This paper addresses the problem of two-way sparse reduced-rank regression (TSRRR), which aims to estimate a coefficient matrix that is both low-rank and two-way sparse (sparse in both rows and columns) within a multiple response linear regression model. We formulate TSRRR as a nonconvex optimization problem and propose an efficient, scalable iterative algorithm called Scaled Gradient Descent with Hard Thresholding (ScaledGDT) to solve it. We demonstrate that the iterates obtained by ScaledGDT converge linearly to a region within the statistical error of the ground truth, and this convergence rate is independent of the condition number of the coefficient matrix. Furthermore, we prove that the statistical error rate achieved by ScaledGDT is nearly minimax optimal. Experimental results confirm our theoretical findings and showcase the competitive performance of ScaledGDT.