**Abstract**

Malaria remains a threat to human life worldwide with children under the age of 5 being the most vulnerable. *Plasmodium falciparum*, known as the causative agent of the deadliest malaria, survives both in the mosquito vector and human host. The sudden temperature change seems to not affect the parasite's cellular system. Heat shock proteins and polyamines are the major house-keepers of the parasite's cellular system to remain viable, despite the temperature changes that the parasite gets exposed to. While heat shock proteins protect newly synthesized proteins until they are properly folded polyamines are needed for cell differentiation, proliferation, and cell growth. In plants for example, polyamines have been reported to act as molecular chaperones when cells are exposed to unfavorable conditions that could be detrimental to cells. In this review, the role of heat shock proteins and polyamines in plasmodium parasite drug resistance and their role in parasite survival are discussed. The current drugs against malaria as well as the alternative future approach towards malarial drug development are reviewed.

**Keywords:** heat shock proteins, polyamines, drug resistance, *Plasmodium falciparum*, drug development
