According to the Intel® 64 and IA-32 Architectures Software Developer’s Manual, Volume 1: Basic Architecture,
"Programming with Intel Streaming SIMD Extensions (Intel SSE)" chapter:
Caching of Temporal vs. Non-Temporal Data
Data referenced by a program can be temporal (data will be used again) or non-temporal (data will be referenced once and not reused in the immediate future). For example, program code is generally temporal, whereas, multimedia data, such as the display list in a 3-D graphics application, is often non-temporal. To make efficient use of the processor’s caches, it is generally desirable to cache temporal data and not cache non-temporal data. Overloading the processor’s caches with non-temporal data is sometimes referred to as "polluting the caches". The SSE and SSE2 cacheability control instructions enable a program to write non-temporal data to memory in a manner that minimizes pollution of caches.
Description of non-temporal load and store instructions.
Source: Intel 64 and IA-32 Architectures Software Developer’s Manual, Volume 2: Instruction Set Reference
LOAD (MOVNTDQA—Load Double Quadword Non-Temporal Aligned Hint)
Loads a double quadword from the source operand (second operand) to the destination operand (first operand) using a non-temporal hint if the memory source is WC (write combining) memory type [...]
[...] the processor does not read the data into the cache hierarchy, nor does it fetch the corresponding cache line from memory into the cache hierarchy.
Note that, as Peter Cordes comments, it's not useful on normal WB (write-back) memory on current processors because the NT hint is ignored (probably because there are no NT-aware HW prefetchers) and the full strongly-ordered load semantics apply.
prefetchnta can be used as a pollution-reducing load from WB memory
STORE (MOVNTDQ—Store Packed Integers Using Non-Temporal Hint)
Moves the packed integers in the source operand (second operand) to the destination operand (first operand) using a non-temporal hint to prevent caching of the data during the write to memory.
[...] the processor does not write the data into the cache hierarchy, nor does it fetch the corresponding cache line from memory into the cache hierarchy.
Using the terminology defined in Cache Write Policies and Performance, they can be considered as write-around (no-write-allocate, no-fetch-on-write-miss).
Finally, it may be interesting to review John McAlpin notes about non-temporal stores.