null, then C must also be) is the typical responsibility of object A.
- The coherence of a field B with other codes that are external to A is another matter. This is where the "pojo" approach (in Java, but applicable to any language) comes into play.
The POJO approach says that with all the responsibilities/concerns that we have in modern software (persistance & validation are only two of them), domain model end up being messy and hard to understand. The problem is that these domain objects are central to the understanding of the whole application, to communicating with domain experts and so on. Each time you have to read a domain object code, you have to handle the complexity of all these concerns, while you might care of none or one...
So, in the POJO approach, your domain objects must not carry code related to one of these concerns (which usually carries an interface to implement, or a superclass to have).
All concern except the domain one are out of the object (but some simple information can still be provided, in java usually via Annotations, to parameterize generic external code that handle one concern).
Also, the domain objects relate only to other domain objects, not to some framework classes related to one concern (such as validation, or persistence). So the domain model, with all classes, can be put in a separate "package" (project or whatever), without dependencies on technical or concern-related codes. This make it much easier to understand the heart of a complex application, without all that complexity of these secondary aspects.